EurekaMag PDF full texts Chapter 72,105

Alemrajabi, M.; Shojae, S.F.; Moradi, M.; Dehghanian, A.; Ehsani, A.; Valinia, S.S. 2021: Mechanical colon cleansing device in patients with chronic constipation: An experimental study. Medical Journal of the Islamic Republic of Iran 35: 84

Camargos, G.V.; Bhattacharya, P.; van Lenthe, G.H.; Del Bel Cury, A.A.; Naert, I.; Duyck, J.; Vandamme, K. 2015: Mechanical competence of ovariectomy-induced compromised bone after single or combined treatment with high-frequency loading and bisphosphonates. Scientific Reports 5: 10795

Bastounis, E.E.; Serrano-Alcalde, F.; Radhakrishnan, P.; Engström, P.; Gómez-Benito, M.ía.J.; Oswald, M.S.; Yeh, Y.-T.; Smith, J.G.; Welch, M.D.; García-Aznar, J.é M.; Theriot, J.A. 2021: Mechanical competition triggered by innate immune signaling drives the collective extrusion of bacterially infected epithelial cells. Developmental Cell 56(4): 443-460.E11

Struck, M.F.; Fakler, J.K.M.; Bernhard, M.; Busch, T.; Stumpp, P.; Hempel, G.; Beilicke, Aé.; Stehr, S.N.; Josten, C.; Wrigge, H. 2018: Mechanical complications and outcomes following invasive emergency procedures in severely injured trauma patients. Scientific Reports 8(1): 3976

Coll, G.; Abed Rabbo, F.; de Schlichting, E.; Coste, A.él.; Chazal, J.; Garcier, J.-M.; Peyre, H.; Sakka, L. 2021: Mechanical complications of cerebrospinal fluid shunt. Differences between adult and pediatric populations: myths or reality?. Child's Nervous System: Chns: Official Journal of the International Society for Pediatric Neurosurgery 37(7): 2215-2221

Grisel, P.; Roffi, M.; Müller, H.; Keller, P.F. 2011: Mechanical complications of myocardial infarction. Revue Medicale Suisse 7(297): 1189-1192

Pilato, E.; Pinna, G.B.; Parisi, V.; Manzo, R.; Comentale, G. 2020: Mechanical complications of myocardial infarction during COVID-19 pandemic: An Italian single-centre experience. Heart and Lung: the Journal of Critical Care 49(6): 779-782

Ma, D.; Li, A.; Zhang, L.; Wang, D.; Ji, G. 2021: Mechanical compression assisted conductive drying of thin-film dewatered sewage sludge: Process performance, heat and mass transfer behavior. Waste Management 126: 41-51

Chong, P.P.; Panjavarnam, P.; Ahmad, W.N.H.W.; Chan, C.K.; Abbas, A.A.; Merican, A.M.; Pingguan-Murphy, B.; Kamarul, T. 2020: Mechanical compression controls the biosynthesis of human osteoarthritic chondrocytes in vitro. Clinical Biomechanics 79: 105178

Kim, B.Gil.; Gao, M-Qing.; Kang, S.; Choi, Y.Pyo.; Lee, J.Hyun.; Kim, J.Eun.; Han, H.Ho.; Mun, S.Gyeong.; Cho, N.Hoon. 2017: Mechanical compression induces VEGFA overexpression in breast cancer via DNMT3A-dependent miR-9 downregulation. Cell Death and Disease 8(3): E2646

Lee, H-Pyo.; Gu, L.; Mooney, D.J.; Levenston, M.E.; Chaudhuri, O. 2017: Mechanical confinement regulates cartilage matrix formation by chondrocytes. Nature Materials 16(12): 1243-1251

Scripcariu, A.; Mondoly, P.; Voglimacci-Stephanopoli, Q.; Mandel, F.; Maury, P. 2020: Mechanical conflicts at the tricuspid level. a rare cause of both atrial and ventricular lead damage. Heartrhythm Case Reports 6(8): 491-494

Boden, S.D.; Labropoulos, P.A.; McCowin, P.; Lestini, W.F.; Hurwitz, S.R. 1989: Mechanical considerations for the syndesmosis screw. a cadaver study. Journal of Bone and Joint Surgery. American Volume 71(10): 1548-1555

Zot, H.G.; Chase, P.B.; Hasbun, J.E.; Pinto, J.R. 2020: Mechanical contribution to muscle thin filament activation. Journal of Biological Chemistry 295(47): 15913-15922

Rosenthal, C.Karlsson. 2017: Mechanical control of antigen uptake. Nature Cell Biology 19(6): 600

Meyer, C.J.; Alenghat, F.J.; Rim, P.; Fong, J.H.; Fabry, B.; Ingber, D.E.; Ingber, D.E. 2000: Mechanical control of cyclic AMP signalling and gene transcription through integrins. Nature Cell Biology 2(9): 666-668

Du, F.; Jiao, Y. 2020: Mechanical control of plant morphogenesis: concepts and progress. Current Opinion in Plant Biology 57: 16-23

Banavar, S.P.; Carn, E.K.; Rowghanian, P.; Stooke-Vaughan, G.; Kim, S.; Campàs, O. 2021: Mechanical control of tissue shape and morphogenetic flows during vertebrate body axis elongation. Scientific Reports 11(1): 8591

Hariadi, R.F.; Sommese, R.F.; Adhikari, A.S.; Taylor, R.E.; Sutton, S.; Spudich, J.A.; Sivaramakrishnan, S. 2015: Mechanical coordination in motor ensembles revealed using engineered artificial myosin filaments. Nature Nanotechnology 10(8): 696-700

Huang, Q.; Tokmina-Lukaszewska, M.; Johnson, L.E.; Kallas, H.; Ginovska, B.; Peters, J.W.; Seefeldt, L.C.; Bothner, B.; Raugei, S. 2021: Mechanical coupling in the nitrogenase complex. Plos Computational Biology 17(3): E1008719

Kazi, R.; Dai, J.; Sweeney, C.; Zhou, H-Xiang.; Wollmuth, L.P. 2014: Mechanical coupling maintains the fidelity of NMDA receptor-mediated currents. Nature Neuroscience 17(7): 914-922

Cao, P.; Sheng, J.; Wu, J.; Ning, F. 2021: Mechanical creep instability of nanocrystalline methane hydrates. Physical Chemistry Chemical Physics: Pccp 23(5): 3615-3626

Ingallina, E.; Sorrentino, G.; Bertolio, R.; Lisek, K.; Zannini, A.; Azzolin, L.; Severino, L.Ulloa.; Scaini, D.; Mano, M.; Mantovani, F.; Rosato, A.; Bicciato, S.; Piccolo, S.; Del Sal, G. 2018: Mechanical cues control mutant p53 stability through a mevalonate-RhoA axis. Nature Cell Biology 20(1): 28-35

Ulbert, K. 1962: Mechanical damage of keratin proteins observed by electron spin resonance. Nature 195: 175

Wendler, M.; Stenger, A.; Ripper, J.; Priewich, E.; Belli, R.; Lohbauer, U. 2021: Mechanical degradation of contemporary CAD/CAM resin composite materials after water ageing. Dental Materials: Official Publication of the Academy of Dental Materials 37(7): 1156-1167

Li, L.; Yang, T.; Wang, K.; Fan, H.; Hou, C.; Zhang, Q.; Li, Y.; Yu, H.; Wang, H. 2021: Mechanical design of brush coating technology for the alignment of one-dimension nanomaterials. Journal of Colloid and Interface Science 583: 188-195

Yang, T.; Jia, Z.; Chen, H.; Deng, Z.; Liu, W.; Chen, L.; Li, L. 2020: Mechanical design of the highly porous cuttlebone: a bioceramic hard buoyancy tank for cuttlefish. Proceedings of the National Academy of Sciences of the United States of America 117(38): 23450-23459

Pfau, D.B.; Haroun, O.; Lockwood, D.N.; Maier, C.; Schmitter, M.; Vollert, J.; Rice, A.S.C.; Treede, R.-D. 2020: Mechanical detection and pain thresholds: comparability of devices using stepped and ramped stimuli. Pain Reports 5(6): E865

Ito, H.; Murakami, R.; Sakuma, S.; Tsai, C-Hung.Dylan.; Gutsmann, T.; Brandenburg, K.; Pöschl, J.M.B.; Arai, F.; Kaneko, M.; Tanaka, M. 2017: Mechanical diagnosis of human erythrocytes by ultra-high speed manipulation unraveled critical time window for global cytoskeletal remodeling. Scientific Reports 7: 43134

Zhao, D.; Niu, P.; Sun, X.; Yin, Z.; Tan, W.; Huo, Y. 2020: Mechanical difference of left ventricle between rabbits of myocardial infarction and hypertrophy. Journal of Biomechanics 111: 110021

Kisiel, M.; Brovko, O.O.; Yildiz, D.; Pawlak, Rémy.; Gysin, U.; Tosatti, E.; Meyer, E. 2018: Mechanical dissipation from charge and spin transitions in oxygen-deficient SrTiO 3  surfaces. Nature Communications 9(1): 2946

Yildiz, D.; Kisiel, M.; Gysin, U.; Gürlü, O.; Meyer, E. 2019: Mechanical dissipation via image potential states on a topological insulator surface. Nature Materials 18(11): 1201-1206

Yang, L.; Liu, J.; Lin, Y.; Xu, K.; Cao, X.; Zhang, Z.; Wu, J. 2021: Mechanical ductile detwinning in CH3NH3PbI3 perovskite. Physical Chemistry Chemical Physics: Pccp 23(38): 21863-21873

Tsai, S-Ying.; Wang, S-Ying.; Shiau, Y-Chien.; Wu, Y-Wen. 2018: Mechanical dyssynchrony and diastolic dysfunction are common in LVH: a pilot correlation study using Doppler echocardiography and CZT gated-SPECT MPI. Scientific Reports 8(1): 4182

Jones, K.A.; Goodfield, N.E.R. 2022: Mechanical dyssynchrony and super-response to CRT. Journal of Nuclear Cardiology: Official Publication of the American Society of Nuclear Cardiology 29(3): 1175-1177

Titus Ngeno, G.; Borges-Neto, S.; Fudim, M. 2021: Mechanical dyssynchrony in acute heart failure: a marker and a target?. Journal of Nuclear Cardiology: Official Publication of the American Society of Nuclear Cardiology 28(1): 150-152

Selent, B. 2016: Mechanical effects of different Swiss market-leading dentifrices on dentin. Swiss Dental Journal 126(2): 126

Khazraei, H.; Akmali, M.; Mirkhani, H. 2021: Mechanical effects of ranolazine on normal and diabetic-isolated rat heart. Research in Pharmaceutical Sciences 16(3): 269-277

Freeman, B. 2021: Mechanical effects on the genome known since 1948. Nature 591(7850): 369

Chen, X.; Hong, S.; Hong, F.; Yang, B.; Tong, C.; Zhang, J. 2020: Mechanical emulsification of lipoaspirate by different Luer-Lok connector changes the viability of adipose derived stem cells in Nanofat. Journal of Plastic Surgery and Hand Surgery 54(6): 344-351

Danielsen, J.ør.; Sandbakk, Øy.; McGhie, D.; Ettema, G. 2021: Mechanical energy and propulsion mechanics in roller-skiing double-poling at increasing speeds. Plos one 16(7): E0255202

Horiuchi, G.; Nakashima, H.; Sakurai, S. 2021: Mechanical energy flow in torso during baseball toss batting. Sports Biomechanics 2021: 1-11

Ströbele, D.; Othman, A.; Alevizakos, V.; Turan, M.; von See, C. 2021: Mechanical evaluation for three-dimensional printed orthodontic springs with different heights-in vitro study. Journal of Clinical and Experimental Dentistry 13(10): E975-E979

Polyzoides, A.J. 1997: Mechanical evaluation of mobile bearing knees. American Journal of Knee Surgery 10(4): 194

Smit, G. 2020: Mechanical evaluation of the "Hüfner hand" prosthesis. Prosthetics and Orthotics International 2020: 309364620952900

Smit, G. 2021: Mechanical evaluation of the "Hüfner hand" prosthesis. Prosthetics and Orthotics International 45(1): 54-61

Santos, A.d.A.; Carneiro-Filho, M.; Albuquerque, R.F.d.M.E.; Moura, J.ão.P.F.M.d.; Franciozi, C.E.; Luzo, M.V.íc.M. 2020: Mechanical evaluation of tibial fixation of the hamstring tendon in anterior cruciate ligament double-bundle reconstruction with and without interference screws. Clinics 75: E1123

Ledogar, J.A.; Smith, A.L.; Benazzi, S.; Weber, G.W.; Spencer, M.A.; Carlson, K.B.; McNulty, K.P.; Dechow, P.C.; Grosse, I.R.; Ross, C.F.; Richmond, B.G.; Wright, B.W.; Wang, Q.; Byron, C.; Carlson, K.J.; de Ruiter, D.J.; Berger, L.R.; Tamvada, K.; Pryor, L.C.; Berthaume, M.A.; Strait, D.S. 2016: Mechanical evidence that Australopithecus sediba was limited in its ability to eat hard foods. Nature Communications 7: 10596

Rubielos Campos, L. 1948: Mechanical factors in oral antisepsis. Anales Espanoles de Odontoestomatologia 7(3): 220-238

Brochier, A. 1949: Mechanical factors in the etiology of congenital malformations. Pediatrie 4(7): 693-702

Krijgsman, B.J. 1946: Mechanical factors of digestion in the vertebrates. Tabulae Biologicae 21(1): 172-185

Martens, M.; De Meester, P.; Mulier, J.C.; Desmet, L.; Hessels, G. 1973: Mechanical failure of implants in orthopedic surgery. Acta Orthopaedica Belgica 39(4): 738-751

Withers, P.J. 2013: Mechanical failure: Imaging cracks in hostile regimes. Nature Materials 12(1): 7-9

Haider, I.T.; Lee, M.; Page, R.; Smith, D.; Edwards, W.B. 2021: Mechanical fatigue of whole rabbit-tibiae under combined compression-torsional loading is better explained by strained volume than peak strain magnitude. Journal of Biomechanics 122: 110434

Wu, S.; Baskin, T.I.; Gallagher, K.L. 2012: Mechanical fixation techniques for processing and orienting delicate samples, such as the root of Arabidopsis thaliana, for light or electron microscopy. Nature Protocols 7(6): 1113-1124

Zhang, J.; He, F.; Zhang, W.; Zhang, M.; Yang, H.; Luo, Z-Ping. 2015: Mechanical force enhanced bony formation in defect implanted with calcium sulphate cement. Bone Research 3: 14048

Jin, S.-S.; He, D.-Q.; Wang, Y.; Zhang, T.; Yu, H.-J.; Li, Z.-X.; Zhu, L.-S.; Zhou, Y.-H.; Liu, Y. 2020: Mechanical force modulates periodontal ligament stem cell characteristics during bone remodelling via TRPV4. Cell Proliferation 53(10): E12912

Pines, M.; Das, R.; Ellis, S.J.; Morin, A.; Czerniecki, S.; Yuan, L.; Klose, M.; Coombs, D.; Tanentzapf, G. 2012: Mechanical force regulates integrin turnover in Drosophila in vivo. Nature Cell Biology 14(9): 935-943

Liu, J.; Zhang, D.; Xu, L.; Cai, S.; Guo, J.; Chen, J.; Su, J. 2021: Mechanical force system of double key loop with finite element analysis. Bmc Oral Health 21(1): 301

Keating, J.C. 1993: Mechanical force, manually assisted short lever chiropractic adjustment. Journal of Manipulative and Physiological Therapeutics 16(1): 55-58

Yu, W.; Chen, C.; Kou, X.; Sui, B.; Yu, T.; Liu, D.; Wang, R.; Wang, J.; Shi, S. 2021: Mechanical force-driven TNFα endocytosis governs stem cell homeostasis. Bone Research 8(1): 44

Puerner, C.; Kukhaleishvili, N.; Thomson, D.; Schaub, S.; Noblin, X.; Seminara, A.; Bassilana, M.; Arkowitz, R.A. 2020: Mechanical force-induced morphology changes in a human fungal pathogen. Bmc Biology 18(1): 122

Zhu, T.; Chiacchia, S.; Kameny, R.J.; Garcia De Herreros, A.; Gong, W.; Raff, G.W.; Boehme, J.B.; Maltepe, E.; Lasheras, J.C.; Black, S.M.; Datar, S.A.; Fineman, J.R. 2020: Mechanical forces alter endothelin-1 signaling: comparative ovine models of congenital heart disease. Pulmonary Circulation 10(2): 2045894020922118

Li, J.; Fang, Y.; Wu, D. 2021: Mechanical forces and metabolic changes cooperate to drive cellular memory and endothelial phenotypes. Current Topics in Membranes 87: 199-253

Vining, K.H.; Mooney, D.J. 2017: Mechanical forces direct stem cell behaviour in development and regeneration. Nature Reviews. Molecular Cell Biology 18(12): 728-742

Cohen, R.; Amir-Zilberstein, L.; Hersch, M.; Woland, S.; Loza, O.; Taiber, S.; Matsuzaki, F.; Bergmann, S.; Avraham, K.B.; Sprinzak, D. 2020: Mechanical forces drive ordered patterning of hair cells in the mammalian inner ear. Nature Communications 11(1): 5137

Huse, M. 2017: Mechanical forces in the immune system. Nature Reviews. Immunology 17(11): 679-690

Kılıç, Aşe.; Ameli, A.; Park, J-Ah.; Kho, A.T.; Tantisira, K.; Santolini, M.; Cheng, F.; Mitchel, J.A.; McGill, M.; O'Sullivan, M.J.; De Marzio, M.; Sharma, A.; Randell, S.H.; Drazen, J.M.; Fredberg, J.J.; Weiss, S.T. 2020: Mechanical forces induce an asthma gene signature in healthy airway epithelial cells. Scientific Reports 10(1): 966

Kubow, K.E.; Vukmirovic, R.; Zhe, L.; Klotzsch, E.; Smith, M.L.; Gourdon, D.; Luna, S.; Vogel, V. 2015: Mechanical forces regulate the interactions of fibronectin and collagen I in extracellular matrix. Nature Communications 6: 8026

Sarmiento, P.E.; Zaderenko, N.ás.; Colque, R.M.A.; Melgarejo Otarola, F.; Pacheco, G.; Daghero, F.J.; Tibaldi, M.A.; Moreyra H, E. 2020: Mechanical fragmentation and catheter-guided thrombolysis in intermediate risk pulmonary embolism. Medicina 80(3): 285-288

Boldt, K.; Rios, J.L.; Joumaa, V.; Herzog, W. 2021: Mechanical function of cardiac fibre bundles is partly protected by exercise in response to diet-induced obesity in rats. Applied Physiology Nutrition and Metabolism 46(1): 46-54

Chandler, B.D.; Enright, G.D.; Udachin, K.A.; Pawsey, S.; Ripmeester, J.A.; Cramb, D.T.; Shimizu, G.K.H. 2008: Mechanical gas capture and release in a network solid via multiple single-crystalline transformations. Nature Materials 7(3): 229-235

Sugimoto, Y.; Yurtsever, A.; Hirayama, N.; Abe, M.; Morita, S. 2014: Mechanical gate control for atom-by-atom cluster assembly with scanning probe microscopy. Nature Communications 5: 4360

Wang, J.; Kouznetsova, T.B.; Boulatov, R.; Craig, S.L. 2016: Mechanical gating of a mechanochemical reaction cascade. Nature Communications 7: 13433

Ketkaew, J.; Chen, W.; Wang, H.; Datye, A.; Fan, M.; Pereira, G.; Schwarz, U.D.; Liu, Z.; Yamada, R.; Dmowski, W.; Shattuck, M.D.; O'Hern, C.S.; Egami, T.; Bouchbinder, E.; Schroers, J. 2018: Mechanical glass transition revealed by the fracture toughness of metallic glasses. Nature Communications 9(1): 3271

Lin, H.-L.; Lin, S.-Y.; Lin, C.-C.; Hsu, C.-H.; Wu, T.-K.; Huang, Y.-T. 2012: Mechanical grinding effect on thermodynamics and inclusion efficiency of loratadine-cyclodextrin inclusion complex formation. Carbohydrate Polymers 87(1): 512-517

Vautrin, G.; Milanes, B.; Fuste, F. 1946: Mechanical heart failure in the course of the twin pregnancy. Revista Medica Cubana 57: 1-12

Ishikawa, J.; Takeo, M.; Iwadate, A.; Koya, J.; Kihira, M.; Oshima, M.; Suzuki, Y.; Taniguchi, K.; Kobayashi, A.; Tsuji, T. 2021: Mechanical homeostasis of liver sinusoid is involved in the initiation and termination of liver regeneration. Communications Biology 4(1): 409

Hosseini, E.; Zakertabrizi, M.; Habibnejad Korayem, A.; Carbone, P.; Esfandiar, A.; Shahsavari, R. 2021: Mechanical hydrolysis imparts self-destruction of water molecules under steric confinement. Physical Chemistry Chemical Physics: Pccp 23(10): 5999-6008

Franchini, M.; Ceci, O.; Casadio, P.; Carugno, J.; Giarrè, G.; Gubbini, G.; Catena, U.; Chiara de Angelis, M.; Di Spiezio Sardo, A. 2021: Mechanical hysteroscopic tissue removal or hysteroscopic morcellator: understanding the past to predict the future. a narrative review. Facts Views and Vision in Obgyn 13(3): 193-201

Ihász, M. 1972: Mechanical ileus of the small intestine. Zentralblatt für Chirurgie 97(41): 1441-1446

Solheim, K. 1971: Mechanical ileus of the small intestine. Tidsskrift for den Norske Laegeforening: Tidsskrift for Praktisk Medicin Ny Raekke 91(21): 1569-1570

Gracia, Mélanie.; Theis, S.; Proag, A.; Gay, G.; Benassayag, C.; Suzanne, M. 2019: Mechanical impact of epithelial-mesenchymal transition on epithelial morphogenesis in Drosophila. Nature Communications 10(1): 2951

Braun, N.J.; Yao, K.R.; Alford, P.W.; Liao, D. 2020: Mechanical injuries of neurons induce tau mislocalization to dendritic spines and tau-dependent synaptic dysfunction. Proceedings of the National Academy of Sciences of the United States of America 117(46): 29069-29079

Kamal, K.; Keiter, J.A.; Binyamin, T.R.; de la Cruz Dapula, J.N.; Vergara, A.R.; Hawk, C.W.; Izadi, A.; Lyeth, B.; Gurkoff, G.G.; Sharp, F.R.; Waldau, B. 2020: Mechanical injury and blood are drivers of spatial memory deficits after rapid intraventricular hemorrhage. Neurobiology of Disease 145: 105084

Liu, J.; Fan, X.-R.; Zhao, W.; Yang, S.-W.; Hu, B.; Yang, S.-G.; Lu, Q. 2021: Mechanical insight into the formation of H2S from thiophene pyrolysis: the influence of H2O. Chemosphere 279: 130628

Mao, X.; Souslov, A.; Mendoza, C.I.; Lubensky, T.C. 2015: Mechanical instability at finite temperature. Nature Communications 6: 5968

Wu, J.; Ning, F.; Trinh, T.T.; Kjelstrup, S.; Vlugt, T.J.H.; He, J.; Skallerud, Børn.H.; Zhang, Z. 2015: Mechanical instability of monocrystalline and polycrystalline methane hydrates. Nature Communications 6: 8743

Asakura, T.; Agarwal, P.L.; Relman, D.A.; McCray, J.A.; Chance, B.; Schwartz, E.; Friedman, S.; Lubin, B. 1973: Mechanical instability of the oxy-form of sickle haemoglobin. Nature 244(5416): 437-438

Knudtzen, F.C.; Sprehn, M.; Vestbo, J.ør.; Johansen, I.S. 2020: Mechanical insufflation/exsufflation compared with standard of care in patients with pneumonia: a randomised controlled trial. European Journal of Anaesthesiology 37(11): 1077-1080

Liverani, E.; Rogati, G.; Pagani, S.; Brogini, S.; Fortunato, A.; Caravaggi, P. 2021: Mechanical interaction between additive-manufactured metal lattice structures and bone in compression: implications for stress shielding of orthopaedic implants. Journal of the Mechanical Behavior of Biomedical Materials 121: 104608

Gutiérrez-Medina, B.; Vázquez-Villa, A. 2021: Mechanical interaction between hyphae during three-dimensional growth. Fungal Genetics and Biology: Fg and B 151: 103563

Vishwakarma, M.; Di Russo, J.; Probst, D.; Schwarz, U.S.; Das, T.; Spatz, J.P. 2018: Mechanical interactions among followers determine the emergence of leaders in migrating epithelial cell collectives. Nature Communications 9(1): 3469

Kandemir, N.; Vollmer, W.; Jakubovics, N.S.; Chen, J. 2018: Mechanical interactions between bacteria and hydrogels. Scientific Reports 8(1): 10893

Wiener, G.I.; Kadosh, D.; Weihs, D. 2021: Mechanical interactions of invasive cancer cells through their substrate evolve from additive to synergistic. Journal of Biomechanics 129: 110759

Zhang, Y.; Tian, Y.; Meng, Y. 2016: Mechanical interlocking of cotton fibers on slightly textured surfaces of metallic cylinders. Scientific Reports 6: 25403

Schakenraad, K.; Ernst, J.; Pomp, W.; Danen, E.H.J.; Merks, R.M.H.; Schmidt, T.; Giomi, L. 2020: Mechanical interplay between cell shape and actin cytoskeleton organization. Soft Matter 16(27): 6328-6343

Revach, O-Yam.; Weiner, A.; Rechav, K.; Sabanay, I.; Livne, A.; Geiger, B. 2015: Mechanical interplay between invadopodia and the nucleus in cultured cancer cells. Scientific Reports 5: 9466

Cheng, A.J.; Westerblad, Håkan. 2017: Mechanical isolation, and measurement of force and myoplasmic free [Ca 2+ ] in fully intact single skeletal muscle fibers. Nature Protocols 12(9): 1763-1776

Watanabe-Takano, H.; Ochi, H.; Chiba, A.; Matsuo, A.; Kanai, Y.; Fukuhara, S.; Ito, N.; Sako, K.; Miyazaki, T.; Tainaka, K.; Harada, I.; Sato, S.; Sawada, Y.; Minamino, N.; Takeda, S.; Ueda, H.R.; Yasoda, A.; Mochizuki, N. 2021: Mechanical load regulates bone growth via periosteal Osteocrin. Cell Reports 36(2): 109380

Manokawinchoke, J.; Pavasant, P.; Limjeerajarus, C.N.; Limjeerajarus, N.; Osathanon, T.; Egusa, H. 2021: Mechanical loading and the control of stem cell behavior. Archives of Oral Biology 125: 105092

Jing, X.; Yang, X.; Zhang, W.; Wang, S.; Cui, X.; Du, T.; Li, T. 2020: Mechanical loading induces HIF-1α expression in chondrocytes via YAP. Biotechnology Letters 42(9): 1645-1654

Rowson, D.T.; Shelton, J.C.; Screen, H.R.C.; Knight, M.M. 2018: Mechanical loading induces primary cilia disassembly in tendon cells via TGFβ and HDAC6. Scientific Reports 8(1): 11107

Price, A.J.; Cost, A-Lena.; Ungewiß, H.; Waschke, J.; Dunn, A.R.; Grashoff, C. 2018: Mechanical loading of desmosomes depends on the magnitude and orientation of external stress. Nature Communications 9(1): 5284

MacDonald, K.; Boyd, D. 2018: Mechanical loading, an important factor in the evaluation of ion release from bone augmentation materials. Scientific Reports 8(1): 14225

Pustaver, M.R. 1994: Mechanical low back pain: etiology and conservative management. Journal of Manipulative and Physiological Therapeutics 17(6): 376-384

Fu, J.; Aregawi, W.A.; Fok, A.S.L. 2020: Mechanical manifestation of the C-factor in relation to photopolymerization of dental resin composites. Dental Materials: Official Publication of the Academy of Dental Materials 36(8): 1108-1114

Chan, C.Jou.; Bevilacqua, C.; Prevedel, R. 2021: Mechanical mapping of mammalian follicle development using Brillouin microscopy. Communications Biology 4(1): 1133

Nakaso, Y.; Arimoto, S.; Kawaguchi, K.'i.; Muto, T.; Ueda, H. 2020: Mechanical measurement of gravitropic bending force in pea sprouts. Plant Biotechnology 37(4): 475-480

Yang, C.; Tibbitt, M.W.; Basta, L.; Anseth, K.S. 2014: Mechanical memory and dosing influence stem cell fate. Nature Materials 13(6): 645-652

Coulais, C. 2021: Mechanical memory written and read remotely. Nature 589(7842): 360-361

Berger, J.B.; Wadley, H.N.G.; McMeeking, R.M. 2017: Mechanical metamaterials at the theoretical limit of isotropic elastic stiffness. Nature 543(7646): 533-537

Nicolaou, Z.G.; Motter, A.E. 2012: Mechanical metamaterials with negative compressibility transitions. Nature Materials 11(7): 608-613

Grima, J.N.; Caruana-Gauci, R. 2012: Mechanical metamaterials: Materials that push back. Nature Materials 11(7): 565-566

Li, X.; Gao, H. 2016: Mechanical metamaterials: Smaller and stronger. Nature Materials 15(4): 373-374

Henyš, P.; Kuchař, M.; Hájek, P.; Hammer, N. 2021: Mechanical metric for skeletal biomechanics derived from spectral analysis of stiffness matrix. Scientific Reports 11(1): 15690

Calka, A.; Wexler, D. 2002: Mechanical milling assisted by electrical discharge. Nature 419(6903): 147-151

Cantarella, M.; Gorrasi, G.; Di Mauro, A.; Scuderi, M.; Nicotra, G.; Fiorenza, R.; Scirè, S.; Scalisi, M.Elena.; Brundo, M.Violetta.; Privitera, V.; Impellizzeri, G. 2019: Mechanical milling: a sustainable route to induce structural transformations in MoS 2 for applications in the treatment of contaminated water. Scientific Reports 9(1): 974

Ryu, J.; Chen, T.; Bok, T.; Song, G.; Ma, J.; Hwang, C.; Luo, L.; Song, H-Kon.; Cho, J.; Wang, C.; Zhang, S.; Park, S. 2018: Mechanical mismatch-driven rippling in carbon-coated silicon sheets for stress-resilient battery anodes. Nature Communications 9(1): 2924

Watanabe, R.; Okuno, D.; Sakakihara, S.; Shimabukuro, K.; Iino, R.; Yoshida, M.; Noji, H. 2011: Mechanical modulation of catalytic power on F1-ATPase. Nature Chemical Biology 8(1): 86-92

Mu, H.; Wang, T.; Zhang, D.; Liu, W.; Yu, T.; Liao, Q. 2021: Mechanical modulation of spontaneous emission of nearby nanostructured black phosphorus. Optics Express 29(2): 1037-1047

Williams, G.T.; Ballard, R.C.; Hall, M.S. 1968: Mechanical movement of the insect heart recorded with a continuous laser beam. Nature 220(5173): 1241-1242

Malacarne, B.D.; Cota, L.O.; Neto, A.ôn.C.P.; Paz, C.ê F.R.; Dias, L.A.; Corrêa, M.G.; Carvalho, A.M.; Faleiros, R.R.; Xavier, A.B.S. 2020: Mechanical nociceptive assessment of the equine hoof following distal interphalangeal joint intra-articular anesthesia. Peerj 8: E9469

Ulvik, N.M. 1980: Mechanical obstruction of the small intestine. Tidsskrift for den Norske Laegeforening: Tidsskrift for Praktisk Medicin Ny Raekke 100(22): 1288-1291

Hui, D.S.; Lee, R. 2018: Mechanical occlusion of the left atrial appendage - lessons from surgical experience. Nature Reviews. Cardiology 15(3): 191

Barzanjeh, S.; Wulf, M.; Peruzzo, M.; Kalaee, M.; Dieterle, P.B.; Painter, O.; Fink, J.M. 2017: Mechanical on-chip microwave circulator. Nature Communications 8(1): 953

Wei, L.; Liu, L.; Gao, C.; Qian, C.; Xi, K.; Ruan, H.; Yu, J.; Luo, Z.-P.; Cui, W. 2020: Mechanical on-off gates for regulation of drug release in cutaneous or musculoskeletal tissue repairs. Materials Science and Engineering. C Materials for Biological Applications 115: 111048

Bischler, W. 1946: Mechanical or spiritual medicine?. Revue Medicale de la Suisse Romande 66: 376-382

Lippiello, E.; Giacco, F.; Marzocchi, W.; Godano, C.; de Arcangelis, L. 2015: Mechanical origin of aftershocks. Scientific Reports 5: 15560

Nakamura, N.; Nakashima, S.; Ogi, H. 2019: Mechanical oscillation accelerating nucleation and nuclei growth in hard-sphere colloidal glass. Scientific Reports 9(1): 12836

Zhou, Z.L.; Sun, X.X.; Ma, J.; Man, C.H.; Wong, A.S.T.; Leung, A.Y.; Ngan, A.H.W. 2016: Mechanical oscillations enhance gene delivery into suspended cells. Scientific Reports 6: 22824

Vechetti, I.J.; Peck, B.D.; Wen, Y.; Walton, R.Grace.; Valentino, T.R.; Alimov, A.P.; Dungan, C.M.; Van Pelt, D.W.; von Walden, F.; Alkner, Börn.; Peterson, C.A.; McCarthy, J.J. 2021: Mechanical overload-induced muscle-derived extracellular vesicles promote adipose tissue lipolysis. Faseb Journal: Official Publication of the Federation of American Societies for Experimental Biology 35(6): E21644

Koike, M.; Nojiri, H.; Ozawa, Y.; Watanabe, K.; Muramatsu, Y.; Kaneko, H.; Morikawa, D.; Kobayashi, K.; Saita, Y.; Sasho, T.; Shirasawa, T.; Yokote, K.; Kaneko, K.; Shimizu, T. 2015: Mechanical overloading causes mitochondrial superoxide and SOD2 imbalance in chondrocytes resulting in cartilage degeneration. Scientific Reports 5: 11722

Ono, T.; Kohro, Y.; Kohno, K.; Tozaki-Saitoh, H.; Nakashima, Y.; Tsuda, M. 2020: Mechanical pain of the lower extremity after compression of the upper spinal cord involves signal transducer and activator of transcription 3-dependent reactive astrocytes and interleukin-6. Brain Behavior and Immunity 89: 389-399

Aggarwal, G.; Baron, T.H.; Sweetser, S. 2011: Mechanical pancreatitis secondary to parastomal herniation. American Journal of Gastroenterology 106(1): 167-168

Xiao, C.; Su, Y.; Zhu, X.; Yu, W.; Cui, D.; Wei, X.; Zhang, X.; Li, J.; Wang, F.; Ren, Y.; Qin, G.; Zhao, D. 2020: Mechanical performance and biocompatibility assessment of Zn-0.05wt%Mg-(0.5, 1 wt%) Ag alloys. Journal of Biomedical Materials Research. Part B Applied Biomaterials 108(7): 2925-2936

Travascio, F.; Buller, L.T.; Milne, E.; Latta, L. 2021: Mechanical performance and implications on bone healing of different screw configurations for plate fixation of diaphyseal tibia fractures: a computational study. European Journal of Orthopaedic Surgery and Traumatology: Orthopedie Traumatologie 31(1): 121-130

Faudot, B.él.ém.; Ballerini, J.; Ross, M.; Bellemère, P.; Goislard de Monsabert, B.; Vigouroux, L.; Milan, J.-L. 2021: Mechanical performance comparison of two surgical constructs for wrist four-corner arthrodesis via dorsal and radial approaches. Clinical Biomechanics 82: 105274

Gaziano, P.; Lorenzi, C.; Bianchi, D.; Monaldo, E.; Dolci, A.; Vairo, G. 2020: Mechanical performance of Anatomic-Functional-Geometry dental treatments: a computational study. Medical Engineering and Physics 86: 96-108

Bastos-Bitencourt, N.ál.A.; Soares Bombonatti, J.F.; Bitencourt, S.B.; Hatton, B.D.; De Souza, G.M. 2021: Mechanical performance of a hybrid zirconia developed through hydrothermal treatment and Room-Temperature Atomic Layer Deposition (RT-ALD). Journal of the Mechanical Behavior of Biomedical Materials 123: 104783

Arjunan, A.; Robinson, J.; Al Ani, E.; Heaselgrave, W.; Baroutaji, A.; Wang, C. 2020: Mechanical performance of additively manufactured pure silver antibacterial bone scaffolds. Journal of the Mechanical Behavior of Biomedical Materials 112: 104090

Raeker, E.; Powers, M.; Misra, A. 2020: Mechanical performance of co-deposited immiscible Cu-Ta thin films. Scientific Reports 10(1): 17775

Marsh, R.L.; Olson, J.M.; Guzik, S.K. 1992: Mechanical performance of scallop adductor muscle during swimming. Nature 357(6377): 411-413

Peck, J.H.; Cadel, E.; Palepu, V.; Ferrell, B.M.; Warner, C.H. 2021: Mechanical performance of thoracolumbosacral pedicle screw systems: An analysis of data submitted to the Food and Drug Administration. Journal of Biomechanics 125: 110551

Dong, P.; Mozafari, H.; Lee, J.; Gharaibeh, Y.; Zimin, V.N.; Dallan, L.A.P.; Bezerra, H.G.; Wilson, D.L.; Gu, L. 2021: Mechanical performances of balloon post-dilation for improving stent expansion in calcified coronary artery: Computational and experimental investigations. Journal of the Mechanical Behavior of Biomedical Materials 121: 104609

Chen, H.; Chandrasekar, S.; Sheetz, M.P.; Stossel, T.P.; Nakamura, F.; Yan, J. 2013: Mechanical perturbation of filamin A immunoglobulin repeats 20-21 reveals potential non-equilibrium mechanochemical partner binding function. Scientific Reports 3: 1642

Nagarajan, S.; Raj, R.Kadarkarai.; Saravanakumar, V.; Balaguru, U.Maheswari.; Behera, J.; Rajendran, V.Kumar.; Shathya, Y.; Ali, B.Mohammed.Jaffar.; Sumantran, V.; Chatterjee, S. 2016: Mechanical perturbations trigger endothelial nitric oxide synthase activity in human red blood cells. Scientific Reports 6: 26935

Betourne, C. 1949: Mechanical phenomena of respiration and respiratory innervation. La Semaine des Hopitaux: Organe Fonde Par l'Association d'Enseignement Medical des Hopitaux de Paris 25(61): 2590-2595

Di Cerbo, A.; Rubino, V.; Morelli, F.; Ruggiero, G.; Landi, R.; Guidetti, G.; Canello, S.; Terrazzano, G.; Alessandrini, A. 2018: Mechanical phenotyping of K562 cells by the Micropipette Aspiration Technique allows identifying mechanical changes induced by drugs. Scientific Reports 8(1): 1219

Staehle, H.J.ör.; Frese, C.; Sekundo, C. 2021: Mechanical plaque control of the interdental space with the "Heidelberg set". Quintessence International 52(2): 176-186

Slot, D.E.; Valkenburg, C.; Van der Weijden, G.A.F. 2020: Mechanical plaque removal of periodontal maintenance patients: a systematic review and network meta-analysis. Journal of Clinical Periodontology 47(Suppl 22): 107-124

Jain, S.; Ladoux, B.; Mège, R.é-M. 2021: Mechanical plasticity in collective cell migration. Current Opinion in Cell Biology 72: 54-62

Bonakdar, N.; Gerum, R.; Kuhn, M.; Spörrer, M.; Lippert, A.; Schneider, W.; Aifantis, K.E.; Fabry, B. 2016: Mechanical plasticity of cells. Nature Materials 15(10): 1090-1094

Buchmann, B.; Engelbrecht, L.K.; Fernandez, P.; Hutterer, F.P.; Raich, M.K.; Scheel, C.H.; Bausch, A.R. 2021: Mechanical plasticity of collagen directs branch elongation in human mammary gland organoids. Nature Communications 12(1): 2759

Merli, G.J.; Crabbe, S.; Doyle, L.; Ditunno, J.F.; Herbision, G.J. 1992: Mechanical plus pharmacological prophylaxis for deep vein thrombosis in acute spinal cord injury. Paraplegia 30(8): 558-562

Chiu, L.-C.; Lin, S.-W.; Chuang, L.-P.; Li, H.-H.; Liu, P.-H.; Tsai, F.-C.; Chang, C.-H.; Hung, C.-Y.; Lee, C.-S.; Leu, S.-W.; Hu, H.-C.; Huang, C.-C.; Wu, H.-P.; Kao, K.-C. 2021: Mechanical power during extracorporeal membrane oxygenation and hospital mortality in patients with acute respiratory distress syndrome. Critical Care 25(1): 13

Ghiani, A.; Paderewska, J.; Walcher, S.; Neurohr, C. 2021: Mechanical power normalized to lung-thorax compliance predicts prolonged ventilation weaning failure: a prospective study. Bmc Pulmonary Medicine 21(1): 202

Fransman, R. 1991: Mechanical preparation of the root canal. Nederlands Tijdschrift Voor Tandheelkunde 98(10): 408-409

Tsapekos, P.; Kougias, P.G.; Angelidaki, I. 2018: Mechanical pretreatment for increased biogas production from lignocellulosic biomass; predicting the methane yield from structural plant components. Waste Management 78: 903-910

Luo, H.; Wu, Y.; Diao, X.; Shi, W.; Feng, F.; Qian, F.; Umeda, J.; Kondoh, K.; Xin, H.; Shen, J. 2020: Mechanical properties and biocompatibility of titanium with a high oxygen concentration for dental implants. Materials Science and Engineering. C Materials for Biological Applications 117: 111306

Incesu, A.; Gungor, A. 2020: Mechanical properties and biodegradability of Mg-Zn-Ca alloys: homogenization heat treatment and hot rolling. Journal of Materials Science. Materials in Medicine 31(12): 123

Myers, G.W.; Cruickshanks-Boyd, D.W. 1982: Mechanical properties and casting characteristics of a silver-palladium bonding alloy. British Dental Journal 153(9): 323-326

Zhang, Y.; Xu, D.; Li, J.; Zhang, Z.; Ding, S.; Wu, W.; Xia, R. 2021: Mechanical properties and clamping behaviors of snow crab claw. Journal of the Mechanical Behavior of Biomedical Materials 124: 104818

Seuba, J.; Deville, S.; Guizard, C.; Stevenson, A.J. 2016: Mechanical properties and failure behavior of unidirectional porous ceramics. Scientific Reports 6: 24326

Ding, N.; Chen, X.; Wu, C-Man.Lawrence. 2016: Mechanical properties and failure behaviors of the interface of hybrid graphene/hexagonal boron nitride sheets. Scientific Reports 6: 31499

Timercan, A.; Sheremetyev, V.; Brailovski, V. 2021: Mechanical properties and fluid permeability of gyroid and diamond lattice structures for intervertebral devices: functional requirements and comparative analysis. Science and Technology of Advanced Materials 22(1): 285-300

Suresh, S.; Sun, C.-N.; Tekumalla, S.; Rosa, V.; Ling Nai, S.M.; Wong, R.C.W. 2021: Mechanical properties and in vitro cytocompatibility of dense and porous Ti-6Al-4V ELi manufactured by selective laser melting technology for biomedical applications. Journal of the Mechanical Behavior of Biomedical Materials 123: 104712

Tan, X.; Luo, L.; Chen, H.; Zhu, X.; Zan, X.; Luo, G.; Chen, J.; Li, P.; Cheng, J.; Liu, D.; Wu, Y. 2015: Mechanical properties and microstructural change of W-Y2O3 alloy under helium irradiation. Scientific Reports 5: 12755

Dodo, R.M.; Ause, T.; Dauda, E.T.; Shehu, U.; Gaminana, J.O.; Popoola, A.P.I.; Mudiare, E. 2020: Mechanical properties and microstructures data of AISi 1070 steel quenched in epoxidized transesterified cottonseed oil. Data in Brief 32: 106100

Zhang, X.; Mao, J.; Zhou, Y.; Ji, F.; Chen, X. 2021: Mechanical properties and osteoblast proliferation of complex porous dental implants filled with magnesium alloy based on 3D printing. Journal of Biomaterials Applications 35(10): 1275-1283

Zhao, H.; Sun, H.; Zhang, D.; Liu, C. 2021: Mechanical properties and progressive failure characteristics of sandstone containing elliptical and square openings subjected to biaxial stress. Plos one 16(3): E0246815

Yang, W.; Liu, H.; Zhao, Y.; Inoue, A.; Jiang, K.; Huo, J.; Ling, H.; Li, Q.; Shen, B. 2014: Mechanical properties and structural features of novel Fe-based bulk metallic glasses with unprecedented plasticity. Scientific Reports 4: 6233

Dethan, J.F.N. 2021: Mechanical properties and thermal conductivity of newly introduced graphene-like borophanes: a reactive molecular dynamics study. Physical Chemistry Chemical Physics: Pccp 23(31): 17009-17017

Yang, K.; Guan, J.; Shao, Z.; Ritchie, R.O. 2020: Mechanical properties and toughening mechanisms of natural silkworm silks and their composites. Journal of the Mechanical Behavior of Biomedical Materials 110: 103942

Bao, X.; Liu, F.; He, J. 2021: Mechanical properties and water-aging resistance of glass ionomer cements reinforced with 3-aminopropyltriethoxysilane treated basalt fibers. Journal of the Mechanical Behavior of Biomedical Materials 116: 104369

Yang, B.; Wang, S.; Wang, G.; Yang, X. 2021: Mechanical properties and wear behaviors analysis of fluorapatite glass-ceramics based on stereolithography 3D printing. Journal of the Mechanical Behavior of Biomedical Materials 124: 104859

Alqahtani, M. 2020: Mechanical properties enhancement of self-cured PMMA reinforced with zirconia and boron nitride nanopowders for high-performance dental materials. Journal of the Mechanical Behavior of Biomedical Materials 110: 103937

Essmann, C.L.; Martinez-Martinez, D.; Pryor, R.; Leung, K-Yi.; Krishnan, K.Bala.; Lui, P.Pokway.; Greene, N.D.E.; Brown, Aé.E.X.; Pawar, V.M.; Srinivasan, M.A.; Cabreiro, F. 2020: Mechanical properties measured by atomic force microscopy define health biomarkers in ageing C. elegans. Nature Communications 11(1): 1043

Al-Taie, A.; Pan, J.; Polak, P.; Barer, M.R.; Han, X.; Abbott, A.P. 2020: Mechanical properties of 3-D printed polyvinyl alcohol matrix for detection of respiratory pathogens. Journal of the Mechanical Behavior of Biomedical Materials 112: 104066

Zhang, Y.-S.; Zhang, K.; Chen, X.-W.; Mu, H.-Z.; Ding, W.-W.; Qin, M.-L.; Zhang, S.-Y.; Gong, Q.-L.; Chen, G. 2020: Mechanical properties of 3D-printed titanium mesh and its biocompatibility in vitro. Shanghai Kou Qiang Yi Xue 29(3): 250-256

Michalowski, J.; Mikociak, D.; Konsztowicz, K.J.; Blazewicz, S. 2011: Mechanical properties of C/C composites processed by wet impregnation and P-CVi methods. Journal of Materials Science 46(16): 5587-5594

Bezrouk, A.; Hosszu, T.; Hromadko, L.; Olmrova Zmrhalova, Z.; Kopecek, M.; Smutny, M.; Selke Krulichova, I.; Macak, J.M.; Kremlacek, J. 2020: Mechanical properties of a biodegradable self-expandable polydioxanone monofilament stent: in vitro force relaxation and its clinical relevance. Plos one 15(7): E0235842

McCabe, J.F.; Kagi, S. 1991: Mechanical properties of a composite inlay material following post-curing. British Dental Journal 171(8): 246-248

Matsumura, Y.; Kovalev, A.; Gorb, S.N. 2021: Mechanical properties of a female reproductive tract of a beetle and implications for penile penetration. PROCEEDINGS. Biological Sciences 288(1954): 20211125

Iwaki, M.; Kanazawa, M.; Arakida, T.; Minakuchi, S. 2020: Mechanical properties of a polymethyl methacrylate block for CAD/CAM dentures. Journal of Oral Science 62(4): 420-422

Traxel, K.D.; Groden, C.; Valladares, J.; Bandyopadhyay, A. 2021: Mechanical properties of additively manufactured variable lattice structures of Ti6Al4V. Materials Science and Engineering. A Structural Materials: Properties Microstructure and Processing 809

Jiang, W.; Lin, Y.-C.; Luo, Y.L. 2021: Mechanical properties of anionic asymmetric bilayers from atomistic simulations. Journal of Chemical Physics 154(22): 224701

Boulard, C.ém.; Gautheron, V.; Lapole, T. 2021: Mechanical properties of ankle joint and gastrocnemius muscle in spastic children with unilateral cerebral palsy measured with shear wave elastography. Journal of Biomechanics 124: 110502

Efremov, Y.M.; Bakhchieva, N.A.; Shavkuta, B.S.; Frolova, A.A.; Kotova, S.L.; Novikov, I.A.; Akovantseva, A.A.; Avetisov, K.S.; Avetisov, S.E.; Timashev, P.S. 2020: Mechanical properties of anterior lens capsule assessed with AFM and nanoindenter in relation to human aging, pseudoexfoliation syndrome, and trypan blue staining. Journal of the Mechanical Behavior of Biomedical Materials 112: 104081

Falin, A.; Cai, Q.; Santos, E.J.G.; Scullion, D.; Qian, D.; Zhang, R.; Yang, Z.; Huang, S.; Watanabe, K.; Taniguchi, T.; Barnett, M.R.; Chen, Y.; Ruoff, R.S.; Li, L.Hua. 2017: Mechanical properties of atomically thin boron nitride and the role of interlayer interactions. Nature Communications 8: 15815

Moučka, R.; Sedlačík, M.; Osička, J.; Pata, V. 2021: Mechanical properties of bulk Sylgard 184 and its extension with silicone oil. Scientific Reports 11(1): 19090

Arash, B.; Wang, Q.; Varadan, V.K. 2014: Mechanical properties of carbon nanotube/polymer composites. Scientific Reports 4: 6479

Efremov, Y.M.; Zurina, I.M.; Presniakova, V.S.; Kosheleva, N.V.; Butnaru, D.V.; Svistunov, A.A.; Rochev, Y.A.; Timashev, P.S. 2021: Mechanical properties of cell sheets and spheroids: the link between single cells and complex tissues. Biophysical Reviews 13(4): 541-561

Wang, S.; Song, X.; Chen, Q.; Wang, X.; Wei, M.; Ke, Y.; Luo, Z. 2020: Mechanical properties of cemented tailings backfill containing alkalized rice straw of various lengths. Journal of Environmental Management 276: 111124

Santos, C.D.; Coutinho, I.F.; Amarante, J.é E.V.; Alves, M.F.R.P.; Coutinho, M.M.; Moreira da Silva, C.R. 2021: Mechanical properties of ceramic composites based on ZrO2 co-stabilized by Y2O3-CeO2 reinforced with Al2O3 platelets for dental implants. Journal of the Mechanical Behavior of Biomedical Materials 116: 104372

Hannah, C.; Combe, E.C. 1976: Mechanical properties of composite restorative materials. British Dental Journal 140(5): 167-173

Wang, J.; Zhang, H.; Sun, Y.; Liu, P.; Li, S.; Cui, P. 2021: Mechanical properties of de-epithelialized tracheal allografts. Journal of Thoracic Disease 13(2): 1066-1074

Rasouli, A.; Jamali, Y.; Tajkhorshid, E.; Bavi, O.; Pishkenari, H.N. 2021: Mechanical properties of ester- and ether-DPhPC bilayers: a molecular dynamics study. Journal of the Mechanical Behavior of Biomedical Materials 117: 104386

Wang, Y.; Müller, W.-D.; Rumjahn, A.; Schmidt, F.; Schwitalla, A.D. 2021: Mechanical properties of fused filament fabricated PEEK for biomedical applications depending on additive manufacturing parameters. Journal of the Mechanical Behavior of Biomedical Materials 115: 104250

Swider, P.; Delanoë, F.; Jalbert, F.; Boetto, S.; Assemat, P.; Estivalèzes, E.; Lauwers, F. 2021: Mechanical properties of fused sagittal sutures in scaphocephaly. Clinical Biomechanics 86: 105369

Li, J.; Zhao, Z.; Yan, R.; Yang, Y. 2020: Mechanical properties of graded scaffolds developed by curve interference coupled with selective laser sintering. Materials Science and Engineering. C Materials for Biological Applications 116: 111181

Menon, V.; Buldum, A. 2020: Mechanical properties of graphene-CNT van der Waals heterostructures: a molecular dynamics study. Nanotechnology 31(45): 455707

Dastmard, M.; Ansari, R.; Rouhi, S. 2021: Mechanical properties of group IV single-walled nanotubes: a finite element approach based on the density functional theory. Journal of Molecular Modeling 27(6): 163

Tsitlakidis, A.; Aifantis, E.C.; Kritis, A.; Tsingotjidou, A.S.; Cheva, A.; Selviaridis, P.; Foroglou, N. 2020: Mechanical properties of human glioma. Neurological Research 2020: 1-9

Svensson, R.B.; Eriksen, C.S.; Tran, P.H.T.; Kjaer, M.; Magnusson, S.P. 2021: Mechanical properties of human patellar tendon collagen fibrils. An exploratory study of aging and sex. Journal of the Mechanical Behavior of Biomedical Materials 124: 104864

Hasegawa, M. 1981: Mechanical properties of living tissues. Iyo Denshi to Seitai Kogaku. Japanese Journal of Medical Electronics and Biological Engineering 19(7): 518-524

Kubo, K.; Miyazaki, D.; Yata, H.; Tsunoda, N. 2020: Mechanical properties of muscle and tendon at high strain rate in sprinters. Physiological Reports 8(19): E14583

Zwirner, J.; Ondruschka, B.; Scholze, M.; Schulze-Tanzil, G.; Hammer, N. 2020: Mechanical properties of native and acellular temporal muscle fascia for surgical reconstruction and computational modelling purposes. Journal of the Mechanical Behavior of Biomedical Materials 108: 103833

Gusev, A.I. 2021: Mechanical properties of nonstoichiometric cubic titanium carbide TiCy. Physical Chemistry Chemical Physics: Pccp 23(34): 18558-18567

Rakshit, T.; Melters, Dël.P.; Dimitriadis, E.K.; Dalal, Y. 2020: Mechanical properties of nucleoprotein complexes determined by nanoindentation spectroscopy. Nucleus 11(1): 264-282

Millesi, H.; Zöch, G.; Reihsner, R. 1995: Mechanical properties of peripheral nerves. Clinical Orthopaedics and Related Research 314: 76-83

Steinkühler, J.; Sezgin, E.; Urbančič, I.; Eggeling, C.; Dimova, R. 2019: Mechanical properties of plasma membrane vesicles correlate with lipid order, viscosity and cell density. Communications Biology 2: 337

Steinkühler, J.; Sezgin, E.; Urbančič, I.; Eggeling, C.; Dimova, R. 2019: Mechanical properties of plasma membrane vesicles correlate with lipid order, viscosity and cell density. Communications Biology 2(1): 337

Hao, Y.; Cheng, S.; Tanaka, Y.; Hosokawa, Y.; Yalikun, Y.; Li, M. 2020: Mechanical properties of single cells: Measurement methods and applications. Biotechnology Advances 45: 107648

Yu, J.; Manouchehri, N.; Yamamoto, S.; Kwon, B.K.; Oxland, T.R. 2020: Mechanical properties of spinal cord grey matter and white matter in confined compression. Journal of the Mechanical Behavior of Biomedical Materials 112: 104044

Hatami-Marbini, H.; Rohanifar, M. 2020: Mechanical properties of subisostatic random networks composed of nonlinear fibers. Soft Matter 16(30): 7156-7164

Newton, J.B.; Fryhofer, G.W.; Rodriguez, A.B.; Kuntz, A.F.; Soslowsky, L.J. 2021: Mechanical properties of the different rotator cuff tendons in the rat are similarly and adversely affected by age. Journal of Biomechanics 117: 110249

Khadka, N.K.; Timsina, R.; Rowe, E.; O'Dell, M.; Mainali, L. 2021: Mechanical properties of the high cholesterol-containing membrane: An AFM study. Biochimica et Biophysica Acta. Biomembranes 1863(8): 183625

Piao, C.; Li, Z.; Ding, J.; Kong, D. 2020: Mechanical properties of the sciatic nerve following combined transplantation of analytically extracted acellular allogeneic nerve and adipose-derived mesenchymal stem cells. Acta Cirurgica Brasileira 35(4): E202000405

Lipps, D.B.; Leonardis, J.M.; Dess, R.T.; McGinnis, G.J.; Marsh, R.B.; Strauss, J.B.; Hayman, J.A.; Pierce, L.J.; Jagsi, R. 2019: Mechanical properties of the shoulder and pectoralis major in breast cancer patients undergoing breast-conserving surgery with axillary surgery and radiotherapy. Scientific Reports 9(1): 17737

Bartlett, R.D.; Eleftheriadou, D.; Evans, R.; Choi, D.; Phillips, J.B. 2020: Mechanical properties of the spinal cord and brain: Comparison with clinical-grade biomaterials for tissue engineering and regenerative medicine. Biomaterials 258: 120303

Wu, B.; Heidelberg, A.; Boland, J.J. 2005: Mechanical properties of ultrahigh-strength gold nanowires. Nature Materials 4(7): 525-529

Mulvany, M.J.; Halpern, W. 1976: Mechanical properties of vascular smooth muscle cells in situ. Nature 260(5552): 617-619

Yu, S.; Ma, P. 2021: Mechanical properties of warp-knitted hernia repair mesh with various boundary conditions. Journal of the Mechanical Behavior of Biomedical Materials 114: 104192

Macan, J.; Sikirić, M.D.; Deluca, M.; Bermejo, R.; Baudin, C.; Plodinec, M.; Salamon, K.ši.; Čeh, M.; Gajović, A. 2020: Mechanical properties of zirconia ceramics biomimetically coated with calcium deficient hydroxyapatite. Journal of the Mechanical Behavior of Biomedical Materials 111: 104006

Cokic, S.M.; Vleugels, J.; Van Meerbeek, B.; Camargo, B.; Willems, E.; Li, M.; Zhang, F. 2020: Mechanical properties, aging stability and translucency of speed-sintered zirconia for chairside restorations. Dental Materials: Official Publication of the Academy of Dental Materials 36(7): 959-972

Ding, Y.; Lin, J.; Wen, C.; Zhang, D.; Li, Y. 2016: Mechanical properties, in vitro corrosion and biocompatibility of newly developed biodegradable Mg-Zr-Sr-Ho alloys for biomedical applications. Scientific Reports 6: 31990

Zhang, Y-Wei. 2012: Mechanical properties: Nanotwins only. Nature Nanotechnology 7(9): 551-552

Ackland, G.J. 2012: Mechanical properties: Overcoming old barriers. Nature Materials 11(10): 837-838

Naebe, M.; Wang, J.; Amini, A.; Khayyam, H.; Hameed, N.; Li, L.Hua.; Chen, Y.; Fox, B. 2014: Mechanical property and structure of covalent functionalised graphene/epoxy nanocomposites. Scientific Reports 4: 4375

Zhang, C.; Xu, S.; Zhang, L. 2021: Mechanical property characterization of partially crystalline Poly-Ether-Ether-Ketone. Journal of the Mechanical Behavior of Biomedical Materials 121: 104600

Bito, S.; Miyata, S.; Migita, K.; Nakamura, M.; Shinohara, K.; Sato, T.; Tonai, T.; Shimizu, M.; Shibata, Y.; Kishi, K.; Kubota, C.; Nakahara, S.; Mori, T.; Ikeda, K.; Ota, S.; Minamizaki, T.; Yamada, S.; Shiota, N.; Kamei, M.; Motokawa, S. 2016: Mechanical prophylaxis is a heparin-independent risk for anti-platelet factor 4/heparin antibody formation after orthopedic surgery. Blood 127(8): 1036-1043

Mahindru, S.; Pande, S.; Malhotra, P.; Thukral, A.; Kotwal, A.S.; Gupta, R.P.; Garg, N.; Kapoor, A.; Agarwal, S.K. 2021: Mechanical prosthetic valve thrombosis in current era: 5-year follow-up. Indian Journal of Thoracic and Cardiovascular Surgery 37(2): 140-146

Pan, L.-L.H.; Wang, Y.-F.; Lai, K.-L.; Chen, W.-T.; Chen, S.-P.; Ling, Y.-H.; Chou, L.-W.; Treede, R.-D.; Wang, S.-J. 2020: Mechanical punctate pain threshold is associated with headache frequency and phase in patients with migraine. Cephalalgia: An International Journal of Headache 40(9): 990-997

Vanner, M.R. 2018: Mechanical quantum systems controlled. Nature 563(7729): 39-40

Elosegui-Artola, A.; Oria, R.; Chen, Y.; Kosmalska, A.; Pérez-González, C.; Castro, N.; Zhu, C.; Trepat, X.; Roca-Cusachs, P. 2016: Mechanical regulation of a molecular clutch defines force transmission and transduction in response to matrix rigidity. Nature Cell Biology 18(5): 540-548

Schmitz, J.; Gottschalk, K.-E. 2008: Mechanical regulation of cell adhesion. Soft Matter 4(7): 1373-1387

Fu, J.; Wang, Y-Kao.; Yang, M.T.; Desai, R.A.; Yu, X.; Liu, Z.; Chen, C.S. 2010: Mechanical regulation of cell function with geometrically modulated elastomeric substrates. Nature Methods 7(9): 733-736

Saucerman, J.J.; Tan, P.M.; Buchholz, K.S.; McCulloch, A.D.; Omens, J.H. 2019: Mechanical regulation of gene expression in cardiac myocytes and fibroblasts. Nature Reviews. Cardiology 16(6): 361-378

Park, J.Suk.; Burckhardt, C.J.; Lazcano, R.; Solis, L.M.; Isogai, T.; Li, L.; Chen, C.S.; Gao, B.; Minna, J.D.; Bachoo, R.; DeBerardinis, R.J.; Danuser, G. 2020: Mechanical regulation of glycolysis via cytoskeleton architecture. Nature 578(7796): 621-626

Moore, K.A.; Altus, S.; Tay, J.W.; Meehl, J.B.; Johnson, E.B.; Bortz, D.M.; Cameron, J.C. 2020: Mechanical regulation of photosynthesis in cyanobacteria. Nature Microbiology 5(5): 757-767

He, L.; Si, G.; Huang, J.; Samuel, A.D.T.; Perrimon, N. 2018: Mechanical regulation of stem-cell differentiation by the stretch-activated Piezo channel. Nature 555(7694): 103-106

Le, H.Quang.; Ghatak, S.; Yeung, C-Yan.Chloé.; Tellkamp, F.; Günschmann, C.; Dieterich, C.; Yeroslaviz, A.; Habermann, B.; Pombo, A.; Niessen, C.M.; Wickström, S.A. 2016: Mechanical regulation of transcription controls Polycomb-mediated gene silencing during lineage commitment. Nature Cell Biology 18(8): 864-875

Babacic, V.; Varghese, J.; Coy, E.; Kang, E.; Pochylski, M.; Gapinski, J.; Fytas, G.; Graczykowski, B. 2020: Mechanical reinforcement of polymer colloidal crystals by supercritical fluids. Journal of Colloid and Interface Science 579: 786-793

Thiemer, K.; Schneider, S.C.; Demars, B.ît.O.L. 2021: Mechanical removal of macrophytes in freshwater ecosystems: Implications for ecosystem structure and function. Science of the Total Environment 782: 146671

Kim, D.-G.; Lee, S.; Kim, K. 2020: Mechanical removal of surface residues on graphene for TEM characterizations. Applied Microscopy 50(1): 28

Saini, D.; Behlow, H.; Podila, R.; Dickel, D.; Pillai, B.; Skove, M.J.; Serkiz, S.M.; Rao, A.M. 2014: Mechanical resonances of helically coiled carbon nanowires. Scientific Reports 4: 5542

Huault, G. 1984: Mechanical respiration in children. Agressologie: Revue Internationale de Physio-Biologie et de Pharmacologie Appliquees Aux Effets de l'Agression 25(3): 259-260

Nicolas, A.; Kuperman, M.; Ibañez, S.; Bouzat, Sán.; Appert-Rolland, Cécile. 2019: Mechanical response of dense pedestrian crowds to the crossing of intruders. Scientific Reports 9(1): 105

Dommeti, V.K.; Pramanik, S.; Roy, S. 2021: Mechanical response of different types of surface texture for medical application using finite element study. Proceedings of the Institution of Mechanical Engineers. Part H Journal of Engineering in Medicine 235(6): 717-725

Wu, C.-D.; Cheng, Y.-W.; Hong, G.-W. 2020: Mechanical response of nanoporous nickel investigated using molecular dynamics simulations. Journal of Molecular Modeling 26(7): 185

Wen, Y.; Zhang, T.; Yan, W.; Chen, Y.; Wang, G. 2021: Mechanical response of porcine hind leg muscles under dynamic tensile loading. Journal of the Mechanical Behavior of Biomedical Materials 115: 104279

Hibberd, M.G.; Goldman, Y.E.; Trentham, D.R. 1983: Mechanical response to photochemical release of ATP within skinned muscle fibres. Biochemical Society Transactions 11 Pt 2: 151

Wan, M.; Kang, S.; Wang, L.; Lee, H-Wook.; Zheng, G.Wesley.; Cui, Y.; Sun, Y. 2020: Mechanical rolling formation of interpenetrated lithium metal/lithium tin alloy foil for ultrahigh-rate battery anode. Nature Communications 11(1): 829

Wang, L.; You, X.; Lotinun, S.; Zhang, L.; Wu, N.; Zou, W. 2020: Mechanical sensing protein PIEZO1 regulates bone homeostasis via osteoblast-osteoclast crosstalk. Nature Communications 11(1): 282

Petitpierre, M. 1945: Mechanical setup in bone fracture treatment. Zeitschrift für Unfallmedizin und Berufskrankheiten. Revue de Medecine des Accidents et des Maladies Professionelles 38(4): 324-328

Figueroa-Morales, N.; Dominguez-Rubio, L.; Ott, T.L.; Aranson, I.S. 2019: Mechanical shear controls bacterial penetration in mucus. Scientific Reports 9(1): 9713

Bryhni, E.; Fjeld, A.; Lovlie, A. 1974: Mechanical shocks induce phenocopies of developmental mutants. Nature 248(5451): 794-796

Ozcivici, E.; Luu, Y.Kim.; Adler, B.; Qin, Y-Xian.; Rubin, J.; Judex, S.; Rubin, C.T. 2010: Mechanical signals as anabolic agents in bone. Nature Reviews. Rheumatology 6(1): 50-59

Ebner, M.; Haucke, V. 2018: Mechanical signals regulate TORC2 activity. Nature Cell Biology 20(9): 994-995

Li, J.; Shen, P.; Zhen, S.; Tang, C.; Ye, Y.; Zhou, D.; Hong, W.; Zhao, Z.; Tang, B.Zhong. 2021: Mechanical single-molecule potentiometers with large switching factors from ortho-pentaphenylene foldamers. Nature Communications 12(1): 167

Okumus, B.; Landgraf, D.; Lai, G.Chuan.; Bakshi, S.; Arias-Castro, J.Carlos.; Yildiz, S.; Huh, D.; Fernandez-Lopez, R.; Peterson, C.N.; Toprak, E.; El Karoui, M.; Paulsson, J. 2016: Mechanical slowing-down of cytoplasmic diffusion allows in vivo counting of proteins in individual cells. Nature Communications 7: 11641

Barnett, W.O. 1960: Mechanical small bowel obstruction. American Practitioner and Digest of Treatment 11: 389-396

Lv, J.; Liu, Y.; Huang, B. 2021: Mechanical softness: a true stemness feature for cancer cells. Molecular and Cellular Oncology 8(2): 1882285

Chandra Hari Mangalara, S.; Paudel, S.; McKenna, G.B. 2021: Mechanical spectral hole burning in glassy polymers-Investigation of polycarbonate, a material with weak β-relaxation. Journal of Chemical Physics 154(12): 124904

VanDelinder, V.; Adams, P.G.; Bachand, G.D. 2016: Mechanical splitting of microtubules into protofilament bundles by surface-bound kinesin-1. Scientific Reports 6: 39408

Rahikainen, R.; von Essen, Ména.; Schaefer, M.; Qi, L.; Azizi, L.; Kelly, C.; Ihalainen, T.O.; Wehrle-Haller, B.; Bastmeyer, M.; Huang, C.; Hytönen, V.P. 2017: Mechanical stability of talin rod controls cell migration and substrate sensing. Scientific Reports 7(1): 3571

Ito, H.; Muromoto, M.; Kurenuma, S.; Ishizaka, S.; Kitamura, N.; Sato, H.; Seki, T. 2013: Mechanical stimulation and solid seeding trigger single-crystal-to-single-crystal molecular domino transformations. Nature Communications 4: 2009

Wahlsten, A.; Rütsche, D.; Nanni, M.; Giampietro, C.; Biedermann, T.; Reichmann, E.; Mazza, E. 2021: Mechanical stimulation induces rapid fibroblast proliferation and accelerates the early maturation of human skin substitutes. Biomaterials 273: 120779

Igarashi, A.; Okuno, T.; Shimizu, T.; Ohta, G.; Ohshima, Y. 2021: Mechanical stimulation is a risk factor for phlebitis associated with peripherally inserted central venous catheter in neonates. Pediatrics International: Official Journal of the Japan Pediatric Society 63(5): 561-564

Xia, B.; Gao, J.; Li, S.; Huang, L.; Zhu, L.; Ma, T.; Zhao, L.; Yang, Y.; Luo, K.; Shi, X.; Mei, L.; Zhang, H.; Zheng, Y.; Lu, L.; Luo, Z.; Huang, J. 2020: Mechanical stimulation of Schwann cells promote peripheral nerve regeneration via extracellular vesicle-mediated transfer of microRNA 23b-3p. Theranostics 10(20): 8974-8995

Shimomura, S.; Inoue, H.; Arai, Y.; Nakagawa, S.; Fujii, Y.; Kishida, T.; Shin-Ya, M.; Ichimaru, S.; Tsuchida, S.; Mazda, O.; Takahashi, K. 2021: Mechanical stimulation of chondrocytes regulates HIF-1α under hypoxic conditions. Tissue and Cell 71: 101574

Anloague, A.; Mahoney, A.; Ogunbekun, O.; Hiland, T.A.; Thompson, W.R.; Larsen, B.; Loghmani, M.T.; Hum, J.M.; Lowery, J.W. 2020: Mechanical stimulation of human dermal fibroblasts regulates pro-inflammatory cytokines: potential insight into soft tissue manual therapies. Bmc Research Notes 13(1): 400

Wang, J.; Wang, C.D.; Zhang, N.; Tong, W.X.; Zhang, Y.F.; Shan, S.Z.; Zhang, X.L.; Li, Q.F. 2016: Mechanical stimulation orchestrates the osteogenic differentiation of human bone marrow stromal cells by regulating HDAC1. Cell Death and Disease 7: E2221

Liu, S.; Wu, D.; Sun, X.; Fan, Y.; Zha, R.; Jalali, A.; Teli, M.; Sano, T.; Siegel, A.; Sudo, A.; Agarwal, M.; Robling, A.; Li, B-Yan.; Yokota, H. 2020: Mechanical stimulations can inhibit local and remote tumor progression by downregulating WISP1. Faseb Journal: Official Publication of the Federation of American Societies for Experimental Biology 34(9): 12847-12859

Curtis, K.J.; Schiavi, J.; Mc Garrigle, M.J.; Kumar, V.; McNamara, L.M.; Niebur, G.L. 2020: Mechanical stimuli and matrix properties modulate cancer spheroid growth in three-dimensional gelatin culture. Journal of the Royal Society Interface 17(173): 20200568

Cambré, I.; Gaublomme, D.; Burssens, A.; Jacques, P.; Schryvers, N.; De Muynck, Aélie.; Meuris, L.; Lambrecht, S.; Carter, S.; de Bleser, P.; Saeys, Y.; Van Hoorebeke, L.; Kollias, G.; Mack, M.; Simoens, P.; Lories, R.; Callewaert, N.; Schett, G.; Elewaut, D. 2018: Mechanical strain determines the site-specific localization of inflammation and tissue damage in arthritis. Nature Communications 9(1): 4613

Ehrlicher, A.J.; Nakamura, F.; Hartwig, J.H.; Weitz, D.A.; Stossel, T.P. 2011: Mechanical strain in actin networks regulates FilGAP and integrin binding to filamin A. Nature 478(7368): 260-263

Wang, Y.; Goliwas, K.F.; Severino, P.E.; Hough, K.P.; Van Vessem, D.; Wang, H.; Tousif, S.; Koomullil, R.P.; Frost, A.R.; Ponnazhagan, S.; Berry, J.L.; Deshane, J.S. 2020: Mechanical strain induces phenotypic changes in breast cancer cells and promotes immunosuppression in the tumor microenvironment. Laboratory Investigation; a Journal of Technical Methods and Pathology 100(12): 1503-1516

Gao, Y.; Zhou, J.; Xie, Z.; Wang, J.; Ho, C-Kang.; Zhang, Y.; Li, Q. 2019: Mechanical strain promotes skin fibrosis through LRG-1 induction mediated by ELK1 and ERK signalling. Communications Biology 2: 359

Gao, Y.; Zhou, J.; Xie, Z.; Wang, J.; Ho, C-Kang.; Zhang, Y.; Li, Q. 2019: Mechanical strain promotes skin fibrosis through LRG-1 induction mediated by ELK1 and ERK signalling. Communications Biology 2(1): 359

Galea, G.L.; Paradise, C.R.; Meakin, L.B.; Camilleri, E.T.; Taipaleenmaki, H.; Stein, G.S.; Lanyon, L.E.; Price, J.S.; van Wijnen, A.J.; Dudakovic, A. 2020: Mechanical strain-mediated reduction in RANKL expression is associated with RUNX2 and BRD2. Gene: X 5: 100027

Galea, G.L.; Paradise, C.R.; Meakin, L.B.; Camilleri, E.T.; Taipaleenmaki, H.; Stein, G.S.; Lanyon, L.E.; Price, J.S.; van Wijnen, A.J.; Dudakovic, A. 2020: Mechanical strain-mediated reduction in RANKL expression is associated with RUNX2 and BRD2. Gene 763s: 100027

Mozvashi, S.Mohammadi.; Mohebpour, M.Ali.; Vishkayi, S.Izadi.; Tagani, M.Bagheri. 2021: Mechanical strength and flexibility in [Formula: see text]-4H borophene. Scientific Reports 11(1): 7547

Blaesi, A.H.; Kümmerlen, D.; Richter, H.; Saka, N. 2022: Mechanical strength and gastric residence time of expandable fibrous dosage forms. International Journal of Pharmaceutics 613: 120792

Heitzer, M.; Brockhaus, J.; Kniha, K.; Merkord, F.; Peters, F.; Hölzle, F.; Goloborodko, E.; Modabber, A. 2021: Mechanical strength and hydrostatic testing of VIVO adhesive in sutureless microsurgical anastomoses: an ex vivo study. Scientific Reports 11(1): 13598

Zhao, H.; Liao, J.; Wu, F.; Shi, J. 2021: Mechanical strength improvement of chitosan/hydroxyapatite scaffolds by coating and cross-linking. Journal of the Mechanical Behavior of Biomedical Materials 114: 104169

Sharma, B.B.; Parashar, A. 2020: Mechanical strength of a nanoporous bicrystalline h-BN nanomembrane in a water submerged state. Physical Chemistry Chemical Physics: Pccp 22(36): 20453-20465

Barros, S.ér.E.; Vanz, V.; Chiqueto, K.; Janson, G.; Ferreira, E. 2021: Mechanical strength of stainless steel and titanium alloy mini-implants with different diameters: an experimental laboratory study. Progress in Orthodontics 22(1): 9

Maneshi, M.Mehdi.; Maki, B.; Gnanasambandam, R.; Belin, S.; Popescu, G.K.; Sachs, F.; Hua, S.Z. 2017: Mechanical stress activates NMDA receptors in the absence of agonists. Scientific Reports 7: 39610

Zou, Y.; Akazawa, H.; Qin, Y.; Sano, M.; Takano, H.; Minamino, T.; Makita, N.; Iwanaga, K.; Zhu, W.; Kudoh, S.; Toko, H.; Tamura, K.; Kihara, M.; Nagai, T.; Fukamizu, A.; Umemura, S.; Iiri, T.; Fujita, T.; Komuro, I. 2004: Mechanical stress activates angiotensin II type 1 receptor without the involvement of angiotensin II. Nature Cell Biology 6(6): 499-506

Liu, T.; Hu, J.; Zhu, L.; Zhou, R.; Zhang, C.; Gu, L.; Sun, X.; Yu, J.; Zeng, A.; Huang, H. 2020: Mechanical stress birefringence of optical plates. Applied Optics 59(24): 7371-7375

Zhen, G.; Guo, Q.; Li, Y.; Wu, C.; Zhu, S.; Wang, R.; Guo, X.Edward.; Kim, B.Choul.; Huang, J.; Hu, Y.; Dan, Y.; Wan, M.; Ha, T.; An, S.; Cao, X. 2021: Mechanical stress determines the configuration of TGFβ activation in articular cartilage. Nature Communications 12(1): 1706

Lyu, J.; Wang, Y.; Ruan, C.; Zhang, X.; Li, K.; Ye, M. 2021: Mechanical stress induced protein precipitation method for drug target screening. Analytica Chimica Acta 1168: 338612

Hayashi, K.; Suzuki, A.; Abdullah Ahmadi, S.; Terai, H.; Yamada, K.; Hoshino, M.; Toyoda, H.; Takahashi, S.; Tamai, K.; Ohyama, S.; Javid, A.; Suhrab Rahmani, M.; Hasib, M.Mohammad.; Nakamura, H. 2017: Mechanical stress induces elastic fibre disruption and cartilage matrix increase in ligamentum flavum. Scientific Reports 7(1): 13092

Xie, F.; Wen, G.; Sun, W.; Jiang, K.; Chen, T.; Chen, S.; Wen, J. 2020: Mechanical stress promotes angiogenesis through fibroblast exosomes. Biochemical and Biophysical Research Communications 533(3): 346-353

Zhang, X.; Jing, Y.; Qin, C.; Liu, C.; Yang, D.; Gao, F.; Yang, M.; Du, L.; Li, J. 2020: Mechanical stress regulates autophagic flux to affect apoptosis after spinal cord injury. Journal of Cellular and Molecular Medicine 24(21): 12765-12776

Diem, K.; Fauler, M.; Fois, G.; Hellmann, A.; Winokurow, N.; Schumacher, S.; Kranz, C.; Frick, M. 2020: Mechanical stretch activates piezo1 in caveolae of alveolar type I cells to trigger ATP release and paracrine stimulation of surfactant secretion from alveolar type II cells. FASEB journal: official publication of the Federation of American Societies for Experimental Biology 34(9): 12785-12804

Xie, Y.; Qian, Y.; Wang, Y.; Liu, K.; Li, X. 2020: Mechanical stretch and LPS affect the proliferation, extracellular matrix remodeling and viscoelasticity of lung fibroblasts. Experimental and Therapeutic Medicine 20(5): 5

Steward, R.L.; Cheng, C-Min.; Ye, J.D.; Bellin, R.M.; LeDuc, P.R. 2011: Mechanical stretch and shear flow induced reorganization and recruitment of fibronectin in fibroblasts. Scientific Reports 1: 147

Rysä, J.; Tokola, H.; Ruskoaho, H. 2018: Mechanical stretch induced transcriptomic profiles in cardiac myocytes. Scientific Reports 8(1): 4733

Uchida, T.; Shimizu, S.; Yamagishi, R.; Tokuoka, S.M.; Kita, Y.; Honjo, M.; Aihara, M. 2021: Mechanical stretch induces Ca 2+ influx and extracellular release of PGE 2 through Piezo1 activation in trabecular meshwork cells. Scientific Reports 11(1): 4044

Chu, S-Ying.; Chou, C-Hung.; Huang, H-Da.; Yen, M-Hua.; Hong, H-Chin.; Chao, P-Han.; Wang, Y-Hsuan.; Chen, P-Yu.; Nian, S-Xin.; Chen, Y-Ru.; Liou, L-Ying.; Liu, Y-Chen.; Chen, H-Mei.; Lin, F-Mao.; Chang, Y-Ting.; Chen, C-Chiang.; Lee, O.K. 2019: Mechanical stretch induces hair regeneration through the alternative activation of macrophages. Nature Communications 10(1): 1524

Liao, X.Dong.; Wang, X.Hui.; Jin, H.Jing.; Chen, L.Ying.; Chen, Q. 2004: Mechanical stretch induces mitochondria-dependent apoptosis in neonatal rat cardiomyocytes and G2/M accumulation in cardiac fibroblasts. Cell Research 14(1): 16-26

Liu, G.; Hitomi, H.; Hosomi, N.; Lei, B.; Pelisch, N.; Nakano, D.; Kiyomoto, H.; Ma, H.; Nishiyama, A. 2010: Mechanical stretch potentiates angiotensin II-induced proliferation in spontaneously hypertensive rat vascular smooth muscle cells. Hypertension Research: Official Journal of the Japanese Society of Hypertension 33(12): 1250-1257

He, J.; Fang, B.; Shan, S.; Xie, Y.; Wang, C.; Zhang, Y.; Zhang, X.; Li, Q. 2021: Mechanical stretch promotes hypertrophic scar formation through mechanically activated cation channel Piezo1. Cell Death and Disease 12(3): 226

Franchi-Micheli, S.; Failli, P.; Mazzetti, L.; Bani, D.; Ciuffi, M.; Zilletti, L. 2000: Mechanical stretch reveals different components of endothelial-mediated vascular tone in rat aortic strips. British Journal of Pharmacology 131(7): 1355-1362

Walker, M.; Godin, M.; Pelling, A.E. 2020: Mechanical stretch sustains myofibroblast phenotype and function in microtissues through latent TGF-β1 activation. Integrative Biology: Quantitative Biosciences from Nano to Macro 12(8): 199-210

Chen, X.; Liu, Y.; Ding, W.; Shi, J.; Li, S.; Liu, Y.; Wu, M.; Wang, H. 2018: Mechanical stretch-induced osteogenic differentiation of human jaw bone marrow mesenchymal stem cells (hJBMMSCs) via inhibition of the NF-κB pathway. Cell Death and Disease 9(2): 207

Stammers, M.; Niewczas, I.S.; Segonds-Pichon, A.; Clark, J. 2020: Mechanical stretching changes crosslinking and glycation levels in the collagen of mouse tail tendon. Journal of Biological Chemistry 295(31): 10572-10580

Kawamura, Y.; Tetsunaga, T.; Yamada, K.; Sanki, T.; Sato, Y.; Yoshida, A.; Furumatsu, T.; Ozaki, T. 2021: Mechanical stretching induces calcification and cartilage matrix metabolism, causing degeneration of the acetabular labrum. Hip International: the Journal of Clinical and Experimental Research on Hip Pathology and Therapy 2021: 11207000211044675

Zhang, H.; Huang, W.; Liu, H.; Zheng, Y.; Liao, L. 2020: Mechanical stretching of pulmonary vein stimulates matrix metalloproteinase-9 and transforming growth factor-β1 through stretch-activated channel/MAPK pathways in pulmonary hypertension due to left heart disease model rats. Plos one 15(9): E0235824

Huang, W.; Liu, H.; Pan, Y.; Yang, H.; Lin, J.; Zhang, H. 2021: Mechanical stretching of the pulmonary vein mediates pulmonary hypertension due to left heart disease by regulating SAC/MAPK pathway and the expression of IL-6 and TNF-α. Journal of Cardiothoracic Surgery 16(1): 127

Liu, J.; Yu, W.; Liu, Y.; Chen, S.; Huang, Y.; Li, X.; Liu, C.; Zhang, Y.; Li, Z.; Du, J.; Tang, C.; Du, J.; Jin, H. 2016: Mechanical stretching stimulates collagen synthesis via down-regulating SO2/AAT1 pathway. Scientific Reports 6: 21112

Chen, Y.; Wu, W.; Yu, J.; Wang, Y.; Zhu, J.; Hu, Z. 2020: Mechanical strong stretchable conductive multi-stimuli-responsive nanocomposite double network hydrogel as biosensor and actuator. Journal of Biomaterials Science. Polymer Edition 31(14): 1770-1792

Kobayashi, S. 1963: Mechanical studies of helmets in head injuries. No to Shinkei 15: 63-75

Jayet, Jérémie.; Heim, Fédéric.; Canonge, J.; Chakfé, N.; Coggia, M.; Coscas, Rël. 2020: Mechanical study of reinforced fenestrations available on the market. Annals of Vascular Surgery 68: 108-109

Ali, J.M.; Abu-Omar, Y. 2018: Mechanical support for high-risk coronary artery bypass grafting. Indian Journal of Thoracic and Cardiovascular Surgery 34(Suppl 3): 287-296

Bedzra, E.K.S.; Barnes, A.; Birnbaum, B.; St Louis, J.D. 2021: Mechanical support of superior cavopulmonary (Glenn) physiology to heart transplantation. Jtcvs Techniques 6: 144-146

Khir, A.W.; Pepper, J.R. 2021: Mechanical support of the heart: Where are we heading?. International Journal of Artificial Organs 44(9): 590-591

Yi, X.; Wright, L.E.; Pagnotti, G.M.; Uzer, G.; Powell, K.M.; Wallace, J.M.; Sankar, U.; Rubin, C.T.; Mohammad, K.; Guise, T.A.; Thompson, W.R. 2020: Mechanical suppression of breast cancer cell invasion and paracrine signaling to osteoclasts requires nucleo-cytoskeletal connectivity. Bone Research 8(1): 40

Androsov, P.I. 1962: Mechanical suture in vascular surgery. Rinsho Geka. Journal of Clinical Surgery 17: 971-975

Mindlin, E. 1945: Mechanical tensioner for pelvic interventions (tempip). El Dia Medico 17: 1067

Northeast, R.; Constable, M.; Burton, H.E.; Lawless, B.M.; Gramigna, V.; Lim Goh, K.; Buchan, K.G.; Espino, D.M. 2021: Mechanical testing of glutaraldehyde cross-linked mitral valves. Part one: in vitro mechanical behaviour. Proceedings of the Institution of Mechanical Engineers. Part H Journal of Engineering in Medicine 235(3): 281-290

Constable, M.; Northeast, R.; Lawless, B.M.; Burton, H.E.; Gramigna, V.; Goh, K.L.; Buchan, K.G.; Espino, D.M. 2021: Mechanical testing of glutaraldehyde cross-linked mitral valves. Part two: Elastic and viscoelastic properties of chordae tendineae. Proceedings of the Institution of Mechanical Engineers. Part H Journal of Engineering in Medicine 235(3): 291-299

Crosby, N.J.; Shepherd, D.; Murray, A. 2013: Mechanical testing of lid speculae and relationship to postoperative ptosis. Eye 27(9): 1098-1101

Kurnianto, A.; Tugasworo, D.; Andhitara, Y.; Retnaningsih; Ardhini, R.; Budiman, J. 2021: Mechanical thrombectomy (MT) for acute ischemic stroke (AIS) in COVID-19 pandemic: a systematic review. Egyptian Journal of Neurology Psychiatry and Neurosurgery 57(1): 67

Pasarikovski, C.R.; Ku, J.C.; Keith, J.; Ramjist, J.; Dobashi, Y.; Priola, S.M.; da Costa, L.; Kumar, A.; Yang, V.X.D. 2020: Mechanical thrombectomy and intravascular imaging for cerebral venous sinus thrombosis: a preclinical model. Journal of Neurosurgery 2020: 1-6

Weddell, J.; Muddegowda, G.; Natarajan, I.; Nayak, S.; Jadun, C.; Hashim, Z.; Ferdinand, P.; Sanyal, R.; Augustine, A.; Roffe, C. 2020: Mechanical thrombectomy and the 'weekend effect': does admission time influence outcomes?. Future Healthcare Journal 7(Suppl 1): S3

McConachie, D.; McConachie, N.; White, P.; Crossley, R.; Izzath, W. 2020: Mechanical thrombectomy for acute ischaemic stroke during the COVID-19 pandemic: changes to UK practice and lessons learned. Clinical Radiology 75(10): 795.E7-795.E13

Pyra, K.; Szmygin, M.; Olszewski, K.; Tarkowski, P.; Sojka, M.ł; Jargiełło, T. 2020: Mechanical thrombectomy for intra-procedural ischemic stroke during transcatheter aortic valve implantation. Postepy W Kardiologii Interwencyjnej 16(4): 519-520

Kaaouana, O.; Bricout, N.; Casolla, B.; Caparros, F.ço.; Schiava, L.D.; Mounier-Vehier, F.ço.; Pasi, M.; Dequatre-Ponchelle, N.; Pruvo, J.-P.; Cordonnier, C.; Hénon, H.; Leys, D. 2020: Mechanical thrombectomy for ischaemic stroke in the anterior circulation: off-hours effect. Journal of Neurology 267(10): 2910-2916

Sievert, K.; Bertog, S.; Hornung, M.; Grunwald, I.Q.; Podlasek, A.; Sievert, H. 2020: Mechanical thrombectomy for ischemic stroke: "time is brain" is a no-brainer. Kardiologia Polska 78(7-8): 801-802

Hopkins, L.N. 2020: Mechanical thrombectomy for ischemic stroke: a role for cardiology!. Kardiologia Polska 78(7-8): 798-799

Niżankowski, R.ł T. 2020: Mechanical thrombectomy for ischemic stroke: deceptive access promoted by leading neurologists harms patients. Kardiologia Polska 78(7-8): 803-804

Alvarez, C.A. 2020: Mechanical thrombectomy for ischemic stroke: interventional cardiology fills the fundamental gap in the system. Kardiologia Polska 78(7-8): 804-806

Mathias, K. 2020: Mechanical thrombectomy for ischemic stroke: multispecialty team training in stroke mechanical thrombectomy to optimize thrombectomy deliverability. Kardiologia Polska 78(7-8): 799-801

Witkowski, A. 2020: Mechanical thrombectomy for ischemic stroke: why is it still a gleam in people's eyes in Poland?. Kardiologia Polska 78(7-8): 802-803

Nezami, N.; Chockalingam, A.; Cornman-Homonoff, J.; Marino, A.; Pollak, J.; Mojibian, H. 2020: Mechanical thrombectomy for pulmonary embolism in patients with patent foramen Ovale. Cvir Endovascular 3(1): 89

Alet, M.ía.; Lucci, F.R.íg.; Ameriso, S.án. 2020: Mechanical thrombectomy for reperfusion of acute ischemic stroke in a Stroke Unit in Argentina. Arquivos de Neuro-Psiquiatria 78(1): 39-43

Koge, J.; Tanaka, K.; Yamagami, H.; Yoshimoto, T.; Uchida, K.; Morimoto, T.; Toyoda, K.; Sakai, N.; Yoshimura, S. 2021: Mechanical thrombectomy for stroke patients anticoagulated with direct oral anticoagulants versus warfarin. Journal of the Neurological Sciences 427: 117545

Simonato, D.; Ganau, M.; Feltracco, P.; Causin, F.; Munari, M.; Bortolato, A. 2021: Mechanical thrombectomy in a pediatric patient with sedation aided by contralateral intra-arterial propofol injection: feasibility in an extreme condition. Child's Nervous System: Chns: Official Journal of the International Society for Pediatric Neurosurgery 37(5): 1785-1789

Styczen, H.; Gawlitza, M.; Abdullayev, N.; Brehm, A.; Serna-Candel, C.; Fischer, S.; Gerber, J.; Kabbasch, C.; Psychogios, M.-N.; Forsting, M.; Henkes, H.; Maus, V. 2021: Mechanical thrombectomy in acute ischaemic stroke patients with pre-interventional intracranial haemorrhage following intravenous thrombolysis. Neuroradiology Journal 34(5): 456-461

Kitano, T.; Sakaguchi, M.; Yamagami, H.; Ishikawa, T.; Ishibashi-Ueda, H.; Tanaka, K.; Okazaki, S.; Sasaki, T.; Kadono, Y.; Takagaki, M.; Nishida, T.; Nakamura, H.; Yanase, M.; Fukushima, N.; Shiozawa, M.; Toyoda, K.; Takahashi, J.C.; Funatsu, T.; Ryu, B.; Yoshioka, D.; Toda, K.; Murayama, S.; Kawamata, T.; Kishima, H.; Sawa, Y.; Mochizuki, H.; Todo, K. 2020: Mechanical thrombectomy in acute ischemic stroke patients with left ventricular assist device. Journal of the Neurological Sciences 418: 117142

Sun, Z.-Y.; Meng, X.-Y. 2021: Mechanical thrombectomy in acute ischemic stroke patients with left ventricular assist device: more information, more evidence. Journal of the Neurological Sciences 421: 117192

Da Ros, V.; Scaggiante, J.; Pitocchi, F.; Sallustio, F.; Lattanzi, S.; Umana, G.E.; Chaurasia, B.; Bandettini di Poggio, M.; Toscano, G.; Rolla Bigliani, C.; Ruggiero, M.; Haznedari, N.ò; Sgreccia, A.; Sanfilippo, G.; Diomedi, M.; Finocchi, C.; Floris, R. 2021: Mechanical thrombectomy in acute ischemic stroke with tandem occlusions: impact of extracranial carotid lesion etiology on endovascular management and outcome. Neurosurgical Focus 51(1): E6

Renieri, L.; Saia, V.; Pereira, V.M.; Pracucci, G.; Limbucci, N.; Nappini, S.; Tyrrell, P.N.; Arba, F.; Nencini, P.; Inzitari, D.; Giorgianni, A.; Natrella, M.; Menozzi, R.; Scoditti, U.; Mangiafico, S.; Danilo Toni 2020: Mechanical thrombectomy in patients with proximal occlusions and low NIHSS: Results from a large prospective registry. Journal of Stroke and Cerebrovascular Diseases: the Official Journal of National Stroke Association 29(10): 105091

Alexandre, A.M.; Valente, I.; Frisullo, G.; Morosetti, R.; Genovese, D.; Bartolo, A.; Gigli, R.; Rollo, C.; Scarcia, L.; Carosi, F.; Fortunato, G.; D'Argento, F.; Calabresi, P.; Della Marca, G.; Pedicelli, A.; Broccolini, A. 2021: Mechanical thrombectomy in patients with stroke due to large vessel occlusion in the anterior circulation and low baseline NIHSS score. Journal of Integrative Neuroscience 20(3): 645-650

Pinto, M.M.; Nunes, A.P.; Alves, M.; Papoila, A.L.ís.; Pamplona, J.; Carvalho, R.; Baptista, M.; Reis, J.ão.; Fragata, I. 2020: Mechanical thrombectomy in stroke in nonagenarians: useful or futile?. Journal of Stroke and Cerebrovascular Diseases: the Official Journal of National Stroke Association 29(9): 105015

He, G.; Deng, J.; Zhang, Y.; Lu, H.; Zhao, Y.; Yan, L.; Zhu, Y. 2021: Mechanical thrombectomy injury to the arterial wall: a comparison between catheter aspiration and stent retriever. European Journal of Radiology 139: 109723

Dossani, R.H.; Tso, M.K.; Waqas, M.; Rai, H.H.; Rajah, G.B.; Siddiqui, A.H. 2020: Mechanical thrombectomy of right internal carotid artery terminus occlusion using the ADAPT technique: impact of aspiration on parent vessel. Journal of Neurointerventional Surgery 12(11): 1148

Forestier, G.ér.; Kerleroux, B.; Janot, K.év.; Zhu, F.ço.; Dumas, V.; Hak, J.-F.ço.; Shotar, E.; Ben Hassen, W.; Bourcier, R.; Soize, S.éb.; Berge, J.ér.; Naggara, O.; Desal, H.; Boulouis, G.ég.; Rouchaud, A.; Hanafi, R.; L'Allinec, V.; Girot, J.-B.; Charbonnier, G.; Biondi, A.; Gariel, F.; Marnat, G.; Ognard, J.; Gentric, J.-C.; Barbier, C.; Chabert, E.; Lebedinsky, P.; Tuilier, T.; Thouant, P.; Comby, P.-O.; Mejdoubi, M.; Heck, O.; Kastler, A.; Chalumeau, V.; Caroff, J.; Personnic, T.; Marchal, A.; Bogey, C.; Eker, O.; Carle, X.; Dargazanli, C.; Derraz, I.; Gory, B.; Detraz, L.; Sedat, J.; Zurlinden, O.; Escalard, S.; Fahed, R.; Guedon, A.; Civelli, V.; Premat, K.; Clarençon, F.; Ducouret, E.; Raynaud, N.; Velasco, S.; Mancea 2020: Mechanical thrombectomy practices in France: Exhaustive survey of centers and individual operators. Journal of Neuroradiology 47(6): 410-415

Seo, K.-D.; Kang, M.J.; Lee, J.K.; Suh, S.H.; Lee, K.-Y. 2021: Mechanical thrombectomy reduces the gap in treatment outcomes of ischemic stroke between hospital levels of care: analysis of a Korean nationwide data. Annals of Translational Medicine 9(15): 1227

Gruber, P.; Diepers, M.; von Hessling, A.; Weber, J.; Kahles, T.; Anon, J.; Berberat, J.; Nedeltchev, K.; Liebeskind, D.S.; Remonda, L. 2020: Mechanical thrombectomy using the new Tigertriever in acute ischemic stroke patients - a Swiss prospective multicenter study. Interventional Neuroradiology: Journal of Peritherapeutic Neuroradiology Surgical Procedures and Related Neurosciences 26(5): 598-601

Waqas, M.; Kuo, C.C.; Dossani, R.H.; Monteiro, A.; Baig, A.A.; Alkhaldi, M.; Cappuzzo, J.M.; Levy, E.I.; Siddiqui, A.H. 2021: Mechanical thrombectomy versus intravenous thrombolysis for distal large-vessel occlusion: a systematic review and meta-analysis of observational studies. Neurosurgical Focus 51(1): E5

Jiang, Q.; Wang, H.; Ge, J.; Hou, J.; Liu, M.; Huang, Z.; Guo, Z.; You, S.; Cao, Y.; Xiao, G. 2022: Mechanical thrombectomy versus medical care alone in large ischemic core: An up-to-date meta-analysis. Interventional Neuroradiology: Journal of Peritherapeutic Neuroradiology Surgical Procedures and Related Neurosciences 28(1): 104-114

Rajkumar, C.A.; Ganesananthan, S.; Ahmad, Y.; Seligman, H.; Thornton, G.D.; Foley, M.; Nowbar, A.N.; Howard, J.P.; Francis, D.P.; Keeble, T.R.; Grunwald, I.Q.; Al-Lamee, R.K.; Malik, I.; Shun-Shin, M.J. 2022: Mechanical thrombectomy with retrievable stents and aspiration catheters for acute ischaemic stroke: a meta-analysis of randomised controlled trials. Eurointervention: Journal of Europcr in Collaboration with the Working Group on Interventional Cardiology of the European Society of Cardiology 17(17): E1425-E1434

Fan, Y.; Zha, R.; Sano, T.; Zhao, X.; Liu, S.; Woollam, M.D.; Wu, D.; Sun, X.; Li, K.; Egi, M.; Li, F.; Minami, K.; Siegel, A.P.; Horiuchi, T.; Liu, J.; Agarwal, M.; Sudo, A.; Nakshatri, H.; Li, B-Yan.; Yokota, H. 2021: Mechanical tibial loading remotely suppresses brain tumors by dopamine-mediated downregulation of CCN4. Bone Research 9(1): 26

Beard, J.D.; Guy, R.H.; Gordeev, S.N. 2013: Mechanical tomography of human corneocytes with a nanoneedle. Journal of Investigative Dermatology 133(6): 1565-1571

Balaraman, V.; Drolet, B.S.; Mitzel, D.N.; Wilson, W.C.; Owens, J.; Gaudreault, N.N.; Meekins, D.A.; Bold, D.; Trujillo, J.D.; Noronha, L.E.; Richt, J.A.; Nayduch, D. 2021: Mechanical transmission of SARS-CoV-2 by house flies. Parasites and Vectors 14(1): 214

Li, X.; Wang, J. 2020: Mechanical tumor microenvironment and transduction: cytoskeleton mediates cancer cell invasion and metastasis. International Journal of Biological Sciences 16(12): 2014-2028

Muraoka, T.; Kinbara, K.; Aida, T. 2006: Mechanical twisting of a guest by a photoresponsive host. Nature 440(7083): 512-515

Marszalek, P.E.; Lu, H.; Li, H.; Carrion-Vazquez, M.; Oberhauser, A.F.; Schulten, K.; Fernandez, J.M. 1999: Mechanical unfolding intermediates in titin modules. Nature 402(6757): 100-103

Zhong, Z.; Yang, L.; Zhang, H.; Shi, J.; Vandana, J.Jeya.; Lam, D.Thuy.Uyen.Ha.; Olsthoorn, Ré.C.L.; Lu, L.; Chen, G. 2016: Mechanical unfolding kinetics of the SRV-1 gag-pro mRNA pseudoknot: possible implications for -1 ribosomal frameshifting stimulation. Scientific Reports 6: 39549

Rivera, M.; Hao, Y.; Maillard, R.A.; Baez, M. 2020: Mechanical unfolding of a knotted protein unveils the kinetic and thermodynamic consequences of threading a polypeptide chain. Scientific Reports 10(1): 9562

Hu, C.; Jonchhe, S.; Pokhrel, P.; Karna, D.; Mao, H. 2021: Mechanical unfolding of ensemble biomolecular structures by shear force. Chemical Science 12(30): 10159-10164

Renn, J.P.; Bhattacharyya, S.; Bai, H.; He, C.; Li, H.; Oberhauser, A.F.; Marko, J.F.; Makarov, D.E.; Matouschek, A. 2019: Mechanical unfolding of spectrin reveals a super-exponential dependence of unfolding rate on force. Scientific Reports 9(1): 11101

Just, I.A.; Potapov, E.; Knosalla, C.; Schoenrath, F. 2021: Mechanical unloading by miniature axial flow pumps in late cardiac allograft failure due to acute rejection. Journal of Artificial Organs: the Official Journal of the Japanese Society for Artificial Organs 24(3): 307-311

Min, D.; Kim, K.; Hyeon, C.; Cho, Y.Hoon.; Shin, Y-Kyun.; Yoon, T-Young. 2013: Mechanical unzipping and rezipping of a single SNARE complex reveals hysteresis as a force-generating mechanism. Nature Communications 4: 1705

Blot, M.; Pauchard, L-Anne.; Dunn, Iène.; Donze, J.; Malnuit, Séphanie.; Rebaud, Cé.; Croisier, D.; Piroth, L.; Pugin, Jérôme.; Charles, P-Emmanuel. 2018: Mechanical ventilation and Streptococcus pneumoniae pneumonia alter mitochondrial homeostasis. Scientific Reports 8(1): 11718

Heunks, L.M.A.; Dekhuijzen, R.P.N. 2008: Mechanical ventilation and disuse atrophy of the diaphragm. New England Journal of Medicine 359(1): 90; Author Reply 91-92

Fan, E.; Needham, D.M. 2008: Mechanical ventilation and disuse atrophy of the diaphragm. New England Journal of Medicine 359(1): 90

Leo, F.; Spaggiari, L. 2008: Mechanical ventilation and disuse atrophy of the diaphragm. New England Journal of Medicine 359(1): 91; Author Reply 91-92

Roedl, K.; Jarczak, D.; Thasler, L.; Bachmann, M.; Schulte, F.; Bein, B.; Weber, C.F.; Schäfer, U.; Veit, C.; Hauber, H.-P.; Kopp, S.; Sydow, K.; de Weerth, A.; Bota, M.; Schreiber, R.üd.; Detsch, O.; Rogmann, J.-P.; Frings, D.; Sensen, B.; Burdelski, C.; Boenisch, O.; Nierhaus, A.; de Heer, G.; Kluge, S. 2021: Mechanical ventilation and mortality among 223 critically ill patients with coronavirus disease 2019: a multicentric study in Germany. Australian Critical Care: Official Journal of the Confederation of Australian Critical Care Nurses 34(2): 167-175

Li, L-Fu.; Liu, Y-Yang.; Kao, K-Chin.; Wu, C-Te.; Chang, C-Hao.; Hung, C-Yiu.; Yang, C-Ta. 2014: Mechanical ventilation augments bleomycin-induced epithelial-mesenchymal transition through the Src pathway. Laboratory Investigation; a Journal of Technical Methods and Pathology 94(9): 1017-1029

George, R.; Berkenbosch, J.W.; Fraser, R.F.; Tobias, J.D. 2001: Mechanical ventilation during pregnancy using a helium-oxygen mixture in a patient with respiratory failure due to status asthmaticus. Journal of Perinatology: Official Journal of the California Perinatal Association 21(6): 395-398

Tucci, M.R.; Pereira, S.ér.M.; Costa, E.L.V.; Vieira, J.E. 2020: Mechanical ventilation during thoracic surgery: towards individualized medicine. Annals of Translational Medicine 8(14): 842

Tsay, T.-B.; Chang, W.-H.; Hsu, C.-M.; Chen, L.-W. 2021: Mechanical ventilation enhances Acinetobacter baumannii-induced lung injury through JNK pathways. Respiratory Research 22(1): 159

Luo, Z.; Yang, L.; Liu, S.; Hu, Y.; Cao, Z.; Zhu, J.; Wang, J.; Ma, Y. 2020: Mechanical ventilation for acute respiratory failure due to idiopathic pulmonary fibrosis versus connective tissue disease-associated interstitial lung disease: Effectiveness and risk factors for death. Clinical Respiratory Journal 14(10): 918-932

Shang, P.; Zhu, M.; Baker, M.; Feng, J.; Zhou, C.; Zhang, H-Liang. 2020: Mechanical ventilation in Guillain-Barré syndrome. Expert Review of Clinical Immunology 2020: 1-12

Kunst, P.W. 2003: Mechanical ventilation in acute respiratory distress syndrome (ARDS): lung protecting strategies for improved alveolar recruitment. Nederlands Tijdschrift Voor Geneeskunde 147(18): 886

Towner, J.E.; Rahmani, R.; Zammit, C.G.; Khan, I.R.; Paul, D.A.; Bhalla, T.; Roberts, D.E. 2020: Mechanical ventilation in aneurysmal subarachnoid hemorrhage: systematic review and recommendations. Critical Care 24(1): 575

Kendirli, T.; Kavaz, A.; Yalaki, Z.; Oztürk Hişmi, B.; Derelli, E.; Ince, E. 2006: Mechanical ventilation in children. Turkish Journal of Pediatrics 48(4): 323-327

Wilkens, E.P.; Klein, G.M. 2020: Mechanical ventilation in disaster situations: a new paradigm using the AGILITIES Score System. American Journal of Disaster Medicine 14(4): 311-326

Lepper, P.M.; Muellenbach, R.M. 2020: Mechanical ventilation in early COVID-19 ARDS. Eclinicalmedicine 28: 100616

Battaglini, D.; Siwicka Gieroba, D.; Brunetti, I.; Patroniti, N.ò; Bonatti, G.; Rocco, P.R.M.; Pelosi, P.; Robba, C. 2021: Mechanical ventilation in neurocritical care setting: a clinical approach. Best Practice and Research. Clinical Anaesthesiology 35(2): 207-220

Eppinga, P. 2000: Mechanical ventilation in neuromuscular diseases: do not start too early, but certainly not too late. Nederlands Tijdschrift Voor Geneeskunde 144(33): 1608-1609

Dhanireddy, S.; Altemeier, W.A.; Matute-Bello, G.; O'Mahony, D.Shane.; Glenny, R.W.; Martin, T.R.; Liles, W.Conrad. 2006: Mechanical ventilation induces inflammation, lung injury, and extra-pulmonary organ dysfunction in experimental pneumonia. Laboratory Investigation; a Journal of Technical Methods and Pathology 86(8): 790-799

van den Brink, I.; van de Pol, F.; Vaneker, M.; Kox, M.; Schellekens, W-Jan.; Ritskes-Hoitinga, M.; Scheffer, G.Jan. 2013: Mechanical ventilation of mice under general anesthesia during experimental procedures. Lab Animal 42(7): 253-257

Hirschfeld, S.; Exner, G.; Luukkaala, T.; Baer, G.A. 2008: Mechanical ventilation or phrenic nerve stimulation for treatment of spinal cord injury-induced respiratory insufficiency. Spinal Cord 46(11): 738-742

Grasselli, G.; Cattaneo, E.; Florio, G.; Ippolito, M.; Zanella, A.; Cortegiani, A.; Huang, J.; Pesenti, A.; Einav, S. 2021: Mechanical ventilation parameters in critically ill COVID-19 patients: a scoping review. Critical Care 25(1): 115

Eyenga, P.; Roussel, D.; Rey, B.; Ndille, P.; Teulier, L.; Eyenga, F.; Romestaing, C.; Morel, J.; Gueguen-Chaignon, V.; Sheu, S.-S. 2021: Mechanical ventilation preserves diaphragm mitochondrial function in a rat sepsis model. Intensive Care Medicine Experimental 9(1): 19

Hao, L.; Li, X.; Shi, Y.; Cai, M.; Ren, S.; Xie, F.; Li, Y.; Wang, N.; Wang, Y.; Luo, Z.; Xu, M. 2021: Mechanical ventilation strategy for pulmonary rehabilitation based on patient-ventilator interaction. Science China. Technological Sciences 64(4): 869-878

Lacerda, F.áb.H.; Checoli, P.G.; Silva, C.M.D.d.; Brandão, C.E.; Forte, D.N.; Besen, B.A.M.P. 2020: Mechanical ventilation withdrawal as a palliative procedure in a Brazilian intensive care unit. Revista Brasileira de Terapia Intensiva 32(4): 528-534

Rialp, G. 2021: Mechanical ventilation: past and present. Medicina Intensiva 45(1): 1-2

Vázquez-de Anda, G.F.; Ruíz-de Chávez, M.; Pérez-Castañeda, A.I.; Vázquez-Moreno, P.; Dávila-Fernández, J.C.; Delaye-Aguilar, M.G. 2020: Mechanical ventilator as a shared resource for the COVID-19 pandemic. Gaceta Medica de Mexico 156(4): 306-310

García-Castro, G.; Latorre-Galeano, D.; Giraldo-Montoya, Án.M.ía.; Cabrales-Vega, R.A.án.; Isaza-Velásquez, E.; Gómez-González, J.é F.; González-Corrales, J.C.; Ardila-Otero, Ál.; Flórez-Castañeda, I.T.; Chica-Builes, J.F.; Martínez-Ávila, Án.M.ía.; González-Colonia, L.V. 2021: Mechanical ventilator test protocol for care of patients with COVID-19 in porcine model. Revista Peruana de Medicina Experimental y Salud Publica 38(1): 159-165

Sandoval-Gutiérrez, J.é L. 2021: Mechanical ventilator: shared resource?. Gaceta Medica de Mexico 157(2): 212

Wang, P.L.; Brooks, S.C. 2020: Mechanical versus manual chest compressions for cardiac arrest. Emergencias: Revista de la Sociedad Espanola de Medicina de Emergencias 32(5): 365-366

Beathard, G.A. 1994: Mechanical versus pharmacomechanical thrombolysis for the treatment of thrombosed dialysis access grafts. Kidney International 45(5): 1401-1406

Lora-Millán, J.Salvador.; López-Blanco, R.; Gallego, J.Álvaro.; Méndez-Guerrero, A.; González de la Aleja, Jús.; Rocon, E. 2019: Mechanical vibration does not systematically reduce the tremor in essential tremor patients. Scientific Reports 9(1): 16476

Gajendragadkar, G.; Boyd, J.A.; Potter, D.W.; Mellen, B.G.; Hahn, G.D.; Shenai, J.P. 2000: Mechanical vibration in neonatal transport: a randomized study of different mattresses. Journal of Perinatology: Official Journal of the California Perinatal Association 20(5): 307-310

Smith, P.T. 1875: Mechanical vs. Operative Dentistry. Dental Register 29(8): 426-428

Wei, J.Z.; Hothi, H.S.; Morganti, H.; Bergiers, S.; Dal Gal, E.; Likcani, D.; Henckel, J.; Hart, A.J. 2020: Mechanical wear analysis helps understand a mechanism of failure in retrieved magnetically controlled growing rods: a retrieval study. Bmc Musculoskeletal Disorders 21(1): 519

Francis, M.F.; Curtin, W.A. 2015: Mechanical work makes important contributions to surface chemistry at steps. Nature Communications 6: 6261

Liew, B.X.W.; Sullivan, L.; Morris, S.; Netto, K. 2020: Mechanical work performed by distal foot-ankle and proximal knee-hip segments during anticipated and unanticipated cutting. Journal of Biomechanics 106: 109839

Wang, Y.; Zhao, K.; Shi, X.; Li, G.; Xie, G.; Lai, X.; Ni, J.; Zhang, L. 2015: Mechanical writing of n-type conductive layers on the SrTiO3 surface in nanoscale. Scientific Reports 5: 10841

Ullah, I.; Siddiqui, M.A.; Liu, H.; Kolawole, S.K.; Zhang, J.; Zhang, S.; Ren, L.; Yang, K. 2020: Mechanical, Biological, and Antibacterial Characteristics of Plasma-Sprayed (Sr,Zn) Substituted Hydroxyapatite Coating. Acs Biomaterials Science and Engineering 6(3): 1355-1366

Arede, J.; Leite, N.; Bradley, B.; Madruga-Parera, M.; Saéz de Villarreal, E.; Gonzalo-Skok, O. 2020: Mechanical, Physiological, and Perceptual Demands of Repeated Power Ability Lower-Body and Upper-Body Tests in Youth Athletes: Somatic Maturation as a Factor on the Performance. Frontiers in Psychology 11: 1888

Hamid, S.K.; AlDubayan, A.H.; Alghamdi, L.A.; Akhtar, S.; Khan, S.Q.; Ateeq, I.S.; Gad, M.M. 2021: Mechanical, Surface, and Optical Properties of PMMA Denture Base Material Modified with Azadirachta indica as an Antifungal Agent. Journal of Contemporary Dental Practice 22(6): 655-664

Ravi, S.; Santhanakrishnan, M. 2020: Mechanical, chemical, structural analysis and comparative release of PDGF-AA from L-PRF, A-PRF and T-PRF - an in vitro study. Biomaterials Research 24: 16

Cunnane, E.M.; Davis, N.F.; Cunnane, C.V.; Lorentz, K.L.; Ryan, A.J.; Hess, J.; Weinbaum, J.S.; Walsh, M.T.; O'Brien, F.J.; Vorp, D.A. 2021: Mechanical, compositional and morphological characterisation of the human male urethra for the development of a biomimetic tissue engineered urethral scaffold. Biomaterials 269: 120651

Gillespie, R.; Ahlborn, G.J. 2021: Mechanical, sensory, and consumer evaluation of ketogenic, gluten-free breads. Food Science and Nutrition 9(6): 3327-3335

Bhattacharya, B.; Roy, D.; Dey, S.; Puthuvakkal, A.; Bhunia, S.; Mondal, S.; Chowdhury, R.; Bhattacharya, M.; Mandal, M.; Manoj, K.; Mandal, P.K.; Reddy, C.M. 2020: Mechanical-Bending-Induced Fluorescence Enhancement in Plastically Flexible Crystals of a GFP Chromophore Analogue. Angewandte Chemie 59(45): 19878-19883

Tyagi, V.K.; Kapoor, A.; Arora, P.; Banu, J.R.; Das, S.; Pipesh, S.; Kazmi, A.A. 2021: Mechanical-biological treatment of municipal solid waste: Case study of 100 TPD Goa plant, India. Journal of Environmental Management 292: 112741

Wang, L.; Shi, Q.; Cai, Y.; Chen, Q.; Guo, X.; Li, Z. 2020: Mechanical-chemical coupled modeling of bone regeneration within a biodegradable polymer scaffold loaded with VEGF. Biomechanics and Modeling in Mechanobiology 19(6): 2285-2306

Lu, X.; Chen, Z.; Cao, Y.; Tang, Y.; Xu, R.; Saremi, S.; Zhang, Z.; You, L.; Dong, Y.; Das, S.; Zhang, H.; Zheng, L.; Wu, H.; Lv, W.; Xie, G.; Liu, X.; Li, J.; Chen, L.; Chen, L-Qing.; Cao, W.; Martin, L.W. 2019: Mechanical-force-induced non-local collective ferroelastic switching in epitaxial lead-titanate thin films. Nature Communications 10(1): 3951

Goldberg, S. 2021: Mechanical/Physical Methods of Cell Disruption and Tissue Homogenization. Methods in Molecular Biology 2261: 563-585

Schramm, S.; Al-Handawi, M.B.; Karothu, D.P.; Kurlevskaya, A.; Commins, P.; Mitani, Y.; Wu, C.; Ohmiya, Y.; Naumov, P.če. 2020: Mechanically Assisted Bioluminescence with Natural Luciferase. Angewandte Chemie 59(38): 16485-16489

Zink, T.M.; McGrory, B.J. 2020: Mechanically Assisted Crevice Corrosion in a Metal-on-Polyethylene Total Hip Presenting with Lower Extremity Vascular Compromise. Arthroplasty Today 6(3): 445-450

Barron, E.J.; Peterson, R.S.; Lazarus, N.; Bartlett, M.D. 2020: Mechanically Cloaked Multiphase Magnetic Elastomer Soft Composites for Wearable Wireless Power Transfer. Acs Applied Materials and Interfaces 12(45): 50909-50917

Sheu, S-Yi.; Yang, D-Yen. 2017: Mechanically Controlled Electron Transfer in a Single-Polypeptide Transistor. Scientific Reports 7: 39792

Mao, A.; Zhao, N.; Liang, Y.; Bai, H. 2021: Mechanically Efficient Cellular Materials Inspired by Cuttlebone. Advanced Materials 33(15): E2007348

Honda, W.; Arie, T.; Akita, S.; Takei, K. 2015: Mechanically Flexible and High-Performance CMOS Logic Circuits. Scientific Reports 5: 15099

Del Valle, A.án.; Torra, J.; Bondia, P.; Tone, C.M.; Pedraz, P.; Vadillo-Rodriguez, V.; Flors, C. 2020: Mechanically Induced Bacterial Death Imaged in Real Time: a Simultaneous Nanoindentation and Fluorescence Microscopy Study. Acs Applied Materials and Interfaces 12(28): 31235-31241

Wielend, D.; Vera-Hidalgo, M.; Seelajaroen, H.; Sariciftci, N.S.; Pérez, E.M.; Whang, D.R. 2020: Mechanically Interlocked Carbon Nanotubes as a Stable Electrocatalytic Platform for Oxygen Reduction. Acs Applied Materials and Interfaces 12(29): 32615-32621

Riaño, A.; Carini, M.; Melle-Franco, M.; Mateo-Alonso, A. 2020: Mechanically Interlocked Nitrogenated Nanographenes. Journal of the American Chemical Society 142(48): 20481-20488

Li, L.; Zhou, X. 2018: Mechanically Reconfigurable Single-Arm Spiral Antenna Array for Generation of Broadband Circularly Polarized Orbital Angular Momentum Vortex Waves. Scientific Reports 8(1): 5128

Mao, D.; Lü, S.; Zhang, X.; Long, M. 2020: Mechanically Regulated Outside-in Activation of an I-Domain-Containing Integrin. Biophysical Journal 119(5): 966-977

Yu, W.-W.; Xu, W.-Z.; Wei, Y.-C.; Liao, S.; Luo, M.-C. 2021: Mechanically Robust Elastomers Enabled by a Facile Interfacial Interactions-Driven Sacrificial Network. Macromolecular Rapid Communications 42(24): E2100509

Qin, Y.; Shen, H.; Han, L.; Zhu, Z.; Pan, F.; Yang, S.; Yin, X. 2020: Mechanically Robust Janus Poly(lactic acid) Hybrid Fibrous Membranes toward Highly Efficient Switchable Separation of Surfactant-Stabilized Oil/Water Emulsions. Acs Applied Materials and Interfaces 12(45): 50879-50888

Zhang, B.; Li, H.; Cheng, J.; Ye, H.; Sakhaei, A.H.; Yuan, C.; Rao, P.; Zhang, Y.-F.; Chen, Z.; Wang, R.; He, X.; Liu, J.; Xiao, R.; Qu, S.; Ge, Q. 2021: Mechanically Robust and UV-Curable Shape-Memory Polymers for Digital Light Processing Based 4D Printing. Advanced Materials 33(27): E2101298

Li, T.; Wang, Y.; Li, S.; Liu, X.; Sun, J. 2020: Mechanically Robust, Elastic, and Healable Ionogels for Highly Sensitive Ultra-Durable Ionic Skins. Advanced Materials 32(32): E2002706

Du, J.; Li, Y.; Wang, J.; Wang, C.; Liu, D.; Wang, G.; Liu, S. 2020: Mechanically Robust, Self-Healing, Polymer Blends and Polymer/Small Molecule Blend Materials with High Antibacterial Activity. Acs Applied Materials and Interfaces 12(24): 26966-26972

Li, J.-Z.; Meng, S.-S.; Xu, X.-P.; Huang, Y.-B.; Mao, P.; Li, Y.-M.; Yang, Y.; Qiu, H.-B.; Pan, C. 2020: Mechanically Stretched Mesenchymal Stem Cells can Reduce the Effects of LPS-Induced Injury on the Pulmonary Microvascular Endothelium Barrier. Stem Cells International 2020: 8861407

Gan, H.; Li, S.; Zhang, Y.; Yu, L.; Wang, J.; Xue, Z. 2021: Mechanically Strong and Electrochemically Stable Single-Ion Conducting Polymer Electrolytes Constructed from Hydrogen Bonding. Langmuir: the Acs Journal of Surfaces and Colloids 37(27): 8270-8280

Zhao, P.; Wang, L.; Xie, L.; Wang, W.; Wang, L.; Zhang, C.; Li, L.; Feng, S. 2021: Mechanically Strong, Autonomous Self-Healing, and Fully Recyclable Silicone Coordination Elastomers with Unique Photoluminescent Properties. Macromolecular Rapid Communications 42(24): E2100519

Alam, M.; M Alandis, N.; Sharmin, E.; Ahmad, N.; Husain, F.M.; Khan, A. 2020: Mechanically Strong, Hydrophobic, Antimicrobial, and Corrosion Protective Polyesteramide Nanocomposite Coatings from Leucaena leucocephala Oil: a Sustainable Resource. Acs Omega 5(47): 30383-30394

Jiao, C.; Zhang, J.; Liu, T.; Peng, X.; Wang, H. 2020: Mechanically Strong, Tough, and Shape Deformable Poly(acrylamide-co-vinylimidazole) Hydrogels Based on Cu2+ Complexation. Acs Applied Materials and Interfaces 12(39): 44205-44214

Schonfeld, M.; Petros, P.; Bornstein, J. 2021: Mechanically Supporting Uterosacral Ligaments for the Relief of Provoked Vulvodynia: a Randomized Pilot Trial. Journal of Pain Research 14: 1281-1288

Hu, X.; Zeng, T.; Husic, C.C.; Robb, M.J. 2021: Mechanically Triggered Release of Functionally Diverse Molecular Payloads from Masked 2-Furylcarbinol Derivatives. Acs Central Science 7(7): 1216-1224

Wang, Z.; Lv, P.; Becton, M.; Hong, J.; Zhang, L.; Chen, X. 2020: Mechanically Tunable Near-Field Radiative Heat Transfer between Monolayer Black Phosphorus Sheets. Langmuir: the Acs Journal of Surfaces and Colloids 36(40): 12038-12044

Camarasa-Gómez, M.ía.; Hernangómez-Pérez, D.; Inkpen, M.S.; Lovat, G.; Fung, E.-D.; Roy, X.; Venkataraman, L.; Evers, F. 2020: Mechanically Tunable Quantum Interference in Ferrocene-Based Single-Molecule Junctions. Nano Letters 20(9): 6381-6386

Ho, K.K.Y.; Lee, L.Man.; Liu, A.P. 2016: Mechanically activated artificial cell by using microfluidics. Scientific Reports 6: 32912

Atcha, H.; Jairaman, A.; Holt, J.R.; Meli, V.S.; Nagalla, R.R.; Veerasubramanian, P.Krishna.; Brumm, K.T.; Lim, H.E.; Othy, S.; Cahalan, M.D.; Pathak, M.M.; Liu, W.F. 2021: Mechanically activated ion channel Piezo1 modulates macrophage polarization and stiffness sensing. Nature Communications 12(1): 3256

Marcotte, A.; Mouterde, Tée.; Niguès, A.; Siria, A.; Bocquet, Léric. 2020: Mechanically activated ionic transport across single-digit carbon nanotubes. Nature Materials 19(10): 1057-1061

Nakamura, M.; Yoshida, S.; Katayama, T.; Taninaka, A.; Mera, Y.; Okada, S.; Takeuchi, O.; Shigekawa, H. 2015: Mechanically activated switching of Si-based single-molecule junction as imaged with three-dimensional dynamic probe. Nature Communications 6: 8465

Monney, B.; Hess-Dunning, A.E.; Gloth, P.; Capadona, J.R.; Weder, C. 2020: Mechanically adaptive implants fabricated with poly(2-hydroxyethyl methacrylate)-based negative photoresists. Journal of Materials Chemistry. B 8(30): 6357-6365

Yu, H.; Zhao, H.; Huang, C.; Du, Y. 2017: Mechanically and Electrically Enhanced CNT-Collagen Hydrogels as Potential Scaffolds for Engineered Cardiac Constructs. Acs Biomaterials Science and Engineering 3(11): 3017-3021

Chen, S.; Sun, L.; Zhou, X.; Guo, Y.; Song, J.; Qian, S.; Liu, Z.; Guan, Q.; Meade Jeffries, E.; Liu, W.; Wang, Y.; He, C.; You, Z. 2020: Mechanically and biologically skin-like elastomers for bio-integrated electronics. Nature Communications 11(1): 1107

Li, M.; Yan, J.; Zhao, H.; Ma, G.; Li, Y. 2021: Mechanically Assisted Neurorehabilitation: a Novel Six-Bar Linkage Mechanism for Gait Rehabilitation. IEEE Transactions on Neural Systems and Rehabilitation Engineering: a Publication of the IEEE Engineering in Medicine and Biology Society 29: 985-992

Chiu, H.-C.; Ada, L.; Bania, T.A. 2020: Mechanically assisted walking training for walking, participation, and quality of life in children with cerebral palsy. Cochrane Database of Systematic Reviews 11: Cd013114

Commins, P.; Dippenaar, A.B.; Li, L.; Hara, H.; Haynes, D.A.; Naumov, P.če. 2021: Mechanically compliant single crystals of a stable organic radical. Chemical Science 12(17): 6188-6193

Quek, S.Ying.; Kamenetska, M.; Steigerwald, M.L.; Choi, H.Joon.; Louie, S.G.; Hybertsen, M.S.; Neaton, J.B.; Venkataraman, L. 2009: Mechanically controlled binary conductance switching of a single-molecule junction. Nature Nanotechnology 4(4): 230-234

Bruot, C.; Hihath, J.; Tao, N. 2011: Mechanically controlled molecular orbital alignment in single molecule junctions. Nature Nanotechnology 7(1): 35-40

Caneva, S.; Gehring, P.; García-Suárez, Víctor.M.; García-Fuente, A.; Stefani, D.; Olavarria-Contreras, I.J.; Ferrer, J.; Dekker, C.; van der Zant, H.S.J. 2018: Mechanically controlled quantum interference in graphene break junctions. Nature Nanotechnology 13(12): 1126-1131

Frisenda, R.; Janssen, V.A.E.C.; Grozema, F.C.; van der Zant, H.S.J.; Renaud, N. 2016: Mechanically controlled quantum interference in individual π-stacked dimers. Nature Chemistry 8(12): 1099-1104

Dehan, F.H. 1951: Mechanically controlled respiration in thoracic surgery. Anesthesie et Analgesie 8(1): 126-127

Itoh, H.; Takahashi, A.; Adachi, K.; Noji, H.; Yasuda, R.; Yoshida, M.; Kinosita, K. 2004: Mechanically driven ATP synthesis by F1-ATPase. Nature 427(6973): 465-468

Di Vito, D.; Mosallaei, M.; Khorramdel, B.; Kanerva, M.; Mäntysalo, M. 2020: Mechanically driven strategies to improve electromechanical behaviour of printed stretchable electronic systems. Scientific Reports 10(1): 12037

Brown, P.S.; Bhushan, B. 2017: Mechanically durable liquid-impregnated honeycomb surfaces. Scientific Reports 7(1): 6083

Brown, P.S.; Bhushan, B. 2015: Mechanically durable, superoleophobic coatings prepared by layer-by-layer technique for anti-smudge and oil-water separation. Scientific Reports 5: 8701

Shokrian, M.; Knox, C.; Kelley, D.H.; Nam, J-Hoon. 2020: Mechanically facilitated micro-fluid mixing in the organ of Corti. Scientific Reports 10(1): 14847

Morrell, A.E.; Brown, G.N.; Robinson, S.T.; Sattler, R.L.; Baik, A.D.; Zhen, G.; Cao, X.; Bonewald, L.F.; Jin, W.; Kam, L.C.; Guo, X.Edward. 2018: Mechanically induced Ca 2+ oscillations in osteocytes release extracellular vesicles and enhance bone formation. Bone Research 6: 6

Kuksenok, O.; Yashin, V.V.; Balazs, A.C. 2007: Mechanically induced chemical oscillations and motion in responsive gels. Soft Matter 3(9): 1138-1144

Chen, Y.; Spiering, A.J.H.; Karthikeyan, S.; Peters, G.W.M.; Meijer, E.W.; Sijbesma, R.P. 2012: Mechanically induced chemiluminescence from polymers incorporating a 1,2-dioxetane unit in the main chain. Nature Chemistry 4(7): 559-562

Poling, H.M.; Wu, D.; Brown, N.; Baker, M.; Hausfeld, T.A.; Huynh, N.; Chaffron, S.; Dunn, J.C.Y.; Hogan, S.P.; Wells, J.M.; Helmrath, M.A.; Mahe, M.M. 2018: Mechanically induced development and maturation of human intestinal organoids in vivo. Nature Biomedical Engineering 2(6): 429-442

Li, C.W.; Lau, Y.T.; Lam, K.L.; Chan, B.P. 2020: Mechanically induced formation and maturation of 3D-matrix adhesions (3DMAs) in human mesenchymal stem cells. Biomaterials 258: 120292

Marino, A.A.; Becker, R.O. 1968: Mechanically induced free radicals in bone. Nature 218(5140): 466-467

Li, F.; Park, T.H.; Sankin, G.; Gilchrist, C.; Liao, D.; Chan, C.U.; Mao, Z.; Hoffman, B.D.; Zhong, P. 2021: Mechanically induced integrin ligation mediates intracellular calcium signaling with single pulsating cavitation bubbles. Theranostics 11(12): 6090-6104

Sagara, Y.; Kato, T. 2009: Mechanically induced luminescence changes in molecular assemblies. Nature Chemistry 1(8): 605-610

Alcântara, C.C.J.; Landers, F.C.; Kim, S.; De Marco, C.; Ahmed, D.; Nelson, B.J.; Pané, S. 2020: Mechanically interlocked 3D multi-material micromachines. Nature Communications 11(1): 5957

Dey, S.; Das, S.; Bhunia, S.; Chowdhury, R.; Mondal, A.; Bhattacharya, B.; Devarapalli, R.; Yasuda, N.; Moriwaki, T.; Mandal, K.; Mukherjee, G.Dev.; Reddy, C.Malla. 2019: Mechanically interlocked architecture aids an ultra-stiff and ultra-hard elastically bendable cocrystal. Nature Communications 10(1): 3711

Janke, M.; Rudzevich, Y.; Molokanova, O.; Metzroth, T.; Mey, I.; Diezemann, G.; Marszalek, P.E.; Gauss, Jürgen.; Böhmer, V.; Janshoff, A. 2009: Mechanically interlocked calix[4]arene dimers display reversible bond breakage under force. Nature Nanotechnology 4(4): 225-229

Bzymek, K.P.; Puckett, J.W.; Zer, C.; Xie, J.; Ma, Y.; King, J.D.; Goodstein, L.H.; Avery, K.N.; Colcher, D.; Singh, G.; Horne, D.A.; Williams, J.C. 2018: Mechanically interlocked functionalization of monoclonal antibodies. Nature Communications 9(1): 1580

Parkins, C.C.; McAbee, J.H.; Ruff, L.; Wendler, A.; Mair, R.; Gilbertson, R.J.; Watts, C.; Scherman, O.A. 2021: Mechanically matching the rheological properties of brain tissue for drug-delivery in human glioblastoma models. Biomaterials 276: 120919

Wang, F.; Li, P.; Wang, D.; Li, L.; Xie, S.; Liu, L.; Wang, Y.; Li, W.Jung. 2014: Mechanically modulated dewetting by atomic force microscope for micro- and nano- droplet array fabrication. Scientific Reports 4: 6524

Kang, P.; Kim, K-Ho.; Park, H-Gyu.; Nam, S. 2018: Mechanically reconfigurable architectured graphene for tunable plasmonic resonances. Light Science and Applications 7: 17

Ballew, C.; Roberts, G.; Camayd-Muñoz, S.; Debbas, M.F.; Faraon, A. 2021: Mechanically reconfigurable multi-functional meta-optics studied at microwave frequencies. Scientific Reports 11(1): 11145

Gregersen, H.; Christensen, J. 2005: Mechanically restricted regional blood flow might explain gastrointestinal pain. Nature Clinical Practice. Gastroenterology and Hepatology 2(9): 378-379

Basavalingappa, V.; Bera, S.; Xue, B.; Azuri, I.; Tang, Y.; Tao, K.; Shimon, L.J.W.; Sawaya, M.R.; Kolusheva, S.; Eisenberg, D.S.; Kronik, L.; Cao, Y.; Wei, G.; Gazit, E. 2019: Mechanically rigid supramolecular assemblies formed from an Fmoc-guanine conjugated peptide nucleic acid. Nature Communications 10(1): 5256

Yin, D.; Jiang, N-Rong.; Liu, Y-Feng.; Zhang, X-Lin.; Li, A-Wu.; Feng, J.; Sun, H-Bo. 2018: Mechanically robust stretchable organic optoelectronic devices built using a simple and universal stencil-pattern transferring technology. Light Science and Applications 7: 35

Bhattacharjee, Y.; Bapari, S.; Bose, S. 2020: Mechanically robust, UV screener core-double-shell nanostructures provide enhanced shielding for EM radiations over wide angle of incidence. Nanoscale 12(29): 15775-15790

Li, S-Hua.; Zhang, H-Yi.; Xu, X.; Liu, Y. 2015: Mechanically selflocked chiral gemini-catenanes. Nature Communications 6: 7590

Robinson, M.; Douglas, S.; Michelle Willerth, S. 2017: Mechanically stable fibrin scaffolds promote viability and induce neurite outgrowth in neural aggregates derived from human induced pluripotent stem cells. Scientific Reports 7(1): 6250

Tadaki, D.; Yamaura, D.; Araki, S.; Yoshida, M.; Arata, K.; Ohori, T.; Ishibashi, K-Ichi.; Kato, M.; Ma, T.; Miyata, R.; Tozawa, Y.; Yamamoto, H.; Niwano, M.; Hirano-Iwata, A. 2017: Mechanically stable solvent-free lipid bilayers in nano- and micro-tapered apertures for reconstitution of cell-free synthesized hERG channels. Scientific Reports 7(1): 17736

Dwivedi, A.; Kiely, P.A.; Hoey, D.A. 2021: Mechanically stimulated osteocytes promote the proliferation and migration of breast cancer cells via a potential CXCL1/2 mechanism. Biochemical and Biophysical Research Communications 534: 14-20

An, Z.; Li, J.; Kikuchi, A.; Wang, Z.; Jiang, Y.; Ono, T. 2019: Mechanically strengthened graphene-Cu composite with reduced thermal expansion towards interconnect applications. Microsystems and Nanoengineering 5: 20

Hadden, M.; Mittal, A.; Samra, J.; Zreiqat, H.; Sahni, S.; Ramaswamy, Y. 2020: Mechanically stressed cancer microenvironment: Role in pancreatic cancer progression. Biochimica et Biophysica Acta. Reviews on Cancer 1874(2): 188418

Zhang, Z.; Yang, S.; Zhang, P.; Zhang, J.; Chen, G.; Feng, X. 2019: Mechanically strong MXene/Kevlar nanofiber composite membranes as high-performance nanofluidic osmotic power generators. Nature Communications 10(1): 2920

Mengsteab, P.Y.; Otsuka, T.; McClinton, A.; Shemshaki, N.S.; Shah, S.; Kan, H.-M.; Obopilwe, E.; Vella, A.T.; Nair, L.S.; Laurencin, C.T. 2020: Mechanically superior matrices promote osteointegration and regeneration of anterior cruciate ligament tissue in rabbits. Proceedings of the National Academy of Sciences of the United States of America 117(46): 28655-28666

Goldstein, J.A.; Dixon, S.R. 2020: Mechanically supported PCi for ischemic cardiomyopathy reawakening of hibernating myocardium. Catheterization and Cardiovascular Interventions: Official Journal of the Society for Cardiac Angiography and Interventions 96(4): 771-772

Wang, H.; Li, H. 2020: Mechanically tightening, untying and retying a protein trefoil knot by single-molecule force spectroscopy. Chemical Science 11(46): 12512-12521

Diesendruck, C.E.; Peterson, G.I.; Kulik, H.J.; Kaitz, J.A.; Mar, B.D.; May, P.A.; White, S.R.; Martínez, T.J.; Boydston, A.J.; Moore, J.S. 2014: Mechanically triggered heterolytic unzipping of a low-ceiling-temperature polymer. Nature Chemistry 6(7): 623-628

Feig, V.R.; Tran, H.; Lee, M.; Bao, Z. 2018: Mechanically tunable conductive interpenetrating network hydrogels that mimic the elastic moduli of biological tissue. Nature Communications 9(1): 2740

Jégou, A.; Romet-Lemonne, G. 2021: Mechanically tuning actin filaments to modulate the action of actin-binding proteins. Current Opinion in Cell Biology 68: 72-80

Anani, T.; Castillo, A.B. 2022: Mechanically-regulated bone repair. Bone 154: 116223

Li, D.; Tao, L.; Wu, T.; Wang, L.; Sun, B.; Ke, Q.; Mo, X.; Deng, B. 2020: Mechanically-reinforced 3D scaffold constructed by silk nonwoven fabric and silk fibroin sponge. Colloids and Surfaces. B Biointerfaces 196: 111361

Frith, J.E.; Kusuma, G.D.; Carthew, J.; Li, F.; Cloonan, N.; Gomez, G.A.; Cooper-White, J.J. 2018: Mechanically-sensitive mi RNAs bias human mesenchymal stem cell fate via mTOR signalling. Nature Communications 9(1): 257

Ray, U.; Zhu, S.; Pang, Z.; Li, T. 2021: Mechanics Design in Cellulose-Enabled High-Performance Functional Materials. Advanced Materials 33(28): E2002504

Lam, W.A.; Chaudhuri, O.; Crow, A.; Webster, K.D.; Li, T-De.; Kita, A.; Huang, J.; Fletcher, D.A. 2011: Mechanics and contraction dynamics of single platelets and implications for clot stiffening. Nature Materials 10(1): 61-66

Kohler, J.A. 1948: Mechanics and diagnostics of TMJ fractures when the joint is preserved and destroyed. Zahnarztliche Rundschau 4(18): 280; Passim

Kohler, J.A. 1948: Mechanics and diagnostics of TMJ fractures when the joint is preserved and destroyed. Zahnarztliche Rundschau 4(19): 300; Passim

Koehler, J.A. 1948: Mechanics and diagnostics of TMJ fractures when the joint is preserved and destroyed. Zahnarztliche Rundschau 4(20): 319; Passim

Kohler, J.A. 1948: Mechanics and diagnostics of TMJ fractures when the joint is preserved and destroyed. Zahnarztliche Rundschau 45(17): 261-263

Kohler, J.A. 1948: Mechanics and diagnostics of the TMJ processes when the joint is preserved and destroyed. Zahnarztliche Rundschau 55(22): 341; Passim

Caccavo, D.; Lamberti, G.; Barba, A.A. 2020: Mechanics and drug release from poroviscoelastic hydrogels: Experiments and modeling. European Journal of Pharmaceutics and Biopharmaceutics: Official Journal of Arbeitsgemeinschaft für Pharmazeutische Verfahrenstechnik E.V 152: 299-306

Genuth, M.A.; Holley, S.A. 2020: Mechanics as a Means of Information Propagation in Development. Bioessays: News and Reviews in Molecular Cellular and Developmental Biology 42(11): E2000121

Haouzi, P.; Zamir, A.; Villarreal-Fernandez, E.; Stauffer, D.; Ventola, L.; Ahmad, D.; Dewaters, A.; Khalid, M.; Wojnar, M. 2020: Mechanics of Breathing and Gas Exchange in Mechanically Ventilated Patients with COVID-19-associated Respiratory Failure. American Journal of Respiratory and Critical Care Medicine 202(4): 626-628

Petrushenko, Z.M.; Cui, Y.; She, W.; Rybenkov, V.V. 2010: Mechanics of DNA bridging by bacterial condensin MukBEF in vitro and in singulo. EMBO Journal 29(6): 1126-1135

Schlecht, R.; Erbse, A.H.; Bukau, B.; Mayer, M.P. 2011: Mechanics of Hsp70 chaperones enables differential interaction with client proteins. Nature Structural and Molecular Biology 18(3): 345-351

Milazzo, M.; Jung, G.S.; Danti, S.; Buehler, M.J. 2020: Mechanics of Mineralized Collagen Fibrils upon Transient Loads. Acs Nano 14(7): 8307-8316

Chatterjee, S.; Sarkar, A.; Zhu, J.; Khodjakov, A.; Mogilner, A.; Paul, R. 2020: Mechanics of Multicentrosomal Clustering in Bipolar Mitotic Spindles. Biophysical Journal 119(2): 434-447

Adhikari, P.B.; Liu, X.; Kasahara, R.D. 2020: Mechanics of Pollen Tube Elongation: a Perspective. Frontiers in Plant Science 11: 589712

Eberhard, K.E.; Masud, S.F.; Knudson, I.M.; Kirubalingam, K.; Khalid, H.; Remenschneider, A.K.; Nakajima, H.H. 2022: Mechanics of Total Drum Replacement Tympanoplasty Studied with Wideband Acoustic Immittance. Otolaryngology--Head and Neck Surgery: Official Journal of American Academy of Otolaryngology-Head and Neck Surgery 166(4): 738-745

Yoshida, K.; Wada, H. 2020: Mechanics of a Snap Fit. Physical Review Letters 125(19): 194301

Fiore, V.F.; Krajnc, M.; Quiroz, F.Garcia.; Levorse, J.; Pasolli, H.Amalia.; Shvartsman, S.Y.; Fuchs, E. 2020: Mechanics of a multilayer epithelium instruct tumour architecture and function. Nature 585(7825): 433-439

Tafazzoli-Shadpour, M.; Mohammadi, E.; Torkashvand, E. 2020: Mechanics of actin filaments in cancer onset and progress. International Review of Cell and Molecular Biology 355: 205-243

Lane, B.A.; Chakrabarti, M.; Ferruzzi, J.; Azhar, M.; Eberth, J.F. 2021: Mechanics of ascending aortas from TGFβ-1, -2, -3 haploinsufficient mice and elastase-induced aortopathy. Journal of Biomechanics 125: 110543

Jin, X.; Marshall, J.S. 2020: Mechanics of biofilms formed of bacteria with fimbriae appendages. Plos one 15(12): E0243280

Schilaty, N.D.; Martin, R.K.; Ueno, R.; Rigamonti, L.; Bates, N.A. 2021: Mechanics of cadaveric anterior cruciate ligament reconstructions during simulated jump landing tasks: Lessons learned from a pilot investigation. Clinical Biomechanics 86: 105372

Sears, V.H. 1945: Mechanics of complete articulated dentures. Protesis Clinica; Periodico Tecnico Informativo Para la Profesion Dental 6(11): 4-8

Shrestha, A.; Pinaud, F.; Haselwandter, C.A. 2021: Mechanics of cup-shaped caveolae. Physical Review. e 104(2): L022401

Vedula, S.Ram.Krishna.; Peyret, Gégoire.; Cheddadi, I.; Chen, T.; Brugués, Aí.; Hirata, H.; Lopez-Menendez, H.; Toyama, Y.; de Almeida, Lís.Neves.; Trepat, X.; Lim, C.Teck.; Ladoux, B. 2015: Mechanics of epithelial closure over non-adherent environments. Nature Communications 6: 6111

Tennenbaum, M.; Liu, Z.; Hu, D.; Fernandez-Nieves, A. 2016: Mechanics of fire ant aggregations. Nature Materials 15(1): 54-59

Kermen, E.; Mohammadi, H. 2021: Mechanics of foot orthotics: material properties. Journal of Medical Engineering and Technology 2021: 1-15

Qin, Z.; Pugno, N.M.; Buehler, M.J. 2014: Mechanics of fragmentation of crocodile skin and other thin films. Scientific Reports 4: 4966

Zeininger, A.; Schmitt, D.; Wunderlich, R.E. 2020: Mechanics of heel-strike plantigrady in African apes. Journal of Human Evolution 145: 102840

Cochereau, T.; Bailly, L.; Orgéas, L.; Henrich Bernardoni, N.; Robert, Y.; Terrien, M. 2020: Mechanics of human vocal folds layers during finite strains in tension, compression and shear. Journal of Biomechanics 110: 109956

Brainerd, E.L. 1998: Mechanics of lung ventilation in a larval salamander Ambystoma tigrinum. Journal of Experimental Biology 201(Part 20): 2891-2901

Rizo, J.; Südhof, T.C. 1998: Mechanics of membrane fusion. Nature Structural Biology 5(10): 839-842

Chernomordik, L.V.; Kozlov, M.M. 2008: Mechanics of membrane fusion. Nature Structural and Molecular Biology 15(7): 675-683

Xu, Z. 2013: Mechanics of metal-catecholate complexes: the roles of coordination state and metal types. Scientific Reports 3: 2914

Nevitt, J.M.; Brooks, B.A.; Catchings, R.D.; Goldman, M.R.; Ericksen, T.L.; Glennie, C.L. 2020: Mechanics of near-field deformation during co- and post-seismic shallow fault slip. Scientific Reports 10(1): 5031

Akhtar, S.; McCash, L.B.; Nadeem, S.; Saleem, S.; Issakhov, A. 2021: Mechanics of non-Newtonian blood flow in an artery having multiple stenosis and electroosmotic effects. Science Progress 104(3): 368504211031693

Whitney, R.J. 1958: Mechanics of normal muscular activity. Nature 181(4614): 942-944

Bernardo, R.J.; Haddad, F.; Couture, E.J.; Hansmann, G.; de Jesus Perez, V.A.; Denault, A.é Y.; de Man, F.S.; Amsallem, M. 2020: Mechanics of right ventricular dysfunction in pulmonary arterial hypertension and heart failure with preserved ejection fraction. Cardiovascular Diagnosis and Therapy 10(5): 1580-1603

Meistroff, C.L. 1950: Mechanics of simplified non-traumatic exodontia; principles, technic, application. Dental Items of Interest 72(9): 950

Meistroff, C.L. 1950: Mechanics of simplified non-traumatic exodontia; principles-technic-application. Dental Items of Interest 72(6): 613

Meistroff, C.L. 1951: Mechanics of simplified non-traumatic exodontia; principles; technic; application. Dental Items of Interest 73(2): 172-179 Contd

Kundanati, L.; Guarino, R.; Menegon, M.; Pugno, N.M. 2020: Mechanics of snake biting: Experiments and modelling. Journal of the Mechanical Behavior of Biomedical Materials 112: 104020

Penner, L.S.J. 2021: Mechanics of the Jump Shot: the "Dip" Increases the Accuracy of Elite Basketball Shooters. Frontiers in Psychology 12: 658102

Lane-Petter, W. 1952: Mechanics of the animal water-bottle. Nature 169(4298): 465-466

Liebman, C.; McColloch, A.; Rabiei, M.; Bowling, A.; Cho, M. 2020: Mechanics of the cell: Interaction mechanisms and mechanobiological models. Current Topics in Membranes 86: 143-184

Kelkar, M.; Bohec, P.; Charras, G. 2020: Mechanics of the cellular actin cortex: from signalling to shape change. Current Opinion in Cell Biology 66: 69-78

Gamrah, M.A.; Xu, J.; El Sawy, A.; Aguib, H.; Yacoub, M.; Parker, K.H. 2020: Mechanics of the dicrotic notch: An acceleration hypothesis. Proceedings of the Institution of Mechanical Engineers. Part H Journal of Engineering in Medicine 234(11): 1253-1259

Carter, N.J.; Cross, R.A. 2005: Mechanics of the kinesin step. Nature 435(7040): 308-312

Garrett, R. 1999: Mechanics of the ribosome. Nature 400(6747): 811-812

Sasaki, H. 1983: Mechanics of the small airway. Nihon Kyobu Shikkan Gakkai Zasshi 21(3): 210-214

Nazockdast, E.; Redemann, S. 2020: Mechanics of the spindle apparatus. Seminars in Cell and Developmental Biology 107: 91-102

Goddard, C.K. 1969: Mechanics of the urinary bladder of the lizard Tiliqua scincoides scincoides (Shaw). Australian Journal of Experimental Biology and Medical Science 47(6): 701-711

Hinman, F. 1972: Mechanics of ureteral dilatation. Canadian Journal of Surgery. Journal Canadien de Chirurgie 15(1): 1

Wu, A.R.; Simpson, C.S.; van Asseldonk, E.H.F.; van der Kooij, H.; Ijspeert, A.J. 2019: Mechanics of very slow human walking. Scientific Reports 9(1): 18079

Nuckols, R.W.; Takahashi, K.Z.; Farris, D.J.; Mizrachi, S.; Riemer, R.; Sawicki, G.S. 2020: Mechanics of walking and running up and downhill: a joint-level perspective to guide design of lower-limb exoskeletons. Plos one 15(8): E0231996

Barth, F.G. 2019: Mechanics to pre-process information for the fine tuning of mechanoreceptors. Journal of Comparative Physiology. A Neuroethology Sensory Neural and Behavioral Physiology 205(5): 661-686

Davis, S.; Fox, A.; Bonacci, J.; Davis, F. 2020: Mechanics, energetics and implementation of grounded running technique: a narrative review. Bmj Open Sport and Exercise Medicine 6(1): E000963

Tewary, M.; Zandstra, P.W. 2018: Mechanics-guided developmental fate patterning. Nature Materials 17(7): 571-572

Xue, X.; Sun, Y.; Resto-Irizarry, A.M.; Yuan, Y.; Aw Yong, K.Meng.; Zheng, Y.; Weng, S.; Shao, Y.; Chai, Y.; Studer, L.; Fu, J. 2018: Mechanics-guided embryonic patterning of neuroectoderm tissue from human pluripotent stem cells. Nature Materials 17(7): 633-641

Sharon, E.; Roman, Bît.; Marder, M.; Shin, G-Seung.; Swinney, H.L. 2002: Mechanics. Buckling cascades in free sheets. Nature 419(6907): 579

Halsey, T.C. 2003: Mechanics: friction in a spin. Nature 424(6952): 1005-1006

Lui, L.M.; Majumder, E.L.-W.; Smith, H.J.; Carlson, H.K.; von Netzer, F.; Fields, M.W.; Stahl, D.A.; Zhou, J.; Hazen, T.C.; Baliga, N.S.; Adams, P.D.; Arkin, A.P. 2021: Mechanism Across Scales: a Holistic Modeling Framework Integrating Laboratory and Field Studies for Microbial Ecology. Frontiers in Microbiology 12: 642422

Jiang, Q.; Chen, J.; Wang, Y.; Liang, B.; Hu, J.; Zhuang, S. 2016: Mechanism Analysis of the Inverse Doppler Effect in Two-Dimensional Photonic Crystal based on Phase Evolution. Scientific Reports 6: 24790

Jung, S.Y.; Kim, T.; Hwang, H.J.; Hong, K. 2021: Mechanism Design of Health Care Blockchain System Token Economy: Development Study Based on Simulated Real-World Scenarios. Journal of Medical Internet Research 23(9): E26802

Razavi, M.J.; Liu, T.; Wang, X. 2021: Mechanism Exploration of 3-Hinge Gyral Formation and Pattern Recognition. Cerebral Cortex Communications 2(3): Tgab 044

Malmejac, J.; Chardon, G. 1947: Mechanism For Initiating and Maintaining Adrenal Adrenaline Secretion In Anoxia. ComptesRendusdesSeancesdelaSocietedeBiologieetdeSesFiliales 141(7-8): 395

Wang, Y.; Jing, B.; Wang, F.; Wang, S.; Liu, X.; Ao, Z.; Li, C. 2020: Mechanism Insight into enhanced photodegradation of pharmaceuticals and personal care products in natural water matrix over crystalline graphitic carbon nitrides. Water Research 180: 115925

Aron, M.; Aron, C.; Marescaux, J. 1948: Mechanism of Action of Folliculin on the Ovary; Demonstration of the Excitatory Action of Folliculin on the Ovario-Stimulating Function of the Pre-Pituitary Gland. Comptes Rendus des Seances de la Societe de Biologie et de ses Filiales 142(3-4): 232-234

Vacirca, F. 1945: Mechanism of Action of Functional Antimicrobial Substances. Pathologica 37: 63-69

Barzizza, C.M.; Ricardi, E.A. 1945: Mechanism of Action of Lysozyme. Obstetricia y Ginecologia Latino-Americanas 3: 556-558

Viana, J. 1945: Mechanism of Action of Prefrontal Lobotomy in the Suppression of Mental Symptoms. Bahia Medica 16: 25-31

Kumari, K.; Wu, H.; Long, A.; Lu, X.; Oberheide, J. 2021: Mechanism Studies of Madden-Julian Oscillation Coupling Into the Mesosphere/Lower Thermosphere Tides Using SABER, MERRA-2, and SD-WACCMX. Journal of Geophysical Research. Atmospheres: Jgr 126(13): E2021jd034595

Zhang, Y.; Su, P.; Mu, Y.; Zhang, G.; Luo, Y.; Jiang, J.; Hu, W. 2020: Mechanism Study of Molecular Deformation of 2,2',5',2″-Tetramethylated p-Terphenyl-4,4″-dithiol Trapped in Gold Junctions. Journal of Physical Chemistry Letters 11(11): 4456-4461

Zhou, Z.-Y.; Zhao, W.-R.; Xiao, Y.; Zhang, J.; Tang, J.-Y.; Lee, S.M.-Y. 2020: Mechanism Study of the Protective Effects of Sodium Tanshinone IIA Sulfonate Against Atorvastatin-Induced Cerebral Hemorrhage in Zebrafish: Transcriptome Analysis. Frontiers in Pharmacology 11: 551745

Matos, J.O.; Kumar, R.P.; Ma, A.C.; Patterson, M.; Krauss, I.J.; Oprian, D.D. 2020: Mechanism Underlying Anti-Markovnikov Addition in the Reaction of Pentalenene Synthase. Biochemistry 59(35): 3271-3283

Sun, H.; Ge, H.; Zheng, M.; Lin, Z.; Liu, Y. 2016: Mechanism Underlying Time-dependent Cross-phenomenon between Concentration-response Curves and Concentration Addition Curves: A Case Study of Sulfonamides-Erythromycin mixtures on Escherichia coli. Scientific Reports 6: 33718

Taub, T.'e.; Hassid, A.; Ruthstein, S.; Cohen, H. 2020: Mechanism Underlying the Emission of Gases during the Low-Temperature Oxidation of Bituminous and Lignite Coal Piles: the Involvement of Radicals. Acs Omega 5(44): 28500-28509

Li, M.; Shi, X.-L.; Xu, C.; Wu, L.-G.; He, B.; Li, Y.-H.; Liang, B.-C. 2020: Mechanism action of Chinese herbal compound and target network pharmacology of Yougui (YG) pill for the treatment of osteoporosis. Zhongguo Gu Shang 33(10): 933-937

Wang, J.; Xu, Q.; Yin, W.; Hou, J.; Wang, S.; Wang, X. 2021: Mechanism analysis of MnFe2O4/FeSX for removal of Cr(VI) from aqueous phase. Ecotoxicology and Environmental Safety 217: 112209

Fu, Q.; Tan, X.; Ye, S.; Ma, L.; Gu, Y.; Zhang, P.; Chen, Q.; Yang, Y.; Tang, Y. 2021: Mechanism analysis of heavy metal lead captured by natural-aged microplastics. Chemosphere 270: 128624

Han, X.; Zhu, F.; Chen, L.; Wu, H.; Wang, T.; Chen, K. 2020: Mechanism analysis of toxicity of sodium sulfite to human hepatocytes L02. Molecular and Cellular Biochemistry 473(1-2): 25-37

Asmamaw, M.; Zawdie, B. 2021: Mechanism and Applications of CRISPR/Cas-9-Mediated Genome Editing. Biologics: Targets and Therapy 15: 353-361

Wang, J.; Wang, H.; Lee, C. 2019: Mechanism and Applications of Electrical Stimulation Disturbance on Motoneuron Excitability Studied Using Flexible Intramuscular Electrode. Advanced Biosystems 3(7): E1800281

Zumwalt, L.; Perkins, A.; Ogba, O.M. 2020: Mechanism and Chemoselectivity for HOCl-Mediated Oxidation of Zinc-Bound Thiolates. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 21(21): 2384-2387

Wang, Z.; Li, Y.; Yang, X.; Zhao, J.; Cheng, Y.; Wang, J. 2020: Mechanism and Complex Roles of HSC70 in Viral Infections. Frontiers in Microbiology 11: 1577

García-Pastor, C.; Benito-Martínez, S.; Moreno-Manzano, V.; Fernández-Martínez, A.B.; Lucio-Cazaña, F.Javier. 2019: Mechanism and Consequences of The Impaired Hif-1α Response to Hypoxia in Human Proximal Tubular HK-2 Cells Exposed to High Glucose. Scientific Reports 9(1): 15868

Yadav, V.K.; Claeys Bouuaert, C. 2021: Mechanism and Control of Meiotic DNA Double-Strand Break Formation in S. cerevisiae. Frontiers in Cell and Developmental Biology 9: 642737

Wu, L.; Shao, H.; Fang, Z.; Zhao, Y.; Cao, C.Y.; Li, Q. 2019: Mechanism and Effects of Polyphenol Derivatives for Modifying Collagen. Acs Biomaterials Science and Engineering 5(9): 4272-4284

Feng, Z.; Lu, B.; Ouyang, W.; Su, S.F.; Zhang, D.; Wang, W.; Wan, Y.; Ma, Z.; Li, Q.; Geng, Y.; Cao, D.; Fu, S. 2021: Mechanism and Functional Parameter of Myocardial Damage Induced by Low-Dose Radiation in Rats. International Journal of Radiation Oncology Biology Physics 111(3s): E245

Ge, S.; Meng, X.-R.; Xu, W.; Shi, W.-L. 2020: Mechanism and Influencing Factors of Increasing Soil Temperature by in-situ Electrical Resistance Heating. Huan Jing Ke Xue= Huanjing Kexue 41(8): 3822-3828

Chen, R.; Tang, L.-H.; Sun, T.; Zeng, Z.; Zhang, Y.-Y.; Ding, K.; Meng, Q.-T. 2020: Mechanism and Management of Fentanyl-Induced Cough. Frontiers in Pharmacology 11: 584177

Ogunmolu, O.; Liu, X.; Gans, N.; Wiersma, R.D. 2020: Mechanism and Model of a Soft Robot for Head Stabilization in Cancer Radiation Therapy. IEEE International Conference on Robotics and Automation: Icra: Proceedings . IEEE International Conference on Robotics and Automation 2020: 4609-4615

Liang, R.; Zhang, J.; Liu, Z.; Liu, Z.; Li, Q.; Luo, X.; Li, Y.; Ye, J.; Lin, Y. 2020: Mechanism and Molecular Network of RBM8A-Mediated Regulation of Oxaliplatin Resistance in Hepatocellular Carcinoma. Frontiers in Oncology 10: 585452

Liu, T.-T.; Tang, S.-Y.; Hu, B.; Liu, P.; Bi, S.; Jiang, Y.-Y. 2020: Mechanism and Origin of Chemoselectivity of Ru-Catalyzed Cross-Coupling of Secondary Alcohols to β-Disubstituted Ketones. Journal of Organic Chemistry 85(19): 12444-12455

Zhu, L.; Liu, L.-J.; Jiang, Y.-Y.; Liu, P.; Fan, X.; Zhang, Q.; Zhao, Y.; Bi, S. 2020: Mechanism and Origin of Ligand-Controlled Chemo- and Regioselectivities in Palladium-Catalyzed Methoxycarbonylation of Alkynes. Journal of Organic Chemistry 85(11): 7136-7151

Feng, A.; Yang, Y.; Liu, Y.; Geng, C.; Zhu, R.; Zhang, D. 2020: Mechanism and Origins of Enantio- and Regioselectivities in Catalytic Asymmetric Minisci-Type Addition to Heteroarenes. Journal of Organic Chemistry 85(11): 7207-7217

Zhang, Y.; Ji, F.; Liu, E.; Wen, J.G. 2021: Mechanism and Priority of Botulinum Neurotoxin a versus Sacral Neuromodulation for Refractory Overactive Bladder: a Review. Urologia Internationalis 105(11-12): 929-934

Liu, G.; Gu, A.; E, M. 2020: Mechanism and Research Progress of Microbiome in the Development of Lung Cancer. Zhongguo Fei Ai Za Zhi 23(11): 948-953

Feinberg, E.C.; Dinnocenzo, J.P. 2020: Mechanism and Selectivity of Aryltrimethylgermane Cation Radical Fragmentations. Journal of Organic Chemistry 85(13): 8639-8644

Bartošík, M.; Mach, J.ři.; Piastek, J.; Nezval, D.; Konečný, M.; Švarc, V.ěc.; Ensslin, K.; Šikola, T.áš 2020: Mechanism and Suppression of Physisorbed-Water-Caused Hysteresis in Graphene FET Sensors. Acs Sensors 5(9): 2940-2949

Shin, D.; Zu, F.; Cohen, A.V.; Yi, Y.; Kronik, L.; Koch, N. 2021: Mechanism and Timescales of Reversible p-Doping of Methylammonium Lead Triiodide by Oxygen. Advanced Materials 33(23): E2100211

Mohammad Zadeh, N.; Mashinchi Asl, N.S.; Forouharnejad, K.; Ghadimi, K.; Parsa, S.; Mohammadi, S.; Omidi, A. 2021: Mechanism and adverse effects of COVID-19 drugs: a basic review. International Journal of Physiology Pathophysiology and Pharmacology 13(4): 102-109

Liang, H.; He, K.; Li, T.; Cui, S.; Tang, M.; Kang, S.; Ma, W.; Song, L. 2020: Mechanism and antibacterial activity of vine tea extract and dihydromyricetin against Staphylococcus aureus. Scientific Reports 10(1): 21416

Sheng, Q.; Ye, R.-P.; Gong, W.; Shi, X.; Xu, B.; Argyle, M.; Adidharma, H.; Fan, M. 2020: Mechanism and catalytic performance for direct dimethyl ether synthesis by CO2 hydrogenation over CuZnZr/ferrierite hybrid catalyst. Journal of Environmental Sciences 92: 106-117

De Alenquer, M. 1946: Mechanism and causes of arterial hypertension; Experimental hypertension. Amatus Lusitanus; Revista de Medicina e Cirurgia 5: 79-111

De Alenquer, M. 1945: Mechanism and causes of arterial hypertension; Hemodynamics and regulation of circulation. Amatus Lusitanus; Revista de Medicina e Cirurgia 4: 649-687

Huang, W.; Qin, H.; Xiong, Y.; Song, B.; Chen, S. 2021: Mechanism and characteristics of a tunable dispersion-compensating dual-ring microstructure fiber for different orbital angular momentum modes. Journal of the Optical Society of America. a Optics Image Science and Vision 38(2): 229-236

DeNicola, G.Felice.; Martin, E.Denise.; Chaikuad, A.; Bassi, R.; Clark, J.; Martino, L.; Verma, S.; Sicard, P.; Tata, Rée.; Atkinson, R.Andrew.; Knapp, S.; Conte, M.R.; Marber, M.S. 2013: Mechanism and consequence of the autoactivation of p38α mitogen-activated protein kinase promoted by TAB1. Nature Structural and Molecular Biology 20(10): 1182-1190

Chen, W-Bin.; Vasseur, L.; Zhang, S-Qi.; Zhang, H-Fang.; Mao, J.; Liu, T-Sheng.; Zhou, X-Yong.; Wang, X.; Zhang, J.; You, M-Sheng.; Gurr, G.M. 2020: Mechanism and consequences for avoidance of superparasitism in the solitary parasitoid Cotesia vestalis. Scientific Reports 10(1): 11463

Holderfield, M.; Nagel, T.E.; Stuart, D.D. 2014: Mechanism and consequences of RAF kinase activation by small-molecule inhibitors. British Journal of Cancer 111(4): 640-645

Wang, X.; Liu, L.; Whisnant, A.W.; Hennig, T.; Djakovic, L.; Haque, N.; Bach, C.; Sandri-Goldin, R.M.; Erhard, F.; Friedel, C.C.; Dölken, L.; Shi, Y. 2021: Mechanism and consequences of herpes simplex virus 1-mediated regulation of host mRNA alternative polyadenylation. Plos Genetics 17(3): E1009263

Cheke, A.S. 1969: Mechanism and consequences of hybridization in sparrows Passer. Nature 222(5189): 179-180

Lei, H.; Li, G.; Xie, H.; Zhang, Q.; Wang, X.; Zhao, J.; Chen, Z.; Zhao, Z. 2020: Mechanism and control of rotational coherence in femtosecond laser-driven N2. Optics Express 28(15): 22829-22843

Yamashita, H.; Kobayashi, E. 2021: Mechanism and design of a novel 8K ultra-high-definition video microscope for microsurgery. Heliyon 7(2): E06244

Oliveira, S.R.; Amaral, J.D.; Rodrigues, Cília.M.P. 2018: Mechanism and disease implications of necroptosis and neuronal inflammation. Cell Death and Disease 9(9): 903

Liu, Y.; Liu, J. 2021: Mechanism and dynamic evolution of leachate collection system clogging in MSW landfills in China. Waste Management 120: 314-321

Liu, C.; Shao, C.; Du, Q.; He, C.; Sun, X.; Lou, A.; Ma, Z.; Yu, J. 2020: Mechanism and effects of fructose diphosphate on anti-hypoxia fatigue and learning memory ability. Canadian Journal of Physiology and Pharmacology 98(10): 733-740

Menegaz, D.; Hagan, D.Walker.; Almaça, J.; Cianciaruso, C.; Rodriguez-Diaz, R.; Molina, J.; Dolan, R.M.; Becker, M.W.; Schwalie, P.C.; Nano, R.; Lebreton, F.; Kang, C.; Sah, R.; Gaisano, H.Y.; Berggren, P-Olof.; Baekkeskov, S.; Caicedo, A.; Phelps, E.A. 2019: Mechanism and effects of pulsatile GABA secretion from cytosolic pools in the human beta cell. Nature Metabolism 1(11): 1110-1126

Oh, C.; Sun, P.P.; Araud, E.; Nguyen, T.H. 2020: Mechanism and efficacy of virus inactivation by a microplasma UV lamp generating monochromatic UV irradiation at 222 nm. Water Research 186: 116386

Yang, X.; Liu, P.; Yao, M.; Sun, H.; Liu, R.; Xie, J.; Zhao, Y. 2021: Mechanism and enhancement of Cr(VI) contaminated groundwater remediation by molasses. Science of the Total Environment 780: 146580

Hämisch, B.; Huber, K. 2021: Mechanism and equilibrium thermodynamics of H- and J-aggregate formation from pseudo isocyanine chloride in water. Soft Matter 17(35): 8140-8152

Crawley-Snowdon, H.; Yang, J-Chun.; Zaccai, N.R.; Davis, L.J.; Wartosch, L.; Herman, E.K.; Bright, N.A.; Swarbrick, J.S.; Collins, B.M.; Jackson, L.P.; Seaman, M.N.J.; Luzio, J.Paul.; Dacks, J.B.; Neuhaus, D.; Owen, D.J. 2020: Mechanism and evolution of the Zn-fingernail required for interaction of VARP with VPS29. Nature Communications 11(1): 5031

Meng-Long, Z.; Xiao-Yan, H.; Ya-Lu, C.; Xin, N.; Qing-Ting, R.; Zhen-Yi, L.; Li-Qun, L.I. 2020: Mechanism and experimental verification of Sijunzi Decoction in treatment of ulcerative colitis based on network pharmacology. Zhongguo Zhong Yao Za Zhi 45(22): 5362-5372

Liu, J.C.Y.; Kühbacher, U.; Larsen, N.B.; Borgermann, N.; Garvanska, D.H.; Hendriks, I.A.; Ackermann, L.; Haahr, P.; Gallina, I.; Guérillon, C.; Branigan, E.; Hay, R.T.; Azuma, Y.; Nielsen, M.L.; Duxin, J.P.; Mailand, N. 2021: Mechanism and function of DNA replication-independent DNA-protein crosslink repair via the SUMO-RNF4 pathway. Embo Journal 40(18): E107413

Thirouin, Z.S.; Bourque, C.W. 2021: Mechanism and function of phasic firing in vasopressin-releasing magnocellular neurosecretory cells. Journal of Neuroendocrinology 33(11): E13048

Miller, J.R.; Hocking, A.M.; Brown, J.D.; Moon, R.T. 1999: Mechanism and function of signal transduction by the Wnt/beta-catenin and Wnt/Ca2+ pathways. Oncogene 18(55): 7860-7872

Hui, E.; Gaffaney, J.D.; Wang, Z.; Johnson, C.P.; Evans, C.S.; Chapman, E.R. 2011: Mechanism and function of synaptotagmin-mediated membrane apposition. Nature Structural and Molecular Biology 18(7): 813-821

Goto, T.; Takano, M.; Albergaria, A.; Briese, J.; Pomeranz, K.M.; Cloke, B.; Fusi, L.; Feroze-Zaidi, F.; Maywald, N.; Sajin, M.; Dina, R.E.; Ishihara, O.; Takeda, S.; Lam, E.W-F.; Bamberger, A.M.; Ghaem-Maghami, S.; Brosens, J.J. 2008: Mechanism and functional consequences of loss of FOXO1 expression in endometrioid endometrial cancer cells. Oncogene 27(1): 9-19

Sabirov, M.; Kyrchanova, O.; Pokholkova, G.V.; Bonchuk, A.; Klimenko, N.; Belova, E.; Zhimulev, I.F.; Maksimenko, O.; Georgiev, P. 2021: Mechanism and functional role of the interaction between CP190 and the architectural protein Pita in Drosophila melanogaster. Epigenetics and Chromatin 14(1): 16

Romanov, J.; Walczak, M.; Ibiricu, I.; Schüchner, S.; Ogris, E.; Kraft, C.; Martens, S. 2012: Mechanism and functions of membrane binding by the Atg5-Atg12/Atg16 complex during autophagosome formation. EMBO Journal 31(22): 4304-4317

Du, Z.; Chen, H.; Guo, X.; Qin, L.; Lin, D.; Huo, L.; Yao, Y.; Zhang, Z. 2021: Mechanism and industrial application feasibility analysis on microwave-assisted rapid synthesis of amino-carboxyl functionalized cellulose for enhanced heavy metal removal. Chemosphere 268: 128833

Wang, Z.; Rahkola, J.; Redzic, J.S.; Chi, Y-Chih.; Tran, N.; Holyoak, T.; Zheng, H.; Janoff, E.; Eisenmesser, E. 2020: Mechanism and inhibition of Streptococcus pneumoniae IgA1 protease. Nature Communications 11(1): 6063

Chen, S-Chia.; Huang, C-Hung.; Lai, S-Jung.; Yang, C.Shin.; Hsiao, T-Hung.; Lin, C-Heng.; Fu, P-Kuei.; Ko, T-Ping.; Chen, Y. 2016: Mechanism and inhibition of human UDP-GlcNAc 2-epimerase, the key enzyme in sialic acid biosynthesis. Scientific Reports 6: 23274

Klemm, T.; Ebert, G.; Calleja, D.J.; Allison, C.C.; Richardson, L.W.; Bernardini, J.P.; Lu, B.G.; Kuchel, N.W.; Grohmann, C.; Shibata, Y.; Gan, Z.Y.; Cooney, J.P.; Doerflinger, M.; Au, A.E.; Blackmore, T.R.; van der Heden van Noort, G.J.; Geurink, P.P.; Ovaa, H.; Newman, J.; Riboldi-Tunnicliffe, A.; Czabotar, P.E.; Mitchell, J.P.; Feltham, R.; Lechtenberg, B.C.; Lowes, K.N.; Dewson, G.; Pellegrini, M.; Lessene, G.; Komander, D. 2020: Mechanism and inhibition of the papain-like protease, PLpro, of SARS-CoV-2. Embo Journal 39(18): E106275

Landau, A. 1947: Mechanism and insufficiency of the circulatory system. Polski Tygodnik Lekarski 2(14): 409-413

Gilge, J.L.; Bagga, S.; Ahmed, A.S.; Clark, B.A.; Patel, P.J.; Prystowsky, E.N.; Olson, J.A.; Steinberg, L.A.; Padanilam, B.J. 2021: Mechanism and interpretation of two-for-one response to premature atrial complexes during atrioventricular node re-entry tachycardia. Europace: European Pacing Arrhythmias and Cardiac Electrophysiology: Journal of the Working Groups on Cardiac Pacing Arrhythmias and Cardiac Cellular Electrophysiology of the European Society of Cardiology 23(4): 634-639

Lou, Z.; Zhao, H.; Lyu, G. 2020: Mechanism and intervention of mucosal immune regulation based on "lung and large intestine being interior-exteriorly related" theory of traditional Chinese medicine. Zhejiang da Xue Xue Bao. Yi Xue Ban 49(6): 665-678

Ye, S.; Yang, S.; Ni, L.; Qiu, W.; Xu, Q. 2022: Mechanism and kinetic study of Paal-Knorr reaction based on in-situ MIR monitoring. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 264: 120280

Zhang, X.; Wang, C.; Yang, P.; Zhang, X.; Chen, W.; Liu, J.; Cui, Y.; Liu, X.; Li, X. 2021: Mechanism and kinetics characteristic of self-discharge of FeS2 cathodes for thermal batteries. Physical Chemistry Chemical Physics: Pccp 23(1): 196-203

Lakshmanan, S.; Hase, W.L.; Smith, G.P. 2021: Mechanism and kinetics for the reaction of methyl peroxy radical with O2. Physical Chemistry Chemical Physics: Pccp 23(41): 23508-23516

Porfiriev, D.P.; Azyazov, V.N.; Mebel, A.M. 2021: Mechanism and kinetics of the oxidation of 1,3-butadien-1-yl (n-C4H5): a theoretical study. Physical Chemistry Chemical Physics: Pccp 23(15): 9198-9210

Asratian, E.A. 1969: Mechanism and localization of conditioned inhibition. Zhurnal Vysshei Nervnoi Deiatelnosti Imeni i P Pavlova 19(2): 195-211

Yan, H.; Zou, C. 2021: Mechanism and material basis of Lianhua Qingwen capsule for improving clinical cure rate of COVID-19: a study based on network pharmacology and molecular docking technology. Nan Fang Yi Ke da Xue Xue Bao 41(1): 20-30

Dikic, I.; Elazar, Z. 2018: Mechanism and medical implications of mammalian autophagy. Nature Reviews. Molecular Cell Biology 19(6): 349-364

Weerasooriya, T.; Alexander, S. 2021: Mechanism and microstructure based concept to predict skull fracture using a hybrid-experimental-modeling-computational approach. Journal of the Mechanical Behavior of Biomedical Materials 121: 104599

Ye, T.; Meng, S.; Zhang, J.; E, Y.; Yang, Y.; Liu, W.; Yin, Y.; Wang, L. 2016: Mechanism and modulation of terahertz generation from a semimetal--graphite. Scientific Reports 6: 22798

Maskeri, M.A.; Brueckner, A.C.; Feoktistova, T.; O'Connor, M.J.; Walden, D.M.; Cheong, P.H.-Y.; Scheidt, K.A. 2020: Mechanism and origins of selectivity in the enantioselective oxa-Pictet-Spengler reaction: a cooperative catalytic complex from a hydrogen bond donor and chiral phosphoric acid. Chemical Science 11(33): 8736-8743

Etoh, T.; Yamamoto, N.; Shinagawa, K.; Hatta, T.; Itoi, E. 2020: Mechanism and patterns of bone loss in patients with anterior shoulder dislocation. Journal of Shoulder and Elbow Surgery 29(10): 1974-1980

Ding, J.; Huang, L.; Liu, W.; Ling, Y.; Wu, W.; Li, H. 2020: Mechanism and performance analyses of optical beam splitters using all-dielectric oligomer-based metasurfaces. Optics Express 28(22): 32721-32737

Li, C.X.; Lin, J.T. 2021: Mechanism and prospect of mesenchymal stem cells in the treatment of severe asthma. Zhonghua Jie he He Hu Xi Za Zhi 44(6): 591-596

Zhou, Y.; van Zijl, P.C.M.; Xu, J.; Yadav, N.N. 2021: Mechanism and quantitative assessment of saturation transfer for water-based detection of the aliphatic protons in carbohydrate polymers. Magnetic Resonance in Medicine 85(3): 1643-1654

Li, Y.; Li, Z.; Zhang, Z. 2021: Mechanism and regio- and stereoselectivity in an NHC-catalyzed Mannich/lactamization domino reaction. Physical Chemistry Chemical Physics: Pccp 23(10): 6204-6212

Ghanim, G.E.; Rio, D.C.; Teixeira, F.K. 2020: Mechanism and regulation of P element transposition. Open Biology 10(12): 200244

Zeng, L.; Zhang, Q.; Li, S.; Plotnikov, A.N.; Walsh, M.J.; Zhou, M-Ming. 2010: Mechanism and regulation of acetylated histone binding by the tandem PHD finger of DPF3b. Nature 466(7303): 258-262

Oudinet, C.é; Braikia, F.-Z.; Dauba, A.; Khamlichi, A.A. 2020: Mechanism and regulation of class switch recombination by IgH transcriptional control elements. Advances in Immunology 147: 89-137

Lieber, M.R.; Ma, Y.; Pannicke, U.; Schwarz, K. 2003: Mechanism and regulation of human non-homologous DNA end-joining. Nature Reviews. Molecular Cell Biology 4(9): 712-720

Hemmeler, G. 1950: Mechanism and regulation of iron resorption. Schweizerische Medizinische Wochenschrift 80(23): 599-604

Gersch, M.; Gladkova, C.; Schubert, A.F.; Michel, M.A.; Maslen, S.; Komander, D. 2017: Mechanism and regulation of the Lys6-selective deubiquitinase USP30. Nature Structural and Molecular Biology 24(11): 920-930

Sankar, S.; Bell, R.; Stephens, B.; Zhuo, R.; Sharma, S.; Bearss, D.J.; Lessnick, S.L. 2013: Mechanism and relevance of EWS/FLI-mediated transcriptional repression in Ewing sarcoma. Oncogene 32(42): 5089-5100

Sankar, S.; Bell, R.; Stephens, B.; Zhuo, R.; Sharma, S.; Bearss, D.J.; Lessnick, S.L. 2016: Mechanism and relevance of EWS/FLI-mediated transcriptional repression in Ewing sarcoma. Oncogene 35(47): 6155-6156

Li, G.; Li, M.; Zhang, J. 2021: Mechanism and research progresses of personalized music in the treatment of tinnitus. Lin Chuang Er Bi Yan Hou Tou Jing Wai Ke Za Zhi 35(1): 91-95

Li, X.; Zou, T.; Wang, S.; Wu, H.; Wu, M.; Liu, Z.; Liu, H. 2021: Mechanism and restoration strategy of lysosomal abnormalities induced by urinary protein overload in proximal tubule epithelial cells. Developmental Dynamics: An Official Publication of the American Association of Anatomists 250(7): 943-954

Ruiz Silva, M.; van der Ende-Metselaar, H.; Mulder, H.Lie.; Smit, J.M.; Rodenhuis-Zybert, I.A. 2016: Mechanism and role of MCP-1 upregulation upon chikungunya virus infection in human peripheral blood mononuclear cells. Scientific Reports 6: 32288

Yao, H.-Y.; Her, T.-H. 2021: Mechanism and sensitivity of Fano resonance tuning in high-contrast gratings. Optics Letters 46(4): 721-724

Qin, X.; Lu, X.; Wang, Y.; Yu, F.; Cui, Z.; Qin, R.; Xu, K.; Guan, X.; He, X. 2020: Mechanism and significance of apoptosis of the immortalized human oral mucosal epithelial cells established by Lentivirus-mediated hTERT. Molecular Biology Reports 47(7): 5469-5475

Kawale, A.S.; Sung, P. 2020: Mechanism and significance of chromosome damage repair by homologous recombination. Essays in Biochemistry 64(5): 779-790

Marshall, A.J. 1950: Mechanism and significance of the 'refractory period' in the avian testis cycle. Nature 166(4233): 1034-1035

Ye, Z.; Schukraft, G.E.M.; L'Hermitte, A.; Xiong, Y.; Brillas, E.; Petit, C.; Sirés, I. 2020: Mechanism and stability of an Fe-based 2D MOF during the photoelectro-Fenton treatment of organic micropollutants under UVA and visible light irradiation. Water Research 184: 115986

MacFadden, A.; O'Donoghue, Z.; Silva, P.A.G.C.; Chapman, E.G.; Olsthoorn, Ré.C.; Sterken, M.G.; Pijlman, G.P.; Bredenbeek, P.J.; Kieft, J.S. 2018: Mechanism and structural diversity of exoribonuclease-resistant RNA structures in flaviviral RNAs. Nature Communications 9(1): 119

Lindell, S.D.; Maechling, S.; Klein, R.; Freigang, J.ör.; Laber, B.; Blanazs, L.; Leonhardt, M.; Haupt, S.; Petry, T.; Sabina, R.L. 2021: Mechanism and structure based design of inhibitors of AMP and adenosine deaminase. Bioorganic and Medicinal Chemistry 43: 116272

Pan, X-Hua.; Li, Q-Qing.; Zhu, X-Qing.; Li, Z-An.; Cai, X-Min.; Pang, R-Qing.; Ruan, G-Ping. 2019: Mechanism and therapeutic effect of umbilical cord mesenchymal stem cells in inflammatory bowel disease. Scientific Reports 9(1): 17646

Zeng, Y.; Li, F-di.; Shi, C-Wei.; Du, J-Long.; Xue, Y-Jia.; Liu, X-Yuan.; Cao, X.; Wei, N. 2020: Mechanism and therapeutic prospect of resveratrol combined with TRAIL in the treatment of renal cell carcinoma. Cancer Gene Therapy 27(7-8): 619-623

Ticau, S.; Friedman, L.J.; Champasa, K.; Corrêa, I.R.; Gelles, J.; Bell, S.P. 2017: Mechanism and timing of Mcm2-7 ring closure during DNA replication origin licensing. Nature Structural and Molecular Biology 24(3): 309-315

Tang, X.; Zhang, Y.; Li, W.; Geng, J.; Ren, H.; Xu, K. 2021: Mechanism and toxicity evaluation of catalytic ozonation over Cu/Ce-Al 2 O 3 system aiming at degradation of humic acid in real wastewater. Scientific Reports 11(1): 8748

Lee, Y-Seok.; Ehninger, D.; Zhou, M.; Oh, J-Young.; Kang, M.; Kwak, C.; Ryu, H-Hee.; Butz, D.; Araki, T.; Cai, Y.; Balaji, J.; Sano, Y.; Nam, C.I.; Kim, H.Kyu.; Kaang, B-Kiun.; Burger, C.; Neel, B.G.; Silva, A.J. 2014: Mechanism and treatment for learning and memory deficits in mouse models of Noonan syndrome. Nature Neuroscience 17(12): 1736-1743

Tocantins, L.M. 1948: Mechanism and treatment of bleeding in congestive splenomegaly, Banti's syndrome. America Clinica 13(2): 142-149

Karami, S.; Doroodmand, M.Mahdi.; Taherianfar, M.; Mutabi-Alavi, A.; Nagshgar, N. 2021: Mechanism behind the neuronal ephaptic coupling during synchronizing by specific brain-triggered wave as neuronal motor toolkit. Scientific Reports 11(1): 3683

Godin, G.; Bélanger-Gravel, A.; Nolin, B. 2008: Mechanism by which BMI influences leisure-time physical activity behavior. Obesity 16(6): 1314-1317

Gong, M.; Su, C.; Fan, M.; Wang, P.; Cui, B.; Guo, Z.; Liang, S.; Yang, L.; Liu, X.; Dai, L.; Wang, Z. 2022: Mechanism by which Eucommia ulmoides leaves Regulate Nonalcoholic fatty liver disease based on system pharmacology. Journal of Ethnopharmacology 282:: 114603

Li, X.; Feng, J-Long.; Chen, Z-Long.; Bao, B-Hao.; Dai, H-Heng.; Meng, F-Chao.; Deng, S.; Wang, B.; Li, H-Song.; Wang, J-Sheng. 2022: Mechanism by which Huoxue Tongluo Qiwei Decoction improves the erectile function of rats with diabetic erectile dysfunction. Journal of Ethnopharmacology 283:: 114674

Wang, J.; Wu, X.; Jiang, M.; Tai, G. 2020: Mechanism by which TRAF6 Participates in the Immune Regulation of Autoimmune Diseases and Cancer. Biomed Research International 2020: 4607197

Walters, R.; Welsh, M. 1999: Mechanism by which calcium phosphate coprecipitation enhances adenovirus-mediated gene transfer. Gene Therapy 6(11): 1845-1850

Stumpf, H.F. 1966: Mechanism by which cells estimate their location within the body. Nature 212(5060): 430-431

Sastrasinh, S.; Tannen, R.L. 1981: Mechanism by which enhanced ammonia production reduces urinary potassium excretion. Kidney International 20(3): 326-331

Schneck, D.W.; Vary, J.E. 1984: Mechanism by which hydralazine increases propranolol bioavailability. Clinical Pharmacology and Therapeutics 35(4): 447-453

Yu, W.; Yu, Y.; Wang, C.; Zhang, Z.; Xue, Z. 2021: Mechanism by which salt stress induces physiological responses and regulates tanshinone synthesis. Plant Physiology and Biochemistry: Ppb 164: 10-20

Xu, F.; Hou, T.; Shen, A.; Jin, H.; Xiao, Y.; Yu, W.; Li, X.; Wang, J.; Liu, Y.; Liang, X. 2021: Mechanism deconvolution of Qing Fei Pai Du decoction for treatment of Coronavirus Disease 2019 (COVID-19) by label-free integrative pharmacology assays. Journal of Ethnopharmacology 280:: 114488

Han, L.; Yang, H.-Y.; Zheng, Y.-J.; Wei, X.-X.; Dan, W.-C.; Zhang, L.-L.; Ding, Q.-Y.; Ma, X.; Wang, X.-M.; Zhao, L.-H.; Tong, X.-L. 2021: Mechanism exploration of Gouqi-wentang formula against type 2 diabetes mellitus by phytochemistry and network pharmacology-based analysis and biological validation. Chinese Medicine 16(1): 93

Li, Z.; Cui, L.; Li, B.; Du, X. 2021: Mechanism exploration of the enhancement of thermal energy storage in molten salt nanofluid. Physical Chemistry Chemical Physics: Pccp 23(23): 13181-13189

Huff, J.T.; Zilberman, D.; Roy, S.W. 2016: Mechanism for DNA transposons to generate introns on genomic scales. Nature 538(7626): 533-536

Lee, Y-Tae.; Ayoub, A.; Park, S-Ho.; Sha, L.; Xu, J.; Mao, F.; Zheng, W.; Zhang, Y.; Cho, U-Soo.; Dou, Y. 2021: Mechanism for DPY30 and ASH2L intrinsically disordered regions to modulate the MLL/SET1 activity on chromatin. Nature Communications 12(1): 2953

Hauge, C.; Antal, T.L.; Hirschberg, D.; Doehn, U.; Thorup, K.; Idrissova, L.; Hansen, K.; Jensen, O.N.; Jørgensen, T.J.; Biondi, R.M.; Frödin, M. 2007: Mechanism for activation of the growth factor-activated AGC kinases by turn motif phosphorylation. EMBO Journal 26(9): 2251-2261

Agrochao, M.; Tanaka, R.; Salazar-Gatzimas, E.; Clark, D.A. 2020: Mechanism for analogous illusory motion perception in flies and humans. Proceedings of the National Academy of Sciences of the United States of America 117(37): 23044-23053

Singh, A.; Yadawa, A.K.; Chaturvedi, S.; Wahajuddin, M.; Mishra, A.; Singh, S. 2021: Mechanism for anti Parkinsonian effect of resveratrol: Involvement of transporters, synaptic proteins, dendrite arborization, biochemical alterations, ER stress and apoptosis. Food and Chemical Toxicology: An International Journal Published for the British Industrial Biological Research Association 155: 112433

Chang, H-Kai.; Iwamoto, M.; Oiki, S.; Shieh, R-Chi. 2015: Mechanism for attenuated outward conductance induced by mutations in the cytoplasmic pore of Kir2.1 channels. Scientific Reports 5: 18404

Deng, Y.; Yang, Y.; Gao, C.; Feng, P.; Guo, W.; He, C.; Chen, J.; Shuai, C. 2018: Mechanism for corrosion protection of β-TCP reinforced ZK60 via laser rapid solidification. International Journal of Bioprinting 4(1): 124

Mathews, T.; Quenby, J.; Sear, J. 1971: Mechanism for cosmic ray modulation. Nature 229(5282): 246-247

Xie, H.; Yin, F.; Yu, T.; Wang, J-Tao.; Liang, C. 2014: Mechanism for direct graphite-to-diamond phase transition. Scientific Reports 4: 5930

Nakajima, S.; Nagata, M.; Ikehata, A. 2021: Mechanism for enhancing the growth of mung bean seedlings under simulated microgravity. Npj Microgravity 7(1): 26

Mandal, B.; Vijaya Rao, V.; Karuppannan, P.; Laxminarayana, K. 2021: Mechanism for epeirogenic uplift of the Archean Dharwar craton, southern India as evidenced by orthogonal seismic reflection profiles. Scientific Reports 11(1): 1499

Weixlbaumer, A.; Murphy, F.V.; Dziergowska, A.; Malkiewicz, A.; Vendeix, F.A.P.; Agris, P.F.; Ramakrishnan, V. 2007: Mechanism for expanding the decoding capacity of transfer RNAs by modification of uridines. Nature Structural and Molecular Biology 14(6): 498-502

Young, R.A.; van der Lugt, W.; Elliott, J.C. 1969: Mechanism for fluorine inhibition of diffusion in hydroxyapatite. Nature 223(5207): 729-730

Saze, H.; Kitayama, J.; Takashima, K.; Miura, S.; Harukawa, Y.; Ito, T.; Kakutani, T. 2013: Mechanism for full-length RNA processing of Arabidopsis genes containing intragenic heterochromatin. Nature Communications 4: 2301

Hu, M-Jun.; Shao, X-Xia.; Wang, J-Hui.; Wei, D.; Guo, Y-Qi.; Liu, Y-Li.; Xu, Z-Guang.; Guo, Z-Yun. 2016: Mechanism for insulin-like peptide 5 distinguishing the homologous relaxin family peptide receptor 3 and 4. Scientific Reports 6: 29648

Jiang, H.; Zhang, C-Han.; Zhou, Y-De.; Pan, J-Wen.; Wang, J-Ting.; Wu, M-Xin.; Fan, Q-Xiang. 2020: Mechanism for large-scale canyon deformations due to filling of large reservoir of hydropower project. Scientific Reports 10(1): 12155

Vincent, H.K.; Powers, S.K.; Dirks, A.J.; Scarpace, P.J. 2001: Mechanism for obesity-induced increase in myocardial lipid peroxidation. International Journal of Obesity and Related Metabolic Disorders: Journal of the International Association for the Study of Obesity 25(3): 378-388

Mahjour, F.; Dambal, V.; Shrestha, N.; Singh, V.; Noonan, V.; Kantarci, A.; Trackman, P.C. 2019: Mechanism for oral tumor cell lysyl oxidase like-2 in cancer development: synergy with PDGF-AB. Oncogenesis 8(5): 34

Goldbeter, A. 1975: Mechanism for oscillatory synthesis of cyclic AMP in Dictyostelium discoideum. Nature 253(5492): 540-542

Nayak, P.K.; Moore, D.T.; Wenger, B.; Nayak, S.; Haghighirad, A.A.; Fineberg, A.; Noel, N.K.; Reid, O.G.; Rumbles, G.; Kukura, P.; Vincent, K.A.; Snaith, H.J. 2016: Mechanism for rapid growth of organic-inorganic halide perovskite crystals. Nature Communications 7: 13303

Yip, M.C.J.; Keszei, A.F.A.; Feng, Q.; Chu, V.; McKenna, M.J.; Shao, S. 2019: Mechanism for recycling tRNAs on stalled ribosomes. Nature Structural and Molecular Biology 26(5): 343-349

Alfieri, C.; Chang, L.; Barford, D. 2018: Mechanism for remodelling of the cell cycle checkpoint protein MAD2 by the ATPase TRIP13. Nature 559(7713): 274-278

Okitsu, K.; Kurisaka, I.; Nanzai, B.; Takenaka, N.; Bandow, H. 2020: Mechanism for sonochemical reduction of Au(III) in aqueous butanol solution under Ar based on the analysis of gaseous and water-soluble products. Ultrasonics Sonochemistry 69: 105241

Malkov, M.A.; Diamond, P.H.; Sagdeev, R.Z. 2011: Mechanism for spectral break in cosmic ray proton spectrum of supernova remnant W44. Nature Communications 2: 194

Cook, H.W.; Lands, W.E. 1976: Mechanism for suppression of cellular biosynthesis of prostaglandins. Nature 260(5552): 630-632

Majumdar, A.; Tse, J.S.; Yao, Y. 2019: Mechanism for the Structural Transformation to the Modulated Superconducting Phase of Compressed Hydrogen Sulfide. Scientific Reports 9(1): 5023

Daniel, A.; Lam-Po-Tang, P.R. 1973: Mechanism for the chromosome banding phenomenon. Nature 244(5415): 358-359

Toh, Y.; Takeshita, D.; Numata, T.; Fukai, S.; Nureki, O.; Tomita, K. 2009: Mechanism for the definition of elongation and termination by the class II CCA-adding enzyme. EMBO Journal 28(21): 3353-3365

Kokoouline, V.; Greene, C.H.; Esry, B.D. 2001: Mechanism for the destruction of H+3 ions by electron impact. Nature 412(6850): 891-894

Greenhill, C. 2020: Mechanism for the effects of FGF21. Nature Reviews. Endocrinology 16(9): 472

Samachson, J. 1967: Mechanism for the exchange of the calcium in bone mineral. Nature 216(5111): 193-194

Ferguson, E.E.; Libby, W.F. 1971: Mechanism for the fixation of nitrogen by lightning. Nature 229(5279): 37

Hauduroy, P. 1954: Mechanism for the formation of filterable and invisible forms. Annales de l'Institut Pasteur 86(4): 395-400

Macagno, E.R. 1978: Mechanism for the formation of synaptic projections in the arthropod visual system. Nature 275(5678): 318-320

Morrison, W.C.; Whybrew, W.D.; Sobhy, C.M.; Morrison, J.C.; Trass, T.C.; Bucovaz, E.T. 1977: Mechanism for the incorporation of S-(1,2,3,4-tetrahydro-2-hydroxy-1-naphthyl)-L-cysteine into protein. British Journal of Cancer 35(2): 218-225

Costa, R.M.; Federov, N.B.; Kogan, J.H.; Murphy, G.G.; Stern, J.; Ohno, M.; Kucherlapati, R.; Jacks, T.; Silva, A.J. 2002: Mechanism for the learning deficits in a mouse model of neurofibromatosis type 1. Nature 415(6871): 526-530

Feng, M.; Liao, Y.; Gao, Y.; Jiang, G.; Wang, L.; Zhang, Y.; Fan, S.; Xu, X.; Li, Q. 2020: Mechanism for the lethal effect of enterovirus A71 intracerebral injection in neonatal mice. Laboratory Investigation; a Journal of Technical Methods and Pathology 100(4): 596-605

Yang, C.; Li, P.; Ding, X.; Sui, H.Chen.; Rao, S.; Hsu, C-Hsiang.; Leung, W-Por.; Cheng, G-Juan.; Wang, P.; Zhu, B.Ting. 2020: Mechanism for the reactivation of the peroxidase activity of human cyclooxygenases: investigation using phenol as a reducing cosubstrate. Scientific Reports 10(1): 15187

Wysokiński, M.M. 2019: Mechanism for transitions between ferromagnetic and antiferromagnetic orders in d-electron metallic magnets. Scientific Reports 9(1): 19461

Gordon, R.J. 1970: Mechanism for turbulent drag reduction in dilute polymer solutions. Nature 227(5258): 599-600

Zhang, Y.; Yang, C.; Zheng, Z.; Cao, B.; You, F.; Liu, Y.; Jiang, Z. 2021: Mechanism for various phytotoxicity of atrazine in soils to soybean: Insights from soil sorption abilities and dissolved organic matter properties. Journal of Environmental Management 297: 113220

Tokonami, S.; Shimizu, E.; Tamura, M.; Iida, T. 2017: Mechanism in External Field-mediated Trapping of Bacteria Sensitive to Nanoscale Surface Chemical Structure. Scientific Reports 7(1): 16651

Huang, X.; Zhu, N.; Wei, X.; Ding, Y.; Ke, Y.; Wu, P.; Liu, Z. 2020: Mechanism insight into efficient peroxydisulfate activation by novel nano zero-valent iron anchored yCo3O4 (nZVI/yCo3O4) composites. Journal of Hazardous Materials 400: 123157

Zhang, S.; Liu, C.; Yang, D.; Ruan, J.; Luo, Z.; Quan, P.; Fang, L. 2021: Mechanism insight on drug skin delivery from polyurethane hydrogels: Roles of molecular mobility and intermolecular interaction. European Journal of Pharmaceutical Sciences: Official Journal of the European Federation for Pharmaceutical Sciences 161: 105783

Zhang, C.; Shao, M.; Wu, H.; Wang, N.; Wang, X.; Wang, Q.; Xu, Q. 2022: Mechanism insights into hydrothermal dewatering of food waste digestate for products valorization. Science of the Total Environment 804: 150145

Wu, B.; Zhou, M.; Song, L.; Xu, Q.; Dai, X.; Chai, X. 2021: Mechanism insights into polyhydroxyalkanoate-regulated denitrification from the perspective of pericytoplasmic nitrate reductase expression. Science of the Total Environment 754: 142083

Sahu, U.; Biswas, D.; Singh, A.K.; Khare, P. 2021: Mechanism involved in the pathogenesis and immune response against SARS-CoV-2 infection. Virusdisease 32(2): 211-219

Tsou, M-Fu.Bryan.; Stearns, T. 2006: Mechanism limiting centrosome duplication to once per cell cycle. Nature 442(7105): 947-951

Jing, X.U.; Feng-Qin, S.; Ke-Xin, D.U.; Jia, D.; Dong-Yun, L.I. 2020: Mechanism of "Scutellaria barbata-Hedyotis diffusa" against breast cancer based on network pharmacology. Zhongguo Zhong Yao Za Zhi 45(18): 4448-4454

Ishii-Morita, H.; Agbaria, R.; Mullen, C.A.; Hirano, H.; Koeplin, D.A.; Ram, Z.; Oldfield, E.H.; Johns, D.G.; Blaese, R.M. 1997: Mechanism of 'bystander effect' killing in the herpes simplex thymidine kinase gene therapy model of cancer treatment. Gene Therapy 4(3): 244-251

Amaro, R.E.; Swift, R.V.; Votapka, L.; Li, W.W.; Walker, R.C.; Bush, R.M. 2011: Mechanism of 150-cavity formation in influenza neuraminidase. Nature Communications 2: 388

Sheng, X.; Himo, F. 2020: Mechanism of 3-Methylglutaconyl CoA Decarboxylase AibA/AibB: Pericyclic Reaction versus Direct Decarboxylation. Angewandte Chemie 59(51): 22973-22977

Bulat, M.; Supek, Z. 1968: Mechanism of 5-hydroxytryptamine penetration through the cerebrospinal fluid-brain barrier. Nature 219(5149): 72-73

Botuyan, M.Victoria.; Cui, G.; Drané, P.; Oliveira, C.; Detappe, A.; Brault, M.Eve.; Parnandi, N.; Chaubey, S.; Thompson, J.R.; Bragantini, Bît.; Zhao, D.; Chapman, J.Ross.; Chowdhury, D.; Mer, G. 2018: Mechanism of 53BP1 activity regulation by RNA-binding TIRR and a designer protein. Nature Structural and Molecular Biology 25(7): 591-600

Hasegawa, M.; Kawase, K.; Inohara, N.; Imamura, R.; Yeh, W-C.; Kinoshita, T.; Suda, T. 2007: Mechanism of ASC-mediated apoptosis: bid-dependent apoptosis in type II cells. Oncogene 26(12): 1748-1756

Sun, Y.; Leng, P.; Li, D.; Gao, H.; Li, Z.; Li, C.; Zhang, H. 2020: Mechanism of Abnormal Chondrocyte Proliferation Induced by Piezo1-siRNA Exposed to Mechanical Stretch. Biomed Research International 2020: 8538463

Huang, X-Shuang.; Geng, K.; Luo, S-Yu.; Liu, C-Bin.; Yang, K-Ning.; Zhai, A.; Yang, Y-Hui. 2020: Mechanism of Action of Acupotomy in Inhibiting Chondrocyte Apoptosis in Rabbits with KOA through the PI3K/Akt Signaling Pathway. Evidence-BasedComplementaryandAlternativeMedicine:Ecam 2020: 4241917

Wang, L.; Yu, C.-C.; Li, J.; Tian, Q.; Du, Y.-J. 2021: Mechanism of Action of Acupuncture in Obesity: a Perspective from the Hypothalamus. Frontiers in Endocrinology 12: 632324

Wu, L.; Chen, Y.; Yi, J.; Zhuang, Y.; Cui, L.; Ye, C. 2020: Mechanism of Action of Bu-Fei-Yi-Shen Formula in Treating Chronic Obstructive Pulmonary Disease Based on Network Pharmacology Analysis and Molecular Docking Validation. Biomed Research International 2020: 9105972

Yu, S.; Guo, Q.; Jia, T.; Zhang, X.; Guo, D.; Jia, Y.; Li, J.; Sun, J. 2021: Mechanism of Action of Nicotiflorin from Tricyrtis maculata in the Treatment of Acute Myocardial Infarction: from Network Pharmacology to Experimental Pharmacology. Drug Design Development and Therapy 15: 2179-2191

Burstein, R.; Blumenfeld, A.M.; Silberstein, S.D.; Manack Adams, A.; Brin, M.F. 2020: Mechanism of Action of OnabotulinumtoxinA in Chronic Migraine: a Narrative Review. Headache 60(7): 1259-1272

Strand, N.H.; D'Souza, R.; Wie, C.; Covington, S.; Maita, M.; Freeman, J.; Maloney, J. 2021: Mechanism of Action of Peripheral Nerve Stimulation. Current Pain and Headache Reports 25(7): 47

Ye, H.; Wei, X.; Meng, C.; Wei, Y.; Liang, G.; Huang, Z.; Guo, L.; Su, W. 2020: Mechanism of Action of Periplogenin on Nasopharyngeal Carcinoma Based on Network Pharmacology and Experimental Study of Vitamin e Coupled with Periplogenin Self-Assembled Nano-Prodrug for Nasopharyngeal Carcinoma. Journal of Biomedical Nanotechnology 16(9): 1406-1415

Davidi, S.; Shteingauz, A.; Jacobovitch, S.; Gotlib, K.; Brami, C.Tempel.; Munster, M.; Zeevi, E.; Dor-On, E.; Schneiderman, R.S.; Voloshin, T.; Haber, A.; Giladi, M.; Kinzel, A.; Weinberg, U.; Palti, Y. 2021: Mechanism of Action of Tumor Treating Fields (TTFields) in Combination with Sorafenib for Treatment of Hepatocellular Carcinoma. International Journal of Radiation Oncology Biology Physics 111(3s): E47-E48

Kranich, J.W.; Nocker, P.A. 1947: Mechanism of Action of Vermin T 14. DeutscheTierarztlicheWochenschrift 54(25-26): 185

Klaerner, G.; Shao, J.; Biyani, K.; Kade, M.; Kierstead, P.; Gbur, R.; Tabakman, S.; Nguyen, S.; Buysse, J. 2020: Mechanism of Action of Veverimer: a Novel, Orally Administered, Nonabsorbed, Counterion-Free, Hydrochloric Acid Binder under Development for the Treatment of Metabolic Acidosis in Chronic Kidney Disease. Journal of Pharmacology and Experimental Therapeutics 375(3): 439-450

Xu, Y.; Chen, W.; Chen, Z.; Huang, M.; Yang, F.; Zhang, Y. 2021: Mechanism of Action of Xiaoyao San in Treatment of Ischemic Stroke is Related to Anti-Apoptosis and Activation of PI3K/Akt Pathway. Drug Design Development and Therapy 15: 753-767

Khoshnood, S.; Taki, E.; Sadeghifard, N.; Kaviar, V.H.; Haddadi, M.H.; Farshadzadeh, Z.; Kouhsari, E.; Goudarzi, M.; Heidary, M. 2021: Mechanism of Action, Resistance, Synergism, and Clinical Implications of Delamanid Against Multidrug-Resistant Mycobacterium tuberculosis. Frontiers in Microbiology 12: 717045

Kitada, M.; Xu, J.; Ogura, Y.; Monno, I.; Koya, D. 2020: Mechanism of Activation of Mechanistic Target of Rapamycin Complex 1 by Methionine. Frontiers in Cell and Developmental Biology 8: 715

Joseph, E.; Rajput, S.S.; Patil, S.; Nisal, A. 2021: Mechanism of Adhesion of Natural Polymer Coatings to Chemically Modified Siloxane Polymer. Langmuir: the Acs Journal of Surfaces and Colloids 37(9): 2974-2984

Yan, M.-M.; Zhang, H.-H.; Huang, T.-L.; Zong, R.-R.; Liu, K.-W.; Miao, Y.-T.; Yang, S.-Y.; Huang, X.; Wang, N. 2021: Mechanism of Algal Community Dynamics Driven by the Seasonal Water Bacterial Community in a Stratified Drinking Water Reservoir. Huan Jing Ke Xue= Huanjing Kexue 42(1): 221-233

Jiang-Dong, D.; Chuan-Yan, L.; Bing, Y.; Yue, W.; Li, C.; Liang, F.; Xiao-Bin, J. 2020: Mechanism of Alisma orientale in treating nonalcoholic fatty liver disease. Zhongguo Zhong Yao Za Zhi 45(17): 4140-4148

Iqbal, K.; Grundke-Iqbal, I. 1997: Mechanism of Alzheimer neurofibrillary degeneration and the formation of tangles. Molecular Psychiatry 2(3): 178-180

Jia, Z.-X.; Lu, X.-Z.; He, J.-Y.; Cai, X.-H.; Qin, W.; Han, W.-M.; Zhou, M.; Xu, W. 2020: Mechanism of Anti Apoptosis and Immune Evasion in Drug-Resistant Leukemia Cells Mediated by STAT3. Zhongguo Shi Yan Xue Ye Xue Za Zhi 28(6): 1796-1803

Awasthi, S.; Kumar, G.; Ramani, V.; Awasthi, V.; Rodgers, K.K.; Xie, J.; Beierle, J.; Kyere-Davies, G.; Singh, B.; Rahman, N.; Chowdhury, A.A.; Chataut, N. 2021: Mechanism of Anti-Inflammatory Activity of TLR4-Interacting SPA4 Peptide. Immunohorizons 5(8): 659-674

Zhang, Q.; Li, X.; Li, J.; Hu, Y.; Liu, J.; Wang, F.; Zhang, W.; Chang, F. 2021: Mechanism of Anti-Inflammatory and Antibacterial Effects of QingXiaoWuWei Decoction Based on Network Pharmacology, Molecular Docking and in Vitro Experiments. Frontiers in Pharmacology 12: 678685

Ibsen, K.N.; Ma, H.; Banerjee, A.; Tanner, E.E.L.; Nangia, S.; Mitragotri, S. 2018: Mechanism of Antibacterial Activity of Choline-Based Ionic Liquids (CAGE). Acs Biomaterials Science and Engineering 4(7): 2370-2379

Rybkin, V.V. 2020: Mechanism of Aqueous Carbon Dioxide Reduction by the Solvated Electron. Journal of Physical Chemistry. B 124(46): 10435-10441

Khan, Z.H.; Gao, M.; Wu, J.; Bi, R.; Mehmood, C.T.; Song, Z. 2021: Mechanism of As(III) removal properties of biochar-supported molybdenum-disulfide/iron-oxide system. Environmental Pollution 287: 117600

Fu, J.-Y.; Zhang, Y. 2021: Mechanism of Astragali Radix-Coptis Rhizoma pair in treating type 2 diabetes mellitus based on network pharmacology. Zhongguo Zhong Yao Za Zhi 46(18): 4808-4815

Dong, K.Feng.; Huo, M.Qi.; Sun, H.Ya.; Li, T.Ke.; Li, D. 2020: Mechanism of Astragalus membranaceus in the treatment of laryngeal cancer based on gene co-expression network and molecular docking. Scientific Reports 10(1): 11184

Wang, L.-F.; Liu, X.-L.; Li, H.-T.; Chen, Q.-Y.; Wang, Y.; Zou, B.; Yang, M.; Zhang, X.-F.; Wang, F. 2020: Mechanism of Aurantii Fructus Immaturus volatile oil in treatment of slow transit constipation based on network pharmacology. Zhongguo Zhong Yao Za Zhi 45(8): 1909-1917

Zhang, Z.-N.; Hui, Z.; Chen, C.; Liang, Y.; Tang, L.-L.; Wang, S.-L.; Xu, C.-C.; Yang, H.; Zhao, Y.; Zhang, J.-S. 2021: Mechanism of Autophagy Regulation in MPTP-Induced PD Mice via the mTOR Signaling Pathway by Echinacoside. Neuropsychiatric Disease and Treatment 17: 1397-1411

Jin, Y.; Yin, X.; Li, Z.; Xu, J. 2021: Mechanism of Baihe Decoction in the treatment of coronary heart disease based on network pharmacology and molecular docking. Annals of Palliative Medicine 10(3): 3205-3218

Smuda, M.; Damm, C.; Ruck, M.; Doert, T. 2020: Mechanism of Bi-Ni Phase Formation in a Microwave-Assisted Polyol Process. Chemistryopen 9(11): 1084

Smuda, M.; Damm, C.; Ruck, M.; Doert, T. 2020: Mechanism of Bi-Ni Phase Formation in a Microwave-Assisted Polyol Process. Chemistryopen 9(11): 1085-1094

Bradbury, A.F.; Finnie, M.D.; Smyth, D.G. 1982: Mechanism of C-terminal amide formation by pituitary enzymes. Nature 298(5875): 686-688

Xu, R.; Lin, F.; Bao, C.; Wang, F-Sheng. 2017: Mechanism of C5a-induced immunologic derangement in sepsis. Cellular and Molecular Immunology 14(9): 792-793

Brigl, M.; Bry, L.; Kent, S.C.; Gumperz, J.E.; Brenner, M.B. 2003: Mechanism of CD1d-restricted natural killer T cell activation during microbial infection. Nature Immunology 4(12): 1230-1237

Jeffrey, P.D.; Russo, A.A.; Polyak, K.; Gibbs, E.; Hurwitz, J.; Massagué, J.; Pavletich, N.P. 1995: Mechanism of CDK activation revealed by the structure of a cyclinA-CDK2 complex. Nature 376(6538): 313-320

Sheykhzade, M.; Berg Nyborg, N.C. 2001: Mechanism of CGRP-induced relaxation in rat intramural coronary arteries. British Journal of Pharmacology 132(6): 1235-1246

Higham, M.D.; Quesne, M.G.; Catlow, C.R.A. 2020: Mechanism of CO2 conversion to methanol over Cu(110) and Cu(100) surfaces. Dalton Transactions 49(25): 8478-8497

Perilli, D.; Fiori, S.; Panighel, M.; Liu, H.; Cepek, C.; Peressi, M.; Comelli, G.; Africh, C.; Di Valentin, C. 2020: Mechanism of CO Intercalation through the Graphene/Ni(111) Interface and Effect of Doping. Journal of Physical Chemistry Letters 11(20): 8887-8892

Kristensen, A.S.; Jenkins, M.A.; Banke, T.G.; Schousboe, A.; Makino, Y.; Johnson, R.C.; Huganir, R.; Traynelis, S.F. 2011: Mechanism of Ca2+/calmodulin-dependent kinase II regulation of AMPA receptor gating. Nature Neuroscience 14(6): 727-735

Bossard, C.éd.; Granel, H.; Jallot, Éd.; Montouillout, V.ér.; Fayon, F.; Soulié, J.ér.ém.; Drouet, C.; Wittrant, Y.; Lao, J. 2019: Mechanism of Calcium Incorporation Inside Sol-Gel Silicate Bioactive Glass and the Advantage of Using Ca(OH)2 over other Calcium Sources. Acs Biomaterials Science and Engineering 5(11): 5906-5915

Scheffer, L.L.; Sreetama, S.Chandra.; Sharma, N.; Medikayala, S.; Brown, K.J.; Defour, A.; Jaiswal, J.K. 2014: Mechanism of Ca²⁺-triggered ESCRT assembly and regulation of cell membrane repair. Nature Communications 5: 5646

Guo, T.; Bulin, C.; Ma, Z.; Li, B.; Zhang, Y.; Zhang, B.; Xing, R.; Ge, X. 2021: Mechanism of Cd(II) and Cu(II) Adsorption onto Few-Layered Magnetic Graphene Oxide as an Efficient Adsorbent. Acs Omega 6(25): 16535-16545

Zhu, X.; Yue, L.; Fan, C.; Liu, Y.; Wang, Y.; Zhao, H. 2021: Mechanism of Cdk5-synaptophysin-SNARE pathway in acute and chronic inflammatory pain. American Journal of Translational Research 13(3): 1075-1084

Du, D.-D.; Zhang, M.-Y.; Liu, Y.; Jiao, Y.; Zhao, X.-L.; Li, T.; Wang, Z.-G.; Miao, Y.-C.; Sun, J.; Weng, X.-G.; Wu, X.-X.; Li, Y.-J. 2021: Mechanism of Chuanxiong Rhizoma intervention on central sensitization of Panx1-Src-NMDAR-2B signaling pathway in neuropathic pain model rats. Zhongguo Zhong Yao Za Zhi 46(16): 4175-4186

Zhou, H.-Y.; Sun, R.-L.; Ji, Q.-H.; Tang, D.-C.; Gu, J.-F. 2021: Mechanism of Chuanxiong Rhizoma-Paeoniae Radix Rubra drug pair on intervention of cerebral ischemia based on network pharmacology-molecular docking. Zhongguo Zhong Yao Za Zhi 46(12): 3007-3015

Gray, M.; Hines, M.T.; Parsutkar, M.M.; Wahlstrom, A.J.; Brunelli, N.A.; RajanBabu, T.V. 2020: Mechanism of Cobalt-Catalyzed Heterodimerization of Acrylates and 1,3-Dienes. a Potential Role of Cationic Cobalt(I) Intermediates. Acs Catalysis 10(7): 4337-4348

Lin, C.-Y.; Boxer, S.G. 2020: Mechanism of Color and Photoacidity Tuning for the Protonated Green Fluorescent Protein Chromophore. Journal of the American Chemical Society 142(25): 11032-11041

Jinno, S.; Kitora, S.; Toki, H.; Abe, M. 2019: Mechanism of Common-mode Noise Generation in Multi-conductor Transmission Lines. Scientific Reports 9(1): 15036

Zhang, T.; Razavi, M.Jalil.; Li, X.; Chen, H.; Liu, T.; Wang, X. 2016: Mechanism of Consistent Gyrus Formation: an Experimental and Computational Study. Scientific Reports 6: 37272

Qian, Y.; Sun, X.; Wang, X.; Yang, X.; Fan, M.; Zhong, J.; Pei, Z.; Guo, J. 2021: Mechanism of Cordyceps Cicadae in Treating Diabetic Nephropathy Based on Network Pharmacology and Molecular Docking Analysis. Journal of Diabetes Research 2021: 5477941

Tang, W.; Li, Y.; Song, Q.; Wang, Z.; Li, M.; Zhang, Q.; Wang, Y.; Ye, W.; Li, Y. 2021: Mechanism of Cross-Resistance to Fusion Inhibitors Conferred by the K394R Mutation in Respiratory Syncytial Virus Fusion Protein. Journal of Virology 95(20): E0120521

Liang, P.; Jiang, J.-Y.; Liu, Q.; Zhang, S.-L.; Yang, H.-J. 2020: Mechanism of Cross-modal Information Influencing Taste. Current Medical Science 40(3): 474-479

Abriata, L.A.; Banci, L.; Bertini, I.; Ciofi-Baffoni, S.; Gkazonis, P.; Spyroulias, G.A.; Vila, A.J.; Wang, S. 2008: Mechanism of Cu(A) assembly. Nature Chemical Biology 4(10): 599-601

Tao, D.; Wang, Y.; Liu, J.; Chen, R.; Qi, M.; Xu, S. 2021: Mechanism of CuSO4 cytotoxicity in goat erythrocytes after high-level in vitro exposure to isotonic media. Ecotoxicology and Environmental Safety 208: 111730

Zhou, D.; Wang, J.; Yang, K.; Zhang, L.; Zheng, Q.; Bai, J.; Hu, Y.; Mu, Q.; Yin, C.; Li, H. 2020: Mechanism of DERL3 Affecting the Proliferation, Invasion and Metastasis of Lung Adenocarcinoma A549 Cells. Zhongguo Fei Ai Za Zhi 23(8): 638-645

Tarasova, E.; Dhindwal, S.; Popp, M.; Hussain, S.; Khayat, R. 2021: Mechanism of DNA Interaction and Translocation by the Replicase of a Circular Rep-Encoding Single-Stranded DNA Virus. Mbio 12(4): E0076321

Werner, R. 1971: Mechanism of DNA replication. Nature 230(5296): 570-572

Rashbaum, S.A.; Cozzarelli, N.R. 1976: Mechanism of DNA synthesis inhibition by arabinosyl cytosine and arabinosyl adenine. Nature 264(5587): 679-680

Enemark, E.J.; Joshua-Tor, L. 2006: Mechanism of DNA translocation in a replicative hexameric helicase. Nature 442(7100): 270-275

Li, M.; Xia, X.; Tian, Y.; Jia, Q.; Liu, X.; Lu, Y.; Li, M.; Li, X.; Chen, Z. 2019: Mechanism of DNA translocation underlying chromatin remodelling by Snf2. Nature 567(7748): 409-413

Que, D.-H.; Chen, W.-H.; Jiang, F.-P.; Pan, F.; Yang, K. 2021: Mechanism of Danggui Sini Decoction in treatment of primary dysmenorrhea based on network pharmacology and molecular docking. Zhongguo Zhong Yao Za Zhi 46(4): 855-864

Ruan, X.; Du, P.; Zhao, K.; Huang, J.; Xia, H.; Dai, D.; Huang, S.; Cui, X.; Liu, L.; Zhang, J. 2020: Mechanism of Dayuanyin in the treatment of coronavirus disease 2019 based on network pharmacology and molecular docking. Chinese Medicine 15: 62

Faehnle, C.R.; Walleshauser, J.; Joshua-Tor, L. 2014: Mechanism of Dis3l2 substrate recognition in the Lin28-let-7 pathway. Nature 514(7521): 252-256

Ritter, J.K.; Ahmad, A.; Mummalaneni, S.; Daneva, Z.; Dempsey, S.K.; Li, N.; Li, P.-L.; Lyall, V. 2021: Mechanism of Diuresis and Natriuresis by Cannabinoids: Evidence for Inhibition of Na+-K+-ATPase in Mouse Kidney Thick Ascending Limb Tubules. Journal of Pharmacology and Experimental Therapeutics 376(1): 1-11

Ji, Q.; Li, X. 2021: Mechanism of Dopaminergic Nerve Transmission in Different Doses of Morphine Addiction and Stress-Induced Depression. Journal of Healthcare Engineering 2021: 9987441

Mondal, A.; Bhattacherjee, A. 2020: Mechanism of Dynamic Binding of Replication Protein a to ssDNA. Journal of Chemical Information and Modeling 60(10): 5057-5069

Hayashi, T.; Fujiwara, Y.; Ariji, Y.; Sakai, H.; Kubota, K.; Kawano, O.; Masuda, M.; Morishita, Y.; Maeda, T. 2020: Mechanism of Dysphagia after Acute Traumatic Cervical Spinal Cord Injury. Journal of Neurotrauma 37(21): 2315-2319

Wu, W.Jin.; Hirsch, D.S. 2009: Mechanism of E-cadherin lysosomal degradation. Nature Reviews. Cancer 9(2): 143; Author Reply 143

Estifaee, P.; Su, X.; Yannam, S.K.; Rogers, S.; Thagard, S.Mededovic. 2019: Mechanism of E. coli Inactivation by Direct-in-liquid Electrical Discharge Plasma in Low Conductivity Solutions. Scientific Reports 9(1): 2326

West, S.C.; Cassuto, E.; Howard-Flanders, P. 1981: Mechanism of E. coli RecA protein directed strand exchanges in post-replication repair of DNA. Nature 294(5842): 659-662

Heinroth-Hoffmann, I.; Vogelsang, M.; Schiewe, P.; Morawietz, H.; Holtz, J.; Pönicke, K.; Brodde, O.E. 1998: Mechanism of ET(A)-receptor stimulation-induced increases in intracellular Ca2+ in SK-N-MC cells. British Journal of Pharmacology 125(6): 1202-1211

Murayama, M.; Iwano, H.; Sarashina, M.; Anzai, T. 2020: Mechanism of Early-Diastolic Mitral Regurgitation. Circulation Journal: Official Journal of the Japanese Circulation Society 84(11): 2036

Song, S.; Li, R.; Cao, B.; Zhang, J.; Kim, Y.; Kim, B.; Yu, X. 2021: Mechanism of Electroacupuncture Regulating IRS-1 Phosphorylation in Skeletal Muscle to Improve Insulin Sensitivity. Evidence-BasedComplementaryandAlternativeMedicine:Ecam 2021: 8631475

Markevich, A.; Hudak, B.M.; Madsen, J.; Song, J.; Snijders, P.C.; Lupini, A.R.; Susi, T. 2021: Mechanism of Electron-Beam Manipulation of Single-Dopant Atoms in Silicon. Journal of Physical Chemistry. C Nanomaterials and Interfaces 125(29): 16041-16048

Han, Y.; Yuan, M.; Guo, Y.-S.; Shen, X.-Y.; Gao, Z.-K.; Bi, X. 2021: Mechanism of Endoplasmic Reticulum Stress in Cerebral Ischemia. Frontiers in Cellular Neuroscience 15: 704334

Wen, Z.; Shang, Y.; Xu, G.; Pu, Z.; Lin, Z.; Bai, B.; Chen, Z.; Zheng, J.; Deng, Q.; Yu, Z. 2020: Mechanism of Eravacycline Resistance in Clinical Enterococcus faecalis Isolates from China. Frontiers in Microbiology 11: 916

Zhang, T.; Jiang, M.; Yin, X.; Yao, P.; Sun, H. 2021: Mechanism of Exosomes Involved in Osteoimmunity Promoting Osseointegration Around Titanium Implants with Small-Scale Topography. Frontiers in Bioengineering and Biotechnology 9: 682384

Sarabipour, S.; Hristova, K. 2016: Mechanism of FGF receptor dimerization and activation. Nature Communications 7: 10262

Chen, X-Li.; Tang, C.; Xiao, Q-Ling.; Pang, Z-Hua.; Zhou, D-Dan.; Xu, J.; Wang, Q.; Zhao, Y-Xi.; Zhu, Q-Yong. 2021: Mechanism of Fei-Xian Formula in the Treatment of Pulmonary Fibrosis on the Basis of Network Pharmacology Analysis Combined with Molecular Docking Validation. Evidence-BasedComplementaryandAlternativeMedicine:Ecam 2021: 6658395

Wu, J.; Ma, L.; Wang, J.; Qiao, Y. 2020: Mechanism of Ferroptosis and its Research Progress in Lung Cancer. Zhongguo Fei Ai Za Zhi 23(9): 811-817

Sha, W.; Hu, F.; Xi, Y.; Chu, Y.; Bu, S. 2021: Mechanism of Ferroptosis and its Role in Type 2 Diabetes Mellitus. Journal of Diabetes Research 2021: 9999612

Ju, J.; Song, Y.-N.; Wang, K. 2021: Mechanism of Ferroptosis: a Potential Target for Cardiovascular Diseases Treatment. Aging and Disease 12(1): 261-276

Ya-Li, T.; Jia, X.U.; Dong, J.; Zhi-Qiang, H.U.; Lei, L.; Li-Mei, L. 2020: Mechanism of Fuke Qianjin Capsules in treating intrauterine adhesion in rats through TGF-β1-PI3K/Akt signaling pathway. Zhongguo Zhong Yao Za Zhi 45(19): 4705-4711

Demidenko, Z.N.; Kalurupalle, S.; Hanko, C.; Lim, C-u.; Broude, E.; Blagosklonny, M.V. 2008: Mechanism of G1-like arrest by low concentrations of paclitaxel: next cell cycle p53-dependent arrest with sub G1 DNA content mediated by prolonged mitosis. Oncogene 27(32): 4402-4410

Gu, Z.; Sun, Y.; Wu, F.; Wu, X. 2021: Mechanism of Growth Regulation of Yeast Involving Hydrogen Sulfide from S-Propargyl-Cysteine Catalyzed by Cystathionine-γ-Lyase. Frontiers in Microbiology 12: 679563

Kim, C-Lae.; Lee, J-Young.; Shin, D-Gap.; Yeo, J-Souk.; Kim, D-Eun. 2020: Mechanism of Heat-Induced Fusion of Silver Nanowires. Scientific Reports 10(1): 9271

Dou, H.-Y.; Du, Y.-G.; Han, Y.-H.; Wang, Y.-Y.; Wang, X.-L.; Wang, T. 2020: Mechanism of Hematopoietic Reconstruction in Mice Treated with Danggui Buxue Decoction combined with Muscle-Derived Stem Cell Transplantation. Zhongguo Shi Yan Xue Ye Xue Za Zhi 28(4): 1177-1182

Zhang, S.; Sun, M.; Hedtke, T.; Deshmukh, A.; Zhou, X.; Weon, S.; Elimelech, M.; Kim, J.-H. 2020: Mechanism of Heterogeneous Fenton Reaction Kinetics Enhancement under Nanoscale Spatial Confinement. Environmental Science and Technology 54(17): 10868-10875

Xie, T.; Li, Y.; Xing, P. 2020: Mechanism of Histologic Transformation of Drive Gene Positive Lung Adenocarcinoma in Targeted Therapy and Treatment Strategy. Zhongguo Fei Ai Za Zhi 23(8): 701-709

Dong, W.-R.; Li, H.; Li, Y.-F.; Wang, N.; Ma, B.-Y.; Lu, G.-L.; Xin, X.-R.; Chen, B.-B. 2021: Mechanism of Huanglian Wendan Decoction in improving impaired glucose tolerance based on skeletal muscle NLRP3/caspase-1/IL-1β, IL-18 pathway. Zhongguo Zhong Yao Za Zhi 46(17): 4480-4487

Li, H.; Wang, N.; Ma, B.-Y. 2021: Mechanism of Huanglian Wendan Decoction in intervening IGT IR based on liver cell pyroptosis. Zhongguo Zhong Yao Za Zhi 46(13): 3394-3401

Kumar, D.; Moore, R.M.; Mercer, B.M.; Mansour, J.M.; Moore, J.J. 2020: Mechanism of Human Fetal Membrane Biomechanical Weakening, Rupture and Potential Targets for Therapeutic Intervention. Obstetrics and Gynecology Clinics of North America 47(4): 523-544

Flick, M.J. 2021: Mechanism of ICH with tPA thrombolysis. Blood 138(1): 8-9

Gerber, S.A.; Moran, J.P.; Frelinger, J.G.; Frelinger, J.A.; Fenton, B.M.; Lord, E.M. 2003: Mechanism of IL-12 mediated alterations in tumour blood vessel morphology: analysis using whole-tissue mounts. British Journal of Cancer 88(9): 1453-1461

Liu, Y.; Wu, F.; Wu, Y.; Elliott, M.; Zhou, W.; Deng, Y.; Ren, D.; Zhao, H. 2021: Mechanism of IL-6-related spontaneous atrial fibrillation after coronary artery grafting surgery: IL-6 knockout mouse study and human observation. Translational Research: the Journal of Laboratory and Clinical Medicine 233: 16-31

Kast, D.J.; Yang, C.; Disanza, A.; Boczkowska, M.; Madasu, Y.; Scita, G.; Svitkina, T.; Dominguez, R. 2014: Mechanism of IRSp53 inhibition and combinatorial activation by Cdc42 and downstream effectors. Nature Structural and Molecular Biology 21(4): 413-422

Kast, D.J.; Dominguez, R. 2019: Mechanism of IRSp53 inhibition by 14-3-3. Nature Communications 10(1): 483

Leceta, J.; Garin, M.I.; Conde, C. 2021: Mechanism of Immunoregulatory Properties of Vasoactive Intestinal Peptide in the K/BxN Mice Model of Autoimmune Arthritis. Frontiers in Immunology 12: 701862

Dupuy, R.; Bertin, M.; Féraud, G.; Michaut, X.; Marie-Jeanne, P.; Jeseck, P.; Philippe, L.; Baglin, V.; Cimino, R.; Romanzin, C.; Fillion, J.-H. 2021: Mechanism of Indirect Photon-Induced Desorption at the Water Ice Surface. Physical Review Letters 126(15): 156001

Li, X.; Wan, M.; Gao, L.; Fang, W. 2016: Mechanism of Inhibition of Human Islet Amyloid Polypeptide-Induced Membrane Damage by a Small Organic Fluorogen. Scientific Reports 6: 21614

Zhang, Q.; Michihara, S.; Sejima, T.; Han, L.-K.; Takahashi, R. 2020: Mechanism of Inhibitory Effects of Cherry Bark-containing Jumihaidokuto on Benzoyl Peroxide Induced Erythema in Hairless Mice. Yakugaku Zasshi: Journal of the Pharmaceutical Society of Japan 140(12): 1471-1476

Liang, X.; Sun, L.-Q.; Zhang, X.; Zhang, J.; Fu, P.-Y. 2020: Mechanism of Inorganic Nitrogen Transformation and Identification of Nitrogen Sources in Water and Soil. Huan Jing Ke Xue= Huanjing Kexue 41(9): 4333-4344

Waihenya, S.; Şenel, P.; Osonga, F.J.; Erdoğan, T.; Altay, F.; Gölcü, A.şe.ül.; Sadik, O.A. 2021: Mechanism of Interactions of dsDNA Binding with Apigenin and its Sulfamate Derivatives Using Multispectroscopic, Voltammetric, and Molecular Docking Studies. Acs Omega 6(8): 5124-5137

Lee, C.-W.; Wu, H.-F.; Chu, M.-C.; Chung, Y.-J.; Mao, W.-C.; Li, C.-T.; Lin, H.-C. 2021: Mechanism of Intermittent Theta-Burst Stimulation in Synaptic Pathology in the Prefrontal Cortex in an Antidepressant-Resistant Depression Rat Model. Cerebral Cortex 31(1): 575-590

Harris, A.; Lazaratos, M.; Siemers, M.; Watt, E.; Hoang, A.; Tomida, S.; Schubert, L.; Saita, M.; Heberle, J.; Furutani, Y.; Kandori, H.; Bondar, A.-N.; Brown, L.S. 2020: Mechanism of Inward Proton Transport in an Antarctic Microbial Rhodopsin. Journal of Physical Chemistry. B 124(24): 4851-4872

Kraszewski, K.; Tomczyk, I.; Drabinska, A.; Bienkowski, K.; Solarska, R.; Kalek, M. 2020: Mechanism of Iodine(III)-Promoted Oxidative Dearomatizing Hydroxylation of Phenols: Evidence for a Radical-Chain Pathway. Chemistry 26(50): 11584-11592

Zheng, L.; Wen, X.-L.; Dai, Y.-C. 2021: Mechanism of Jianpi Qingchang Huashi Recipe in treating ulcerative colitis: a study based on network pharmacology and molecular docking. World Journal of Clinical Cases 9(26): 7653-7670

Guo, L.; Situ, H.L.; Wang, Z.Y.; Lin, Y.; Chen, Q.J. 2020: Mechanism of Jinrong granule in inhibiting the invasion of breast cancer cells by the CXCL-1-CXCR2/CCL20 pathway. Journal of Biological Regulators and Homeostatic Agents 34(3): 969-976

Wang, L.; Luo, X.; Pan, Y.; Zheng, Z.; Yin, R.; Tian, X.; Zhang, L. 2021: Mechanism of Laccase Induction via Emodin in Trametes versicolor. Frontiers in Bioengineering and Biotechnology 9: 653800

Kim, D.H.; Kim, Y.R.; Bang, E.; Ha, S.; Noh, S.G.; Kim, B.M.; Jeong, S.H.; Jung, H.J.; Lee, J.Y.; Chung, H.Y. 2021: Mechanism of Lipid Accumulation through PAR2 Signaling in Diabetic Male Mice. Endocrinology and Metabolism 36(1): 171-184

Zhai, X.-Q.; Meng, F.-M.; Hu, S.-F.; Sun, P.; Xu, W. 2021: Mechanism of LncRNA ROR promoting prostate cancer by regulating Akt. European Review for Medical and Pharmacological Sciences 25(5): 2155

Sharma, S.; Zhou, R.; Wan, L.; Feng, S.; Song, K.; Xu, C.; Li, Y.; Liao, M. 2021: Mechanism of LolCDE as a molecular extruder of bacterial triacylated lipoproteins. Nature Communications 12(1): 4687

Trempe, J-François.; Brown, N.R.; Lowe, E.D.; Gordon, C.; Campbell, I.D.; Noble, M.E.M.; Endicott, J.A. 2005: Mechanism of Lys48-linked polyubiquitin chain recognition by the Mud1 UBA domain. EMBO Journal 24(18): 3178-3189

Jiang, Y.; Li, R.; Zhao, Y.; Liu, J.; Zhu, X.; Jin, L. 2020: Mechanism of MAPK/ERK1/2 signaling pathway and related proteins on receptor activity of rats with endometriosis. Journal of Biological Regulators and Homeostatic Agents 34(4): 1519-1522

Hatzivassiliou, G.; Haling, J.R.; Chen, H.; Song, K.; Price, S.; Heald, R.; Hewitt, J.F.M.; Zak, M.; Peck, A.; Orr, C.; Merchant, M.; Hoeflich, K.P.; Chan, J.; Luoh, S-Ming.; Anderson, D.J.; Ludlam, M.J.C.; Wiesmann, C.; Ultsch, M.; Friedman, L.S.; Malek, S.; Belvin, M. 2013: Mechanism of MEK inhibition determines efficacy in mutant KRAS- versus BRAF-driven cancers. Nature 501(7466): 232-236

Roisné-Hamelin, F.; Pobiega, S.; Jézéquel, Kévin.; Miron, S.; Dépagne, J.; Veaute, X.; Busso, D.; Du, M-Hélène.Le.; Callebaut, I.; Charbonnier, J-Baptiste.; Cuniasse, P.; Zinn-Justin, S.; Marcand, Séphane. 2021: Mechanism of MRX inhibition by Rif2 at telomeres. Nature Communications 12(1): 2763

Yang, J.; Luo, X.; Liu, F.; Lin, L.-J.; Gao, Y.; Zhou, Q. 2021: Mechanism of Magnoliae Officinalis Cortex in treatment of peptic ulcer based on network pharmacology and molecular docking. Zhongguo Zhong Yao Za Zhi 46(17): 4522-4530

Zhang, X.-W.; Liu, A.-M.; Zhao, J.-J.; Guo, J.; Chen, X.-Y.; Qu, X.-X. 2021: Mechanism of Mahuang Lianqiao Chixiaodou Decoction in treating eczema by network pharmacology and molecular docking technology. Zhongguo Zhong Yao Za Zhi 46(4): 894-901

Lin, M.; Colon-Perez, L.M.; Sambo, D.O.; Miller, D.R.; Lebowitz, J.J.; Jimenez-Rondan, F.; Cousins, R.J.; Horenstein, N.; Aydemir, T.B.; Febo, M.; Khoshbouei, H. 2020: Mechanism of Manganese Dysregulation of Dopamine Neuronal Activity. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 40(30): 5871-5891

Shu, J.; Xiao, L.; Yan, S.; Fan, B.; Zou, X.; Yang, J. 2021: Mechanism of MicroRNA-375 Promoter Methylation in Promoting Ovarian Cancer Cell Malignancy. Technology in Cancer Research and Treatment 20: 1533033820980115

Zhu, C.-L.; Yao, R.-Q.; Li, L.-X.; Li, P.; Xie, J.; Wang, J.-F.; Deng, X.-M. 2021: Mechanism of Mitophagy and its Role in Sepsis Induced Organ Dysfunction: a Review. Frontiers in Cell and Developmental Biology 9: 664896

Feng, C.; Zhao, M.; Jiang, L.; Hu, Z.; Fan, X. 2021: Mechanism of Modified Danggui Sini Decoction for Knee Osteoarthritis Based on Network Pharmacology and Molecular Docking. Evidence-BasedComplementaryandAlternativeMedicine:Ecam 2021: 6680637

Richardson, J.M.; Dawson, A.; O'Hagan, N.; Taylor, P.; Finnegan, D.J.; Walkinshaw, M.D. 2006: Mechanism of Mos1 transposition: insights from structural analysis. EMBO Journal 25(6): 1324-1334

Ersoy, B.A.; Pardo, L.; Zhang, S.; Thompson, D.A.; Millhauser, G.; Govaerts, C.; Vaisse, C. 2012: Mechanism of N-terminal modulation of activity at the melanocortin-4 receptor GPCR. Nature Chemical Biology 8(8): 725-730

Kamijuku, H.; Nagata, Y.; Jiang, X.; Ichinohe, T.; Tashiro, T.; Mori, K.; Taniguchi, M.; Hase, K.; Ohno, H.; Shimaoka, T.; Yonehara, S.; Odagiri, T.; Tashiro, M.; Sata, T.; Hasegawa, H.; Seino, K-i. 2008: Mechanism of NKT cell activation by intranasal coadministration of alpha-galactosylceramide, which can induce cross-protection against influenza viruses. Mucosal Immunology 1(3): 208-218

Song, X.; Jensen, M.Ø.; Jogini, V.; Stein, R.A.; Lee, C-Hsueh.; Mchaourab, H.S.; Shaw, D.E.; Gouaux, E. 2018: Mechanism of NMDA receptor channel block by MK-801 and memantine. Nature 556(7702): 515-519

Horne, C.R.; Venugopal, H.; Panjikar, S.; Wood, D.M.; Henrickson, A.; Brookes, E.; North, R.A.; Murphy, J.M.; Friemann, R.; Griffin, M.D.W.; Ramm, G.; Demeler, B.; Dobson, R.C.J. 2021: Mechanism of NanR gene repression and allosteric induction of bacterial sialic acid metabolism. Nature Communications 12(1): 1988

Olean-Oliveira, A.é; Oliveira Brito, G.A.; Teixeira, M.F.S. 2020: Mechanism of Nanocomposite Formation in the Layer-by-Layer Single-Step Electropolymerization of π-Conjugated Azopolymers and Reduced Graphene Oxide: An Electrochemical Impedance Spectroscopy Study. Acs Omega 5(40): 25954-25967

Lu, Y.-J.; Wang, Y.-H.; Sahu, R.S.; Chen, J.-P.; Dash, B.S.; Chung, P.-J.; Yang, H.-W.; Chuang, E.-Y.; Hwang, T.-L. 2020: Mechanism of Nanoformulated Graphene Oxide-Mediated Human Neutrophil Activation. Acs Applied Materials and Interfaces 12(36): 40141-40152

Ye, G.; Wang, M.; Liu, D.; Cheng, L.; Yin, X.; Zhang, Q.; Liu, W. 2020: Mechanism of Naringenin Blocking the Protection of LTB4/BLT1 Receptor Against Septic Cardiac Dysfunction. Annals of Clinical and Laboratory Science 50(6): 769-774

Qiu, Y.; Hartwig, J.F. 2020: Mechanism of Ni-Catalyzed Oxidations of Unactivated C(sp3)-H Bonds. Journal of the American Chemical Society 142(45): 19239-19248

Ma, L.; Jiang, K.; Jiang, P.; He, H.; Chen, K.; Shao, J.; Deng, G. 2020: Mechanism of Notch1‑saRNA‑1480 reversing androgen sensitivity in human metastatic castration‑resistant prostate cancer. International Journal of Molecular Medicine 46(1): 265-279

Schustak, J.; Twarog, M.; Wu, X.; Wu, H.Y.; Huang, Q.; Bao, Y. 2021: Mechanism of Nucleic Acid Sensing in Retinal Pigment Epithelium (RPE): RIG-i Mediates Type i Interferon Response in Human RPE. Journal of Immunology Research 2021: 9975628

Vithani, N.; Prakash, B.; Nair, N.N. 2020: Mechanism of Nucleotidyltransfer Reaction and Role of Mg2+ Ion in Sugar Nucleotidyltransferases. Biophysical Journal 119(3): 619-627

Kubas, A.; Orain, C.; De Sancho, D.; Saujet, L.; Sensi, M.; Gauquelin, C.; Meynial-Salles, I.; Soucaille, P.; Bottin, Hé.; Baffert, C.; Fourmond, V.; Best, R.B.; Blumberger, J.; Léger, C. 2017: Mechanism of O 2 diffusion and reduction in FeFe hydrogenases. Nature Chemistry 9(1): 88-95

Li, J.-S.; Zhao, Z.-Z.; Miao, X.-D.; Su, S.-L.; Shang, E.-X.; Qian, D.-W.; Duan, J.-A. 2021: Mechanism of Olibanum-Myrrha in treatment of rheumatoid arthritis based on network pharmacology and molecular docking. Zhongguo Zhong Yao Za Zhi 46(10): 2371-2379

Wang, B.; Zhou, H.; Zhu, Y. 2018: Mechanism of Oxymatrine-induced Human Esophageal Cancer Cell Apoptosis by the Endoplasmic Reticulum Stress Pathway. Open Life Sciences 13: 112-118

Dusetti, N.J.; Montalto, G.; Ortiz, E.M.; Masciotra, L.; Dagorn, J.C.; Iovanna, J.L. 1996: Mechanism of PAP I gene induction during hepatocarcinogenesis: clinical implications. British Journal of Cancer 74(11): 1767-1775

Chen, M.; Liu, H.; Li, Z.; Ming, A.L.; Chen, H. 2021: Mechanism of PKM2 affecting cancer immunity and metabolism in Tumor Microenvironment. Journal of Cancer 12(12): 3566-3574

Li, Q.; Bai, Y.; Lyle, L.T.; Yu, G.; Amarasinghe, O.; Nguele Meke, F.; Carlock, C.; Zhang, Z.-Y. 2020: Mechanism of PRL2 phosphatase-mediated PTEN degradation and tumorigenesis. Proceedings of the National Academy of Sciences of the United States of America 117(34): 20538-20548

Luo, Z.; Liu, Y.; Han, X.; Yang, W.; Wang, G.; Wang, J.; Jiang, X.; Sen, M.; Li, X.; Yu, G.; Shi, Y. 2021: Mechanism of Paeoniae Radix Alba in the Treatment of Non-alcoholic Fatty Liver Disease Based on Sequential Metabolites Identification Approach, Network Pharmacology, and Binding Affinity Measurement. Frontiers in Nutrition 8: 677659

Wei, S.; Ma, X.; Niu, M.; Wang, R.; Yang, T.; Wang, D.; Wen, J.; Li, H.; Zhao, Y. 2020: Mechanism of Paeoniflorin in the Treatment of Bile Duct Ligation-Induced Cholestatic Liver Injury Using Integrated Metabolomics and Network Pharmacology. Frontiers in Pharmacology 11: 586806

Chen, L.; Zhao, X.; Wei, S.; Ma, X.; Liu, H.; Li, J.; Jing, M.; Wang, M.; Zhao, Y. 2021: Mechanism of Paeoniflorin on ANIT-Induced Cholestatic Liver Injury Using Integrated Metabolomics and Network Pharmacology. Frontiers in Pharmacology 12: 737630

Davis, B.A.; Nagarajan, A.; Forrest, L.R.; Singh, S.K. 2016: Mechanism of Paroxetine (Paxil) Inhibition of the Serotonin Transporter. Scientific Reports 6: 23789

Ma, C.; Liu, F.; Xie, P.; Zhang, K.; Yang, J.; Zhao, J.; Zhang, H. 2021: Mechanism of Pb absorption in wheat grains. Journal of Hazardous Materials 415: 125618

Lin, T.; Gargya, A.; Singh, H.; Sivanesan, E.; Gulati, A. 2020: Mechanism of Peripheral Nerve Stimulation in Chronic Pain. Pain Medicine 21(Suppl 1): S6

Burkey, A.A.; Hillsley, A.; Harris, D.T.; Baltzegar, J.R.; Zhang, D.Y.; Sprague, W.W.; Rosales, A.M.; Lynd, N.A. 2020: Mechanism of Polymer-Mediated Cryopreservation Using Poly(methyl glycidyl sulfoxide). Biomacromolecules 21(8): 3047-3055

Liu, Y.; Fu, Q.-H.; Shi, M.-N.; Su, Y.-P.; Zhao, H.-H.; Cui, J.; Li, S.-C.; Liu, W.-Z. 2021: Mechanism of Potentilla discolor in treating UC by regulating mitochondrial autophagy. Zhongguo Zhong Yao Za Zhi 46(15): 3907-3914

Yan, H.; Zou, Y.; Zou, C. 2020: Mechanism of Qingfei Paidu decoction for treatment of COVID-19: analysis based on network pharmacology and molecular docking technology. Nan Fang Yi Ke da Xue Xue Bao 40(5): 616-623

Zhao, Y.-L.; Yuan, B.-Q.; Shen, G.-S. 2020: Mechanism of RET gene mediated EGFR signaling pathway on epithelial-mesenchymal transition, proliferation and apoptosis of papillary thyroid carcinoma cells. European Review for Medical and Pharmacological Sciences 24(15): 8036-8047

Zhou, Z.; Lv, J.; Yu, H.; Han, J.; Yang, X.; Feng, D.; Wu, Q.; Yuan, B.; Lu, Q.; Yang, H. 2020: Mechanism of RNA modification N6-methyladenosine in human cancer. Molecular Cancer 19(1): 104

Mishra, S.; Hasan, S.H.; Sakhawala, R.M.; Chaudhry, S.; Maraia, R.J. 2021: Mechanism of RNA polymerase III termination-associated reinitiation-recycling conferred by the essential function of the N terminal-and-linker domain of the C11 subunit. Nature Communications 12(1): 5900

Morin, B.; Rahmeh, A.A.; Whelan, S.P.J. 2012: Mechanism of RNA synthesis initiation by the vesicular stomatitis virus polymerase. EMBO Journal 31(5): 1320-1329

Mihai Gazdag, E.; Streller, A.; Haneburger, I.; Hilbi, H.; Vetter, I.R.; Goody, R.S.; Itzen, A. 2013: Mechanism of Rab1b deactivation by the Legionella pneumophila GAP LepB. Embo Reports 14(2): 199-205

Hou, G.; Jiang, Y.; Zheng, Y.; Zhao, M.; Chen, Y.; Ren, Y.; Wang, C.; Li, W. 2021: Mechanism of Radix Astragali and Radix Salviae Miltiorrhizae Ameliorates Hypertensive Renal Damage. Biomed Research International 2021: 5598351

Xiang, W.; Long, Z.; Zeng, J.; Zhu, X.; Yuan, M.; Wu, J.; Wu, Y.; Liu, L. 2021: Mechanism of Radix Rhei Et Rhizome Intervention in Cerebral Infarction: A Research Based on Chemoinformatics and Systematic Pharmacology. Evidence-BasedComplementaryandAlternativeMedicine:Ecam 2021: 6789835

Fulconis, R.; Mine, J.; Bancaud, Aélien.; Dutreix, M.; Viovy, J-Louis. 2006: Mechanism of RecA-mediated homologous recombination revisited by single molecule nanomanipulation. EMBO Journal 25(18): 4293-4304

Rangani, G.; Noguera, M.; Salas-Perez, R.; Benedetti, L.; Roma-Burgos, N. 2021: Mechanism of Resistance to S-metolachlor in Palmer amaranth. Frontiers in Plant Science 12: 652581

Yang, Z.; Mitländer, H.; Vuorinen, T.; Finotto, S. 2021: Mechanism of Rhinovirus Immunity and Asthma. Frontiers in Immunology 12: 731846

Cheng, L.-L.; Huang, Y.-C.; Wang, C.-R.; Liu, Z.-Q.; Huang, Y.-Z.; Zhang, C.-B.; Wagn, X.-L. 2021: Mechanism of S-allyl-L-cysteine Alleviating Cadmium Stress in Seedling Roots and Buds of Rice Seedlings. Huan Jing Ke Xue= Huanjing Kexue 42(6): 3037-3045

Kokic, G.; Hillen, H.S.; Tegunov, D.; Dienemann, C.; Seitz, F.; Schmitzova, J.; Farnung, L.; Siewert, A.; Höbartner, C.; Cramer, P. 2021: Mechanism of SARS-CoV-2 polymerase stalling by remdesivir. Nature Communications 12(1): 279

Lee, Y.Kwang.; Low-Nam, S.T.; Chung, J.K.; Hansen, S.D.; Lam, H.Yue.Monatrice.; Alvarez, S.; Groves, J.T. 2017: Mechanism of SOS PR-domain autoinhibition revealed by single-molecule assays on native protein from lysate. Nature Communications 8: 15061

Wu, J.; Li, L.; Li, L.; Li, Y.; Xiao, X.; Qiao, J.; Sun, R.; Yang, D.; Yao, R.; Huang, L. 2020: Mechanism of SQQX Decoction's Protective Effect on SHR: A Serum Metabolomics-Based Analysis. Evidence-BasedComplementaryandAlternativeMedicine:Ecam 2020: 8856943

Fahrner, M.; Grabmayr, H.; Romanin, C. 2020: Mechanism of STIM activation. Current Opinion in Physiology 17: 74-79

Yu, Y.; Luo, Y.; Fang, Z.; Teng, W.; Yu, Y.; Tian, J.; Guo, P.; Xu, R.; Wu, J.; Li, Y. 2020: Mechanism of Sanguinarine in Inhibiting Macrophages to Promote Metastasis and Proliferation of Lung Cancer via Modulating the Exosomes in A549 Cells. Oncotargets and Therapy 13: 8989-9003

Ma, K.-L.; Han, Z.-J.; Sun, J.; Tan, X.-F.; Wang, T.-M.; Shao, J.; Yan, G.-M.; Wang, C.-Z. 2021: Mechanism of Sanhuang Decoction in alleviating dextran sulfate sodium induced ulcerative colitis in mice with Candida albicans colonization:based on high-throughput transcriptome sequencing. Zhongguo Zhong Yao Za Zhi 46(15): 3915-3925

He, H.-A.; Wang, X.; Chen, Y.-T.; Song, Z.; Zhang, B.-Q. 2021: Mechanism of Shengjiang Powder in treating chronic tonsillitis in children based on network pharmacology and molecular docking. Zhongguo Zhong Yao Za Zhi 46(4): 877-884

Liang, H.-B.; Li, R.; Yao, J.-C.; Qin, G.-F.; Zhang, H.; Zhang, G.-M. 2021: Mechanism of Shouhui Tongbian Capsules in treating constipation based on network pharmacology and molecular docking. Zhongguo Zhong Yao Za Zhi 46(3): 511-519

Liu, J.; An, P.; Xue, Y.; Che, D.; Liu, X.; Zheng, J.; Liu, Y.; Yang, C.; Li, Z.; Yu, B. 2019: Mechanism of Snhg8/miR-384/Hoxa13/FAM3A axis regulating neuronal apoptosis in ischemic mice model. Cell Death and Disease 10(6): 441

Fang, Z.; Zheng, Z.; Cheng, W.; Zhang, X.; Zhong, K.; Li, L. 2020: Mechanism of Stability Enhancement for Adiponitrile High Voltage Electrolyte System Referring to Addition of Fluoroethylene Carbonate. Frontiers in Chemistry 8: 588389

Yu, Y.; Liu, S.; Wu, X.; Yu, Z.; Xu, Y.; Zhao, W.; Zavodnik, I.; Zheng, J.; Li, C.; Zhao, H. 2019: Mechanism of Stiff Substrates up-Regulate Cultured Neuronal Network Activity. Acs Biomaterials Science and Engineering 5(7): 3475-3482

Ha, S.H.; Chang, J.Y.; Lee, S.H.; Lee, K.M.; Heo, S.H.; Chang, D.-I.; Kim, B.J. 2021: Mechanism of Stroke According to the Severity and Location of Atherosclerotic Middle Cerebral Artery Disease. Journal of Stroke and Cerebrovascular Diseases: the Official Journal of National Stroke Association 30(2): 105503

Ye, W.X.; Liu, Y.; Wang, X.Y.; Yao, D.F.; Yao, M. 2021: Mechanism of T lymphocyte subsets in the malignant transformation of non-alcoholic fatty liver disease. Zhonghua Gan Zang Bing Za Zhi 29(6): 595-599

Gebel, J.; Luh, L.M.; Coutandin, D.; Osterburg, C.; Löhr, F.; Schäfer, B.; Frombach, A-Sophie.; Sumyk, M.; Buchner, L.; Krojer, T.; Salah, E.; Mathea, S.; Güntert, P.; Knapp, S.; Dötsch, V. 2016: Mechanism of TAp73 inhibition by ΔNp63 and structural basis of p63/p73 hetero-tetramerization. Cell Death and Differentiation 23(12): 1930-1940

Huang, H.; Ren, Y.; Liang, H.; Liu, X.; Nan, J.; Zhao, H.; Liu, X. 2021: Mechanism of TCONS_00147848 regulating apoptosis of nasal mucosa cells and alleviating allergic rhinitis through FOSL2-mediated JAK/STAT3 signaling pathway. References: 11(1): 15991

Li, D.; Ma, X.; Zhao, T. 2020: Mechanism of TGF-β3 promoting chondrogenesis in human fat stem cells. Biochemical and Biophysical Research Communications 530(4): 725-731

Qian, J.; Jiao, Y.; Wang, G.; Liu, H.; Cao, X.; Yang, H. 2020: Mechanism of TGF-β1 inhibiting Kupffer cell immune responses in cholestatic cirrhosis. Experimental and Therapeutic Medicine 20(2): 1541-1549

Chen, E.J.; Chen, S.; Zhou, F.L. 2021: Mechanism of TRIM27 promoting inflammatory response in lung cancer cells. Zhonghua Zhong Liu Za Zhi 43(10): 1076-1081

Zeng, Y.; Han, R.-T.; Zhou, Q.-W. 2021: Mechanism of Tanreqing Injection in treatment of acute lung injury based on network pharmacology and molecular docking. Zhongguo Zhong Yao Za Zhi 46(15): 3960-3969

Wang, W.-J.; Duan, X.-Y.; Wang, W. 2021: Mechanism of Taohong Siwu Decoction in treating soft tissue injury based on UPLC-Q-TOF-MS,network pharmacology and experimental verification. Zhongguo Zhong Yao Za Zhi 46(12): 3043-3051

Ikeda, Y. 2020: Mechanism of Taurohyodeoxycholate-induced Biliary Phospholipid Efflux -Understanding the Function of the ABCB4 Enhancer for Developing Therapeutic Agents against Bile Salt-induced Liver Injury. Yakugaku Zasshi: Journal of the Pharmaceutical Society of Japan 140(11): 1329-1334

Meusch, D.; Gatsogiannis, C.; Efremov, R.G.; Lang, A.E.; Hofnagel, O.; Vetter, I.R.; Aktories, K.; Raunser, S. 2014: Mechanism of Tc toxin action revealed in molecular detail. Nature 508(7494): 61-65

Shang, W.; Zhang, J.; Song, H.; Zhu, S.; Zhang, A.; Hua, Y.; Han, S.; Fu, Y. 2021: Mechanism of Tetrandrine Against Endometrial Cancer Based on Network Pharmacology. Drug Design Development and Therapy 15: 2907-2919

Kondati Natarajan, S.; Nolan, M.; Theofanis, P.; Mokhtarzadeh, C.; Clendenning, S.B. 2020: Mechanism of Thermal Atomic Layer Etch of W Metal Using Sequential Oxidation and Chlorination: a First-Principles Study. Acs Applied Materials and Interfaces 12(32): 36670-36680

Raskhodchikov, D.; Reshetov, I.; Brunkov, P.; Kaasik, V.; Lipovskii, A.; Tagantsev, D. 2020: Mechanism of Thermal Charge Relaxation in Poled Silicate Glasses in a Wide Temperature Range (From Liquid Nitrogen to Glass Melting Temperature). Journal of Physical Chemistry. B 124(36): 7948-7956

Zhai, L.; Xie, J.; Feng, H.; Sun, S.; Cheng, K.; Yao, S. 2021: Mechanism of TonB-dependent transport system in Halomonas alkalicola CICC 11012s in response to alkaline stress. Extremophiles: Life Under Extreme Conditions 25(1): 39-49

Wang, M.; Liu, L.; Zhang, C.S.; Liao, Z.; Jing, X.; Fishers, M.; Zhao, L.; Xu, X.; Li, B. 2020: Mechanism of Traditional Chinese Medicine in Treating Knee Osteoarthritis. Journal of Pain Research 13: 1421-1429

Sakata, N.; Yoshimatsu, G.; Tanaka, T.; Yamada, T.; Kawakami, R.; Kodama, S. 2020: Mechanism of Transplanted Islet Engraftment in Visceral White Adipose Tissue. Transplantation 104(12): 2516-2527

Uzureau, P.; Uzureau, S.; Lecordier, L.; Fontaine, Fédéric.; Tebabi, P.; Homblé, F.; Grélard, A.; Zhendre, V.; Nolan, D.P.; Lins, L.; Crowet, J-Marc.; Pays, A.; Felu, Cécile.; Poelvoorde, P.; Vanhollebeke, B.; Moestrup, S.K.; Lyngsø, J.; Pedersen, J.Skov.; Mottram, J.C.; Dufourc, E.J.; Pérez-Morga, D.; Pays, E. 2013: Mechanism of Trypanosoma brucei gambiense resistance to human serum. Nature 501(7467): 430-434

Guo, W.; Li, Y.; Xiao, W.; Li, J.; Han, Z.; Wang, B. 2021: Mechanism of two Typical Binders BR and F2604 on Thermal Decomposition of HMX. Acs Omega 6(3): 2025-2033

Imokawa, G. 2009: Mechanism of UVB-induced wrinkling of the skin: paracrine cytokine linkage between keratinocytes and fibroblasts leading to the stimulation of elastase. Journal of Investigative Dermatology. Symposium Proceedings 14(1): 36-43

Liu, Y.-F.; Niu, G.-C.; Li, C.-Y.; Guo, J.-B.; Song, J.; Li, H.; Zhang, X.-L. 2021: Mechanism of Ulcerative Colitis-Aggravated Liver Fibrosis: the Activation of Hepatic Stellate Cells and TLR4 Signaling Through Gut-Liver Axis. Frontiers in Physiology 12: 695019

Liu, J.; Yang, F.; Xia, J.; Wu, F.; Pu, C. 2021: Mechanism of Ultrasonic Physical-Chemical Viscosity Reduction for Different Heavy Oils. Acs Omega 6(3): 2276-2283

Li, Y.-X.; Wang, W.; He, M.; Shen, T.-M. 2020: Mechanism of Urban Black Odorous Water Based on Continuous Monitoring: a Case Study of the Erkeng Stream in Nanning. Huan Jing Ke Xue= Huanjing Kexue 41(5): 2257-2263

Ovcharenko, E.A.; Klyshnikov, K.U.; Shilov, A.A.; Kochergin, N.A.; Rezvova, M.A.; Belikov, N.V.; Ganyukov, V.I. 2021: Mechanism of Vascular Injury in Transcatheter Aortic Valve Replacement. Sovremennye Tekhnologii V Meditsine 13(3): 6-13

Lun, C.M.; Waheed, A.A.; Majadly, A.; Powell, N.; Freed, E.O. 2021: Mechanism of Viral Glycoprotein Targeting by Membrane-associated-RING-CH Proteins. Biorxiv: the Preprint Server for Biology 2021

Zhuang, Y.; Zhao, T.; Shao, X. 2021: Mechanism of WeChat's Impact on Public Risk Perception During COVID-19. Risk Management and Healthcare Policy 14: 4223-4233

Li, J.; Xiao, L.; He, D.; Luo, Y.; Sun, H. 2021: Mechanism of White Matter Injury and Promising Therapeutic Strategies of MSCs After Intracerebral Hemorrhage. Frontiers in Aging Neuroscience 13: 632054

Geng, S.; Ma, J.; Ren, Y.; Gong, B.-J.; Cai, R.-N.-J.; Li, G.-Y.; Dun, Z.; Zhang, Y.-L. 2021: Mechanism of Wuwei Ganlu in treatment of knee osteoarthritis:a study based on network pharmacology and molecular docking. Zhongguo Zhong Yao Za Zhi 46(16): 4238-4243

Shan, W.; Zhu, X.; Qi, J.; Hu, F.; Li, C.; Nie, X. 2020: Mechanism of Xiaowugui decoction for treating collagen-induced arthritis in mice. Nan Fang Yi Ke da Xue Xue Bao 40(11): 1682-1688

Wei, F.-X.; Liu, H.-l.; Fan, Y.-H.; Li, X.-Q.; Zhao, S.-J.; Qin, X.-M.; Liu, X.-J. 2021: Mechanism of Xiaoyao San in treatment of depression,breast hyperplasia,and functional dyspepsia based on network pharmacology. Zhongguo Zhong Yao Za Zhi 46(16): 4230-4237

Wan, L.; Liu, J.; Huang, C.-B.; Zhao, L.; Chen, X.; Fan, H.-X.; Ge, Y.; Liu, T.-Y.; Liu, L.; Li, Z.; Zhu, Z.-H.; Ma, X.-M.; Li, S. 2021: Mechanism of Xinfeng Capsules improving rheumatoid arthritis based on CD19~+B cells regulating FAK/CAPN/PI3K pathway. Zhongguo Zhong Yao Za Zhi 46(14): 3705-3711

Wang, Y.; Li, X.; Zhang, J.-H.; Xue, R.; Qian, J.-Y.; Zhang, X.-H.; Zhang, H.; Liu, Q.-Q.; Fan, X.-H.; Cheng, Y.-Y.; Zhang, B.-L. 2020: Mechanism of Xuanfei Baidu Tang in treatment of COVID-19 based on network pharmacology. Zhongguo Zhong Yao Za Zhi 45(10): 2249-2256

Lin, J.-G.; Yao, K.-W.; Wang, Q.-Q.; Hua, X. 2021: Mechanism of Xuefu Zhuyu Decoction in treatment of myocardial infarction based on network pharmacology and molecular docking. Zhongguo Zhong Yao Za Zhi 46(4): 885-893

Chen, L.; Lan, C.; Xiao, H.; Zhang, X.; Qi, X.; Ouyang, L.; Yang, Y.; Wang, F.; Jin, Q.; Sun, Y. 2021: Mechanism of Yifei Decoction Combined with MitoQ on Inhibition of TGF β 1/NOX4 and PDGF/ROCK Signal Pathway in Idiopathic Pulmonary Fibrosis. Evidence-BasedComplementaryandAlternativeMedicine:Ecam 2021: 6615615

Kim, Y.-H.; Eom, J.-W.; Koh, J.-Y. 2020: Mechanism of Zinc Excitotoxicity: a Focus on AMPK. Frontiers in Neuroscience 14: 577958

Luo, Q.; Tan, Y.; Hu, R.; Xia, Y.; Xia, G. 2021: Mechanism of Ziyin recipe for treatment of ovulatory infertility: a network pharmacology-based study and clinical observations. Nan Fang Yi Ke da Xue Xue Bao 41(3): 319-328

Widakdo, J.; Chiao, Y.-H.; Lai, Y.-L.; Imawan, A.C.; Wang, F.-M.; Hung, W.-S. 2020: Mechanism of a Self-Assembling Smart and Electrically Responsive PVDF-Graphene Membrane for Controlled Gas Separation. Acs Applied Materials and Interfaces 12(27): 30915-30924

Coupland, R.E.; Hopwood, D. 1966: Mechanism of a histochemical reaction differentiating between adrenaline- and noradrenaline-storing cells in the electron microscope. Nature 209(5023): 590-591

Sun, G.-C.; Liang, W.-Z. 2020: Mechanism of a methylxanthine drug theophylline-induced Ca2+ signaling and cytotoxicity in AML12 mouse hepatocytes. Toxicology Research 9(6): 790-797

Li, Z.; Xiao, Z.; Feng, Y.; Wang, Q.; Teng, M. 2022: Mechanism of a new photosensitizer (TBZPy) in the treatment of high-risk human papillomavirus-related diseases. Photodiagnosis and Photodynamic Therapy 37: 102591

Tsujimura, M.; Noji, T.; Saito, K.; Kojima, K.; Sudo, Y.; Ishikita, H. 2021: Mechanism of absorption wavelength shifts in anion channelrhodopsin-1 mutants. Biochimica et Biophysica Acta. Bioenergetics 1862(2): 148349

Li, Z.; Zhang, W.; Chen, Z.; Jiang, Q. 2020: Mechanism of accelerating soot oxidation by NO2 from diesel engine exhaust. Environmental Pollution 264: 114708

Sherman, M.I.; McLaren, A.; Walker, P.M. 1972: Mechanism of accumulation of DNA in giant cells of mouse trophoblast. Nature: new Biology 238(84): 175-176

James, M.N.; Hsu, I.N.; Delbaere, L.T. 1977: Mechanism of acid protease catalysis based on the crystal structure of penicillopepsin. Nature 267(5614): 808-813

Namgoong, S.; Boczkowska, M.; Glista, M.J.; Winkelman, J.D.; Rebowski, G.; Kovar, D.R.; Dominguez, R. 2011: Mechanism of actin filament nucleation by Vibrio VopL and implications for tandem W domain nucleation. Nature Structural and Molecular Biology 18(9): 1060-1067

Yu, B.; Cheng, H-Chun.; Brautigam, C.A.; Tomchick, D.R.; Rosen, M.K. 2011: Mechanism of actin filament nucleation by the bacterial effector VopL. Nature Structural and Molecular Biology 18(9): 1068-1074

Sangeetha, V.P.; Smriti, S.; Solanki, P.R.; Mohanan, P.V. 2021: Mechanism of action and cellular responses of HEK293 cells on challenge with zwitterionic carbon dots. Colloids and Surfaces. B Biointerfaces 202: 111698

Trauner, L. 1949: Mechanism of action and factor problem of the thermal baths. Praxis 38(21): 469-472

Tymianski, M.; Spigelman, I.; Zhang, L.; Carlen, P.L.; Tator, C.H.; Charlton, M.P.; Wallace, M.C. 1994: Mechanism of action and persistence of neuroprotection by cell-permeant Ca2+ chelators. Journal of Cerebral Blood Flow and Metabolism: Official Journal of the International Society of Cerebral Blood Flow and Metabolism 14(6): 911-923

Jiang, X.; Renkema, H.; Pennings, B.; Pecheritsyna, S.; Schoeman, J.C.; Hankemeier, T.; Smeitink, J.; Beyrath, J. 2021: Mechanism of action and potential applications of selective inhibition of microsomal prostaglandin E synthase-1-mediated PGE 2 biosynthesis by sonlicromanol's metabolite KH176m. Scientific Reports 11(1): 880

Yamamoto, S.; Tanetani, Y.; Uchiyama, C.; Nagamatsu, A.; Kobayashi, M.; Ikeda, M.; Kawai, K. 2021: Mechanism of action and selectivity of a novel herbicide, fenquinotrione. Journal of Pesticide Science 46(3): 249-257

Lamberts, S.W.; Klÿn, J.G.; Oosterom, R. 1984: Mechanism of action and tolerance of mesulergine. Clinical Pharmacology and Therapeutics 36(5): 620-627

Santi, R.; Porro, A. 1947: Mechanism of action and transformations of aminothiazole in the body. Bollettino della Societa Italiana di Biologia Sperimentale 23(12): 1191

Wolf, D.M.; Yau, C.; Wulfkuhle, J.; Brown-Swigart, L.; Gallagher, R.I.; Magbanua, M.Jesus.M.; O'Grady, N.; Hirst, G.; Asare, S.; Tripathy, D.; Berry, D.; Esserman, L.; Chien, A.Jo.; Petricoin, E.F.; van 't Veer, L. 2020: Mechanism of action biomarkers predicting response to AKT inhibition in the I-SPY 2 breast cancer trial. Npj Breast Cancer 6: 48

Wolf, D.M.; Yau, C.; Wulfkuhle, J.; Brown-Swigart, L.; Gallagher, R.I.; Jesus M Magbanua, M.; O'Grady, N.; Hirst, G.; Asare, S.; Tripathy, D.; Berry, D.; Esserman, L.; Chien, A.Jo.; Petricoin, E.F.; van 't Veer, L. 2020: Mechanism of action biomarkers predicting response to AKT inhibition in the I-SPY 2 breast cancer trial. Npj Breast Cancer 6(1): 48

Olsson, A.R.; Lindgren, H.; Pero, R.W.; Leanderson, T. 2002: Mechanism of action for N-substituted benzamide-induced apoptosis. British Journal of Cancer 86(6): 971-978

Dazord, A. 1983: Mechanism of action of ACTH. Annales d'Endocrinologie 44(1): 15-28

Gibinski, K. 1952: Mechanism of action of ACTH. Przeglad Lekarski 8(10): 301-304

Tait, S.W.G.; Werner, A.B.; de Vries, E.; Borst, J. 2004: Mechanism of action of Drosophila Reaper in mammalian cells: Reaper globally inhibits protein synthesis and induces apoptosis independent of mitochondrial permeability. Cell Death and Differentiation 11(8): 800-811

Mistry, T.; Kuppusamy, E. 2020: Reply to Tognù et al : regional anesthesia for proximal humerus surgery during COVID-19 pandemic. Regional Anesthesia and Pain Medicine 45(12): 1031-1032

Hafer, J.; Johnson, K.B. 2020: Mechanism of action of HTX-011: a novel, extended-release, dual-acting local anesthetic formulation for postoperative pain. Regional Anesthesia and Pain Medicine 45(12): 1030-1031

Winkler, M.M.; Grainger, J.L. 1978: Mechanism of action of NH4Cl and other weak bases in the activation of sea urchin eggs. Nature 273(5663): 536-538

Zhang, J.; Zhou, B.; Jin, S.; Huang, Z.; Ma, B.; Shao, Q.; Zhu, W. 2020: Mechanism of action of Panax notoginoside against lung cancer in mice based on response to CTSB gene. Bmc Complementary Medicine and Therapies 20(1): 367

Perelló, J.; Ferrer, M.D.; Del Mar Pérez, M.; Kaesler, N.; Brandenburg, V.M.; Behets, G.J.; D'Haese, P.C.; Garg, R.; Isern, B.; Gold, A.; Wolf, M.; Salcedo, C. 2020: Mechanism of action of SNF472, a novel calcification inhibitor to treat vascular calcification and calciphylaxis. British journal of pharmacology 177(19): 4400-4415

Kamakura, D.; Asano, R.; Kawai, H.; Yasunaga, M. 2021: Mechanism of action of a T cell-dependent bispecific antibody as a breakthrough immunotherapy against refractory colorectal cancer with an oncogenic mutation. Cancer Immunology Immunotherapy: Cii 70(1): 177-188

Tanas, M.R.; Ma, S.; Jadaan, F.O.; Ng, C.K.Y.; Weigelt, B.; Reis-Filho, J.S.; Rubin, B.P. 2016: Mechanism of action of a WWTR1(TAZ)-CAMTA1 fusion oncoprotein. Oncogene 35(7): 929-938

Delmas-Marsalet 1948: Mechanism of action of alcohol injections in facial neuralgia. JournaldeMedecinedeBordeauxetduSud-Ouest 125(1): 32

Cuthbert, A.W.; Painter, E. 1969: Mechanism of action of aldosterone. Nature 222(5190): 280-281

Şahin, E.; Bafaqeeh, S.A.; Güven, S.G.ül.; Çetinkaya, E.A.; Muluk, N.B.; Coşkun, Z.O.; Lopatin, A.; Kar, M.; Pinarbasli, M.O.; Cingi, C. 2016: Mechanism of action of allergen immunotherapy. American Journal of Rhinology and Allergy 30(5): 1-3

Blum, F.; Schmid, R. 1948: Mechanism of action of alpha-oxybenzylphosphinigenic acid and its Na salt (Phos). Helvetica Physiologica et Pharmacologica Acta 6(3): C49

Brown, P.E. 1967: Mechanism of action of aminothiol radioprotectors. Nature 213(5074): 363-364

McKeage, M.J.; Abel, G.; Kelland, L.R.; Harrap, K.R. 1994: Mechanism of action of an orally administered platinum complex [ammine bis butyrato cyclohexylamine dichloroplatinum (IV) (JM221)] in intrinsically cisplatin-resistant human ovarian carcinoma in vitro. British Journal of Cancer 69(1): 1-7

Boreus, L.O. 1962: Mechanism of action of anesthetics. Svenska Lakartidningen 59: 3707-3720

Garcha, R.S.; Sever, P.S.; Hughes, A.D. 2001: Mechanism of action of angiotensin II in human isolated subcutaneous resistance arteries. British Journal of Pharmacology 134(1): 188-196

Fujiwara, Y.; Kitamura, E.; Ueda, N.; Fukunaga, M.; Orita, Y.; Kamada, T. 1989: Mechanism of action of angiotensin II on isolated rat glomeruli. Kidney International 36(6): 985-991

Ettlinger, L. 1957: Mechanism of action of antibiotics. Antibiotica et Chemotherapia. Fortschritte. Advances. Progres 4: 46-68

Levretskaia, E.F.; Iakubovskiĭ, A.K.; Balaban, P.M.; Saakian, S.A.; Zakharov, I.S. 1981: Mechanism of action of antiepileptic drugs. Zhurnal Nevropatologii i Psikhiatrii Imeni S.S. Korsakova 81(6): 815-820

Velasco Martín, A. 1996: Mechanism of action of antiepileptic drugs. Anales de la Real Academia Nacional de Medicina 113(3): 743-753

Saidón, P. 2003: Mechanism of action of antiepileptic drugs. Vertex 14(51): 53-58

Fine, J.; Minton, R. 1966: Mechanism of action of bacterial endotoxin. Nature 210(5031): 97-98

Fine, J.; Minton, R. 1966: Mechanism of action of bacterial endotoxin. Nature 210(5031): 97-98

Leszek, J. 1987: Mechanism of action of benzodiazepines. Wiadomosci Lekarskie 40(4): 260-264

Tolbert, L.C. 1980: Mechanism of action of benzodiazepines. Alabama Journal of Medical Sciences 17(2): 168-170

Campo-Soria, C.; Chang, Y.; Weiss, D.S. 2006: Mechanism of action of benzodiazepines on GABAA receptors. British Journal of Pharmacology 148(7): 984-990

Deavin, A.; Mathias, A.P.; Rabin, B.R. 1966: Mechanism of action of bovine pancreatic ribonuclease. Nature 211(5046): 252-255

Takumi, Y.; Noguchi, H.; Miyano, H.; Aochi, O. 1970: Mechanism of action of bronchodilators. MASUI. Japanese Journal of Anesthesiology 19(12): 1355-1363