Section 73

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Andò, G.; Basile, G. 2020: Sarcopenia: only one of the domains of frailty in patients undergoing transcatheter aortic valve implantation. Journal of Cardiovascular Medicine 21(10): 787-789
Yoshimura, Y.; Wakabayashi, H.; Nagano, F.; Bise, T.; Shimazu, S.; Kudo, M.; Shiraishi, A. 2020: Sarcopenic Obesity Is Associated with Activities of Daily Living and Home Discharge in Post-Acute Rehabilitation. Journal of the American Medical Directors Association 21(10): 1475-1480
Chung, G.E.; Park, H.E.; Lee, H.; Kim, M.J.; Choi, S.-Y.; Yim, J.Y.; Yoon, J.W. 2021: Sarcopenic Obesity Is Significantly Associated with Coronary Artery Calcification. Frontiers in Medicine 8: 651961
Stangl-Kremser, J.; Mari, A.; Lai, L.Y.; Lee, C.T.; Vince, R.; Zaslavsky, A.; Salami, S.S.; Fajkovic, H.; Shariat, S.F.; Palapattu, G.S. 2021: Sarcopenic Obesity and its Prognostic Impact on Urological Cancers: a Systematic Review. Journal of Urology 206(4): 854-865
Mendham, A.E.; Lundin-Olsson, L.; Goedecke, J.H.; Micklesfield, L.K.; Christensen, D.L.; Gallagher, I.J.; Myburgh, K.H.; Odunitan-Wayas, F.A.; Lambert, E.V.; Kalula, S.; Hunter, A.M.; Brooks, N.E. 2021: Sarcopenic Obesity in Africa: a Call for Diagnostic Methods and Appropriate Interventions. Frontiers in Nutrition 8: 661170
Bellafronte, N.ál.T.; de Queirós Mattoso Ono, A.; Chiarello, P.G. 2021: Sarcopenic Obesity in Chronic Kidney Disease: Challenges in Diagnosis Using Different Diagnostic Criteria. Medical Principles and Practice: International Journal of the Kuwait University Health Science Centre 30(5): 477-486
Vera, K.A.; McConville, M.; Kyba, M.; Keller-Ross, M.L. 2020: Sarcopenic Obesity in Facioscapulohumeral Muscular Dystrophy. Frontiers in Physiology 11: 1008
Kirkman, D.L.; Bohmke, N.; Billingsley, H.E.; Carbone, S. 2020: Sarcopenic Obesity in Heart Failure with Preserved Ejection Fraction. Frontiers in Endocrinology 11: 558271
Opazo, R.; Angel, B.ár.; Márquez, C.; Lera, L.; Cardoso Dos Santos, G.R.; Monnerat, G.; Albala, C. 2021: Sarcopenic metabolomic profile reflected a sarcopenic phenotype associated with amino acid and essential fatty acid changes. Metabolomics: Official Journal of the Metabolomic Society 17(9): 83
Lee, K. 2021: Sarcopenic obesity and 10-year cardiovascular disease risk scores in cancer survivors and non-cancer participants using a nationwide survey. European Journal of Cancer Care 30(2): E13365
Hamer, M.; Batty, G.D.; Kivimaki, M. 2015: Sarcopenic obesity and risk of new onset depressive symptoms in older adults: English Longitudinal Study of Ageing. International Journal of Obesity 39(12): 1717-1720
Atkins, J.L.; Wannamathee, S.G. 2020: Sarcopenic obesity in ageing: cardiovascular outcomes and mortality. British Journal of Nutrition 124(10): 1102-1113
Batsis, J.A.; Villareal, D.T. 2018: Sarcopenic obesity in older adults: aetiology, epidemiology and treatment strategies. Nature Reviews. Endocrinology 14(9): 513-537
Mizuno, S.; Seishima, R.; Okabayashi, K.; Shigeta, K.; Matsui, S.; Kitagawa, Y. 2021: Sarcopenic obesity is a postoperative prognostic factor for stage Ii and IIi colorectal cancer. Journal of Gastrointestinal Surgery: Official Journal of the Society for Surgery of the Alimentary Tract 25(11): 2951-2953
Baumgartner, R.N.; Wayne, S.J.; Waters, D.L.; Janssen, I.; Gallagher, D.; Morley, J.E. 2004: Sarcopenic obesity predicts instrumental activities of daily living disability in the elderly. Obesity Research 12(12): 1995-2004
Guo, A.; Li, K.; Xiao, Q. 2020: Sarcopenic obesity: Myokines as potential diagnostic biomarkers and therapeutic targets?. Experimental Gerontology 139: 111022
Ciudin, A.; Simó-Servat, A.; Palmas, F.; Barahona, M.ía.J.é 2020: Sarcopenic obesity: a new challenge in the clinical practice. Endocrinologia Diabetes y Nutricion 67(10): 672-681
Baracos, V.E.; Arribas, L. 2018: Sarcopenic obesity: hidden muscle wasting and its impact for survival and complications of cancer therapy. Annals of Oncology: Official Journal of the European Society for Medical Oncology 29(Suppl 2): Ii1-Ii9
Roubenoff, R. 2004: Sarcopenic obesity: the confluence of two epidemics. Obesity Research 12(6): 887-888
Veronese, N.; Punzi, L.; Sieber, C.; Bauer, J.; Reginster, J.-Y.; Maggi, S. 2018: Sarcopenic osteoarthritis: a new entity in geriatric medicine?. European Geriatric Medicine 9(2): 141-148
Bouchard, D.R.; Dionne, I.J.; Brochu, M. 2009: Sarcopenic/obesity and physical capacity in older men and women: data from the Nutrition as a Determinant of Successful Aging (NuAge)-the Quebec longitudinal Study. Obesity 17(11): 2082-2088
Saleh, H.A.; Raafat, K.M.; Temraz, T.A.; Noureldin, N.; Breitinger, H.-G.; Breitinger, U. 2020: Sarcophine and (7S, 8R)-dihydroxydeepoxysarcophine from the Red Sea soft coral Sarcophyton glaucum as in vitro and in vivo modulators of glycine receptors. Neurotoxicology 80: 105-111
Roberts, M.D.; Haun, C.T.; Vann, C.G.; Osburn, S.C.; Young, K.C. 2020: Sarcoplasmic Hypertrophy in Skeletal Muscle: a Scientific "Unicorn" or Resistance Training Adaptation?. Frontiers in Physiology 11: 816
Rossini, M.; Filadi, R. 2020: Sarcoplasmic Reticulum-Mitochondria Kissing in Cardiomyocytes: Ca2+, ATP, and Undisclosed Secrets. Frontiers in Cell and Developmental Biology 8: 532
Betancor, D.; López-Matas, M.ía.A.; González-Ruiz, A.; Martín-López, L.; Carnés, J.ón.; Fernández-Nieto, M.D.M. 2021: Sarcoplasmic calcium-binding protein and alcohol dehydrogenase, new occupational allergens in the fruit fly Drosophila melanogaster. Clinical and Experimental Allergy: Journal of the British Society for Allergy and Clinical Immunology 51(10): 1387-1390
Liu, S.X.; Matthews, H.R.; Huang, C.L-H. 2021: Sarcoplasmic reticular Ca 2+ -ATPase inhibition paradoxically upregulates murine skeletal muscle Na v 1.4 function. Scientific Reports 11(1): 2846
Hong, C.Yi.; Lee, H-Ju.; Choi, N-Ri.; Jung, S-Hoon.; Vo, M-Cuong.; Hoang, M.Dung.; Kim, H-Joon.; Lee, J-Jung. 2016: Sarcoplasmic reticulum Ca(2+) ATPase 2 (SERCA2) reduces the migratory capacity of CCL21-treated monocyte-derived dendritic cells. Experimental and Molecular Medicine 48(8): E253
Hulot, J-S.; Senyei, G.; Hajjar, R.J. 2012: Sarcoplasmic reticulum and calcium cycling targeting by gene therapy. Gene Therapy 19(6): 596-599
Denniss, A.L.; Dashwood, A.M.; Molenaar, P.; Beard, N.A. 2020: Sarcoplasmic reticulum calcium mishandling: central tenet in heart failure?. Biophysical Reviews 12(4): 865-878
Smith, J.S.; Coronado, R.; Meissner, G. 1985: Sarcoplasmic reticulum contains adenine nucleotide-activated calcium channels. Nature 316(6027): 446-449
Rupp, H.; Vetter, R. 2000: Sarcoplasmic reticulum function and carnitine palmitoyltransferase-1 inhibition during progression of heart failure. British Journal of Pharmacology 131(8): 1748-1756
Woltering, J.M.; Irisarri, I.; Ericsson, R.; Joss, J.M.P.; Sordino, P.; Meyer, A. 2020: Sarcopterygian fin ontogeny elucidates the origin of hands with digits. Science Advances 6(34): Eabc 3510
Terry, B.C.; Kanjah, F.; Sahr, F.; Kortequee, S.; Dukulay, I.; Gbakima, A.A. 2001: Sarcoptes scabiei infestation among children in a displacement camp in Sierra Leone. Public Health 115(3): 208-211
Ventura-Flores, R. 2021: Sarcoptes scabiei: Ectoparasite of scabies. Revista Chilena de Infectologia: Organo Oficial de la Sociedad Chilena de Infectologia 38(2): 279-280
Turchetto, S.; Obber, F.; Rossi, L.; D'Amelio, S.; Cavallero, S.; Poli, A.; Parisi, F.; Lanfranchi, P.; Ferrari, N.; Dellamaria, D.; Citterio, C.V. 2020: Sarcoptic Mange in Wild Caprinae of the Alps: could Pathology Help in Filling the Gaps in Knowledge?. Frontiers in Veterinary Science 7: 193
Clayton, N. 2003: Sarcoptic mange in foxes. Veterinary Record 152(6): 183
Scott, W.A. 2003: Sarcoptic mange in foxes. Veterinary Record 152(6): 183
Moroni, B.; Angelone, S.; Pérez, J.ús.M.; Molinar Min, A.R.; Pasquetti, M.; Tizzani, P.; López-Olvera, J.R.ón.; Valldeperes, M.; Granados, J.é E.; Lavín, S.; Mentaberre, G.; Camacho-Sillero, L.; Martínez-Carrasco, C.; Oleaga, A.; Candela, M.ón.; Meneguz, P.G.; Rossi, L. 2021: Sarcoptic mange in wild ruminants in Spain: solving the epidemiological enigma using microsatellite markers. Parasites and Vectors 14(1): 171
Ahmed, M.M.A.; Albadry, M.A.; Ragab, E.A.; El-Ghaly, E.M.; Ismail, S.K.; Ali, Z.; Khan, S.I.; Chittiboyina, A.G.; Khan, I.A. 2020: Sarcoroseolides A-D, four undescribed cembranoids from the Red Sea soft coral Sarcophyton roseum. Natural Product Research 2020: 1-9
Shen, H.-Y.; Weltha, L.; Cook, J.M.; Gesese, R.; Omi, W.; Baer, S.B.; Rose, R.M.; Reemmer, J.; Boison, D. 2020: Sarcosine Suppresses Epileptogenesis in Rats with Effects on Hippocampal DNA Methylation. Frontiers in Molecular Neuroscience 13: 97
Brennan, D. 2020: Sarcosine in the management of schizophrenia. British Journal of Psychiatry: the Journal of Mental Science 217(5): 653
Roemmeleu, O.; Westphal, W. 1949: Sarcosporidia in a starling (Sturnus vulgaris). DeutscheTierarztlicheWochenschrift 56(9-10): 76
Guedes, M.; Costa-Pinto, A.R.; Gonçalves, V.ín.M.F.; Moreira-Silva, J.; Tiritan, M.E.; Reis, R.L.; Ferreira, H.; Neves, N.M. 2020: Sardine Roe as a Source of Lipids to Produce Liposomes. Acs Biomaterials Science and Engineering 6(2): 1017-1029
Hata, H.; Motomura, H. 2021: Sardinella ventura n. sp. (Actinopterygii: Clupeiformes: Clupeidae), a new sardine from Mauritius. Zootaxa 4975(2): 389396
Nasri, R.; Taktak, W.; Hamdi, M.; Ben Amor, N.; Kabadou, A.; Li, S.; Nasri, M. 2020: Sardinelle protein isolate as a novel material for oil microencapsulation: Novel alternative for fish by-products valorisation. Materials Science and Engineering. C Materials for Biological Applications 116: 111164
Rupert, J.; Hughes, P. 2020: Sarecycline (Seysara) for the Treatment of Acne. American Family Physician 102(4): 245-246
Batool, Z.; Lomakin, I.B.; Polikanov, Y.S.; Bunick, C.G. 2020: Sarecycline interferes with tRNA accommodation and tethers mRNA to the 70S ribosome. Proceedings of the National Academy of Sciences of the United States of America 117(34): 20530-20537
Luke, A.J.; Williams, A.M.; Gratton, S.M. 2022: Sarecycline-Induced Pseudotumor Cerebri: a new Culprit of an Old Condition. Journal of Neuro-Ophthalmology: the Official Journal of the North American Neuro-Ophthalmology Society 42(1): E313-E314
Moore, A.Y.; Del Rosso, J.; Johnson, J.L.; Grada, A. 2020: Sarecycline: a Review of Preclinical and Clinical Evidence. Clinical Cosmetic and Investigational Dermatology 13: 553-560
Rai, P.; Ghag, G.; Sanjanwala, S.; Jain, R.; Nandu, V. 2020: Saree Cancer: a Rare Case. Indian Journal of Surgical Oncology 11(Suppl 1): 93-95
Beimforde, C.; Schmidt, A.R.; Rikkinen, J.; Mitchell, J.K. 2020: Sareomycetes cl. nov.: a new proposal for placement of the resinicolous genus Sarea (Ascomycota, Pezizomycotina). Fungal Systematics and Evolution 6: 25-37
Mitchell, J.K.; Garrido-Benavent, I.; Quijada, L.; Pfister, D.H. 2021: Sareomycetes: more diverse than meets the eye. Ima Fungus 12(1): 6
Philippidis, A. 2020: Sarepta Duchenne Muscular Dystrophy Candidate Faces U.S. Food and Drug Administration Assay Request, Patent Suit. Human Gene Therapy 31(19-20): 1031-1033
Cao, L.; Lee, S.G.; Park, S.-H.; Kim, H.-R. 2021: Sargahydroquinoic acid (SHQA) suppresses cellular senescence through Akt/mTOR signaling pathway. Experimental Gerontology 151: 111406
Zhuang, M.; Liu, J.; Ding, X.; He, J.; Zhao, S.; Wu, L.; Gao, S.; Zhao, C.; Liu, D.; Zhang, J.; He, P. 2021: Sargassum blooms in the East China Sea and Yellow Sea: Formation and management. Marine Pollution Bulletin 162: 111845
Wu, Q.; Wu, S.; Cheng, Y.; Zhang, Z.; Mao, G.; Li, S.; Yang, Y.; Zhang, X.; Wu, M.; Tong, H. 2021: Sargassum fusiforme fucoidan modifies gut microbiota and intestinal metabolites during alleviation of hyperglycemia in type 2 diabetic mice. Food and Function 12(8): 3572-3585
He, D.; Yan, L.; Zhang, J.; Li, F.; Wu, Y.; Su, L.; Chen, P.; Wu, M.; Choi, J.-I.; Tong, H. 2021: Sargassum fusiforme polysaccharide attenuates high-sugar-induced lipid accumulation in HepG2 cells and Drosophila melanogaster larvae. Food Science and Nutrition 9(10): 5590-5599
Herath, K.Hewage.Iresha.Nadeeka.Madushani.; Kim, H.Jin.; Lee, J.Hee.; Je, J.Geon.; Yu, H-Sun.; Jeon, Y-Jin.; Kim, H.Jung.; Jee, Y. 2021: Sargassum horneri (Turner) C. Agardh containing polyphenols attenuates particulate matter-induced inflammatory response by blocking TLR-mediated MYD88-dependent MAPK signaling pathway in MLE-12 cells. Journal of Ethnopharmacology 265:: 113340
Dias, M.Kankanamge.Hasitha.Madhawa.; Madusanka, D.Mudiyanselage.Dinesh.; Han, E.Jeong.; Kim, H-Soo.; Jeon, Y-Jin.; Jee, Y.; Kim, K-Nam.; Lee, K.; Fernando, I.Priyan.Shanura.; Ahn, G. 2021: Sargassum horneri (Turner) C. Agardh ethanol extract attenuates fine dust-induced inflammatory responses and impaired skin barrier functions in HaCaT keratinocytes. Journal of Ethnopharmacology 273:: 114003
Herath, K.H.I.N.M.; Kim, H.J.; Mihindukulasooriya, S.P.; Kim, A.; Kim, H.J.; Jeon, Y.-J.; Jee, Y. 2020: Sargassum horneri extract containing mojabanchromanol attenuates the particulate matter exacerbated allergic asthma through reduction of Th2 and Th17 response in mice. Environmental Pollution 265(Part B): 114094
Rodríguez-Martínez, R.E.; Quintana-Pali, G.; Trujano-Rivera, K.I.; Herrera, R.; García-Rivas, M.ía.D.C.; Ortíz, A.; Castañeda, G.; Maldonado, G.; Jordán-Dahlgren, E. 2021: Sargassum landings have not compromised nesting of loggerhead and green sea turtles in the Mexican Caribbean. Journal of Environmental Management 299: 113614
Abdel Latef, A.Abdel.Hamed.; Srivastava, A.Kumar.; Saber, H.; Alwaleed, E.A.; Tran, L-Son.Phan. 2017: Sargassum muticum and Jania rubens regulate amino acid metabolism to improve growth and alleviate salinity in chickpea. Scientific Reports 7(1): 10537
Resiere, D.; Mehdaoui, H.; Florentin, J.; Gueye, P.; Lebrun, T.; Blateau, A.; Viguier, J.; Valentino, R.; Brouste, Y.; Kallel, H.; Megarbane, B.; Cabie, Aé.; Banydeen, R.; Neviere, R. 2020: Sargassum seaweed health menace in the Caribbean: clinical characteristics of a population exposed to hydrogen sulfide during the 2018 massive stranding. Clinical Toxicology 2020: 1-9
Lazarus, H.M.; Ragsdale, C.E.; Gale, R.P.; Lyman, G.H. 2021: Sargramostim (rhu GM-CSF) as Cancer Therapy (Systematic Review) and An Immunomodulator. a Drug Before its Time?. Frontiers in Immunology 12: 706186
Corominas, H.èc.; Castellví, I.; Diaz-Torné, C.és.; Matas, L.; de la Rosa, D.; Mangues, M.A.òn.; Moya, P.; Pomar, V.; Benito, N.; Moga, E.; Sosa, N.H.-d.; Casademont, J.; Domingo, P. 2021: Sarilumab (IL-6R antagonist) in critically ill patients with cytokine release syndrome by SARS-CoV2. Medicine 100(19): E25923
Gremese, E.; Cingolani, A.; Bosello, S.L.; Alivernini, S.; Tolusso, B.; Perniola, S.; Landi, F.; Pompili, M.; Murri, R.; Santoliquido, A.; Garcovich, M.; Sali, M.; De Pascale, G.; Gabrielli, M.; Biscetti, F.; Montalto, M.; Tosoni, A.; Gambassi, G.; Rapaccini, G.L.; Iaconelli, A.; Zileri Del Verme, L.; Petricca, L.; Fedele, A.L.; Lizzio, M.M.; Tamburrini, E.; Natalello, G.; Gigante, L.; Bruno, D.; Verardi, L.; Taddei, E.; Calabrese, A.; Lombardi, F.; Bernabei, R.; Cauda, R.; Franceschi, F.; Landolfi, R.; Richeldi, L.; Sanguinetti, M.; Fantoni, M.; Antonelli, M.; Gasbarrini, A. 2020: Sarilumab use in severe SARS-CoV-2 pneumonia. Eclinicalmedicine 27: 100553
Suzuki, T.; Morita, H.; Ono, K.; Maekawa, K.; Nagai, R.; Yazaki, Y. 1995: Sarin poisoning in Tokyo subway. Lancet 345(8955): 980
Nozaki, H.; Aikawa, N.; Shinozawa, Y.; Hori, S.; Fujishima, S.; Takuma, K.; Sagoh, M. 1995: Sarin poisoning in Tokyo subway. Lancet 345(8955): 980-981
Nozaki, H.; Aikawa, N. 1995: Sarin poisoning in Tokyo subway. Lancet 345(8962): 1446-1447
Kim, E-A.; Lee, J-Hyeok.; Heo, S-Jin.; Jeon, Y-Jin. 2020: Saringosterol acetate isolated from Hizikia fusiforme, an edible brown alga, suppressed hepatocellular carcinoma growth and metastasis in a zebrafish xenograft model. Chemico-BiologicalInteractions 2020: 109362
Pérez-Berlanga, M.; Laferrière, F.; Polymenidou, M. 2019: Sarko Spin: A Technique for Biochemical Isolation and Characterization of Pathological TDP-43 Aggregates. Bio-Protocol 9(22):E3424
Greenfield, E.A.; DeCaprio, J.; Brahmandam, M. 2020: Sarkosyl Preparation of Antigens from Bacterial Inclusion Bodies. Cold Spring Harbor Protocols 9: 100032
Sur, M.; Dey, P.; Sarkar, A.; Bar, S.; Banerjee, D.; Bhat, S.; Mukherjee, P. 2018: Sarm1 induction and accompanying inflammatory response mediates age-dependent susceptibility to rotenone-induced neurotoxicity. Cell Death Discovery 4: 114
Viar, K.; Njoku, D.; Secor McVoy, J.; Oh, U. 2020: Sarm1 knockout protects against early but not late axonal degeneration in experimental allergic encephalomyelitis. Plos one 15(6): E0235110
Pérez-Cantero, A.; Guarro, J. 2020: Sarocladium and Acremonium infections: new faces of an old opportunistic fungus. Mycoses 63(11): 1203-1214
Akbari, R.; Behdarvand, T.; Afarin, R.; Yaghooti, H.; Jalali, M.T.; Mohammadtaghvaei, N. 2021: Saroglitazar improved hepatic steatosis and fibrosis by modulating inflammatory cytokines and adiponectin in an animal model of non-alcoholic steatohepatitis. Bmc Pharmacology and Toxicology 22(1): 53
Goyal, O.; Nohria, S.; Goyal, P.; Kaur, J.; Sharma, S.; Sood, A.; Chhina, R.Singh. 2020: Saroglitazar in patients with non-alcoholic fatty liver disease and diabetic dyslipidemia: a prospective, observational, real world study. Scientific Reports 10(1): 21117
Mayer, R.A. 1948: Sarothamnus scoparius W. (Spartium scoparium L). Broom and its relationship to the cardiovascular system. Die Pharmazie 3(2): 75-81
Dang, T-Thuy.T.; Franke, J.; Carqueijeiro, I.Soares.Teto.; Langley, C.; Courdavault, V.; O'Connor, S.E. 2018: Sarpagan bridge enzyme has substrate-controlled cyclization and aromatization modes. Nature Chemical Biology 14(8): 760-763
Liu, H.; Xu, S.; Li, G.; Lou, D.; Fu, X.; Lu, Q.; Hao, L.; Zhang, J.; Mei, J.; Sui, Z.; Lou, Y. 2020: Sarpogrelate and rosuvastatin synergistically ameliorate aortic damage induced by hyperlipidemia in apolipoprotein E-deficient mice. Experimental and Therapeutic Medicine 20(6): 170
Hutasoit, N.; Kennedy, B.; Hamilton, S.; Luttick, A.; Rahman Rashid, R.A.; Palanisamy, S. 2020: Sars-CoV-2 (COVID-19) inactivation capability of copper-coated touch surface fabricated by cold-spray technology. Manufacturing Letters 25: 93-97
Bianchi, M.; Benvenuto, D.; Giovanetti, M.; Angeletti, S.; Ciccozzi, M.; Pascarella, S. 2020: Sars-CoV-2 Envelope and Membrane Proteins: Structural Differences Linked to Virus Characteristics?. Biomed Research International 2020: 4389089
Lam, C.; Gray, K.; Gall, M.; Sadsad, R.; Arnott, A.; Johnson-Mackinnon, J.; Fong, W.; Basile, K.; Kok, J.; Dwyer, D.E.; Sintchenko, V.; Rockett, R.J. 2021: SARS-CoV-2 Genome Sequencing Methods Differ in their Abilities to Detect Variants from Low-Viral-Load Samples. Journal of Clinical Microbiology 59(11): E0104621
Giusti, B.; Gori, A.M.; Alessi, M.; Rogolino, A.; Lotti, E.; Poli, D.; Sticchi, E.; Bartoloni, A.; Morettini, A.; Nozzoli, C.; Peris, A.; Pieralli, F.; Poggesi, L.; Marchionni, N.; Marcucci, R. 2020: Sars-CoV-2 Induced Coagulopathy and Prognosis in Hospitalized Patients: a Snapshot from Italy. Thrombosis and Haemostasis 120(8): 1233-1236
Vinciguerra, M.; Greco, E. 2020: Sars-CoV-2 and black population: ACE2 as shield or blade?. Infection Genetics and Evolution: Journal of Molecular Epidemiology and Evolutionary Genetics in Infectious Diseases 84: 104361
Vinciguerra, M.; Greco, E. 2020: Sars-CoV-2 and black population: ACE2 as shield or blade?. Infection Genetics and Evolution: Journal of Molecular Epidemiology and Evolutionary Genetics in Infectious Diseases 84: 104361
Vinciguerra, M.; Greco, E. 2020: Sars-CoV-2 and black population: ACE2 as shield or blade?. Infection Genetics and Evolution: Journal of Molecular Epidemiology and Evolutionary Genetics in Infectious Diseases 84: 104361
Elie, B.; Alizon, S. 2020: Sars-CoV-2 genomic and phylodynamic analyses. Revue Francophone des Laboratoires: Rfl 526: 57-62
Ghi, T.; di Pasquo, E.; Mekinian, A.; Calza, L.; Frusca, T. 2020: Sars-CoV-2 in pregnancy: Why is it better than expected?. European Journal of Obstetrics Gynecology and Reproductive Biology 252: 476-478
Fainardi, V.; Longo, F.; Chetta, A.; Esposito, S.; Pisi, G. 2020: Sars-CoV-2 infection in patients with cystic fibrosis. An overview. ActaBio-Medica:AteneiParmensis 91(3):E2020035
Vallet, Gérald. 2020: Sars-CoV-2, a new virus of the coronavirus family. Revue de l'Infirmiere 69(266): 16-17
Scoccimarro, D.; Panichi, L.; Ragghianti, B.; Silverii, A.; Mannucci, E.; Monami, M. 2021: Sars-CoV2 vaccine hesitancy in Italy: a survey on subjects with diabetes. Nutrition Metabolism and Cardiovascular Diseases: Nmcd 31(11): 3243-3246
Arinola, O.G.; Edem, V.F.; Rahamon, S.K.; Yaqub, S.A.; Fashina, A.O.; Alonge, T.O. 2020: Sars-Cov-2 Infection Screening Using two Serological Testing Methods. Nigerian Journal of Physiological Sciences: Official Publication of the Physiological Society of Nigeria 35(2): 117-121
Cotta Ramusino, M.; Perini, G.; Corrao, G.; Farina, L.; Berzero, G.; Ceroni, M.; Costa, A. 2021: Sars-Cov-2 in a Patient with Acute Chorea: Innocent Bystander or Unexpected Actor?. Movement Disorders Clinical Practice 8(6): 950-953
Kaya Tutar, N.; Omerhoca, S.; Coban, E.; Kale, N. 2021: Sars-Cov-2 infection related inflammatory and demyelinating disease; a brief case series. Multiple Sclerosis and Related Disorders 51: 102900
Comentale, G.; Manzo, R.; Pilato, E. 2020: Sars-Cov-2 interference in HEME production: is it the time for an early predictive biomarker?. Journal of Molecular Medicine 98(8): 1053-1054
Chikhale, R.V.; Gurav, S.S.; Patil, R.B.; Sinha, S.K.; Prasad, S.K.; Shakya, A.; Shrivastava, S.K.; Gurav, N.S.; Prasad, R.S. 2020: Sars-cov-2 host entry and replication inhibitors from Indian ginseng: an in-silico approach. Journal of Biomolecular Structure and Dynamics 2020: 1-12
Tang, Z.-Z.; Zhang, Y.-M.; Zheng, T.; Huang, T.-T.; Ma, T.-F.; Liu, Y.-W. 2020: Sarsasapogenin alleviates diabetic nephropathy through suppression of chronic inflammation by down-regulating PAR-1: in vivo and in vitro study. Phytomedicine: International Journal of PhytoTherapy and Phytopharmacology 78: 153314
Mandlik, D.S.; Mandlik, S.K.; Patel, S.S. 2021: Sarsasapogenin and fluticasone combination improves DNFB induced atopic dermatitis lesions in BALB/c mice. Immunopharmacology and Immunotoxicology 2021: 1-11
Zhang, Y.-M.; Zheng, T.; Huang, T.-T.; Gu, P.-P.; Gou, L.-S.; Ma, T.-F.; Liu, Y.-W. 2021: Sarsasapogenin attenuates Alzheimer-like encephalopathy in diabetes. Phytomedicine: International Journal of PhytoTherapy and Phytopharmacology 91: 153686
Li, X.-Z.; Jiang, H.; Xu, L.; Liu, Y.-Q.; Tang, J.-W.; Shi, J.-S.; Yu, X.-J.; Wang, X.; Du, L.; Lu, Q.; Li, C.-L.; Liu, Y.-W.; Yin, X.-X. 2021: Sarsasapogenin restores podocyte autophagy in diabetic nephropathy by targeting GSK3β signaling pathway. Biochemical Pharmacology 192: 114675
Dong, D.; Zhou, N-Nan.; Liu, R-Xuan.; Xiong, J-Wei.; Pan, H.; Sun, S-Qi.; Ma, L.; Wang, R. 2017: Sarsasapogenin-AA13 inhibits LPS-induced inflammatory responses in macrophage cells in vitro and relieves dimethylbenzene-induced ear edema in mice. Acta Pharmacologica Sinica 38(5): 699-709
Gopalakrishnan, J.; Mennella, V.; Blachon, S.; Zhai, B.; Smith, A.H.; Megraw, T.L.; Nicastro, D.; Gygi, S.P.; Agard, D.A.; Avidor-Reiss, T. 2011: Sas-4 provides a scaffold for cytoplasmic complexes and tethers them in a centrosome. Nature Communications 2: 359
Ichimaru, Y.; Kanaeda, N.; Tominaga, S.; Suzui, M.; Maeda, T.; Fujii, H.; Nakao, M.; Yoshioka, H. 2020: Sasa veitchii extract induces anticancer effects via inhibition of cyclin D1 expression in MCF-7 cells. Nagoya Journal of Medical Science 82(3): 509-518
Hart, H.D. 1943: Saskatchewan. Canadian Medical Association Journal 49(5): 435
Hart, H.D. 1945: Saskatchewan. Canadian Medical Association Journal 52(4): 416
Moore, M.B. 1964: Saskatchewan's Community Clinics. Canadian Medical Association Journal 91(14): 767
Boyd, E.A. 1964: Saskatchewan's Community Clinics. Canadian Medical Association Journal 91(14): 767
Wolfe, S. 1964: Saskatchewan's Community Clinics. Canadian Medical Association Journal 91(14): 768
Wolfe, S. 1964: Saskatchewan's Community Clinics. Canadian Medical Association Journal 91(16): 875-876
Smith, I.M. 1964: Saskatchewan's Community Clinics. Canadian Medical Association Journal 91(16): 875
Moore, M.B. 1965: Saskatchewan's Community Clinics. Canadian Medical Association Journal 92(1): 40-41
Wolfe, S. 1965: Saskatchewan's Community Clinics. Canadian Medical Association Journal 92(1): 41
Zhao, R.; Xiang, B.; Dolinsky, V.W.; Xia, M.; Shen, G.X. 2021: Saskatoon berry powder reduces hepatic steatosis and insulin resistance in high fat-high sucrose diet-induced obese mice. Journal of Nutritional Biochemistry 95: 108778
Lewis, S. 2019: Sat nav for the spinal cord. Nature Reviews. Neuroscience 20(3): 130-131
Ghosh, R.P.; Shi, Q.; Yang, L.; Reddick, M.P.; Nikitina, T.; Zhurkin, V.B.; Fordyce, P.; Stasevich, T.J.; Chang, H.Y.; Greenleaf, W.J.; Liphardt, J.T. 2019: Satb1 integrates DNA binding site geometry and torsional stress to differentially target nucleosome-dense regions. Nature Communications 10(1): 3221
Will, B.; Vogler, T.O.; Bartholdy, B.; Garrett-Bakelman, F.; Mayer, J.; Barreyro, L.; Pandolfi, A.; Todorova, T.I.; Okoye-Okafor, U.C.; Stanley, R.F.; Bhagat, T.D.; Verma, A.; Figueroa, M.E.; Melnick, A.; Roth, M.; Steidl, U. 2013: Satb1 regulates the self-renewal of hematopoietic stem cells by promoting quiescence and repressing differentiation commitment. Nature Immunology 14(5): 437-445
Pradhan, S.J.; Reddy, P.Chandramouli.; Smutny, M.; Sharma, A.; Sako, K.; Oak, M.S.; Shah, R.; Pal, M.; Deshpande, O.; Dsilva, G.; Tang, Y.; Mishra, R.; Deshpande, G.; Giraldez, A.J.; Sonawane, M.; Heisenberg, C-Philipp.; Galande, S. 2021: Satb2 acts as a gatekeeper for major developmental transitions during early vertebrate embryogenesis. Nature Communications 12(1): 6094
Zhang, L.; Song, N-Ning.; Zhang, Q.; Mei, W-Ying.; He, C-Hui.; Ma, P.; Huang, Y.; Chen, J-Yin.; Mao, B.; Lang, B.; Ding, Y-Qiang. 2020: Satb2 is required for the regionalization of retrosplenial cortex. Cell Death and Differentiation 27(5): 1604-1617
Jarvie, B.C.; Chen, J.Y.; King, H.O.; Palmiter, R.D. 2021: Satb2 neurons in the parabrachial nucleus mediate taste perception. Nature Communications 12(1): 224
Zhang, Q.; Zhang, L.; Huang, Y.; Ma, P.; Mao, B.; Ding, Y-Qiang.; Song, N-Ning. 2021: Satb2 regulates the development of dopaminergic neurons in the arcuate nucleus by Dlx1. Cell Death and Disease 12(10): 879
Englund, D.A.; Figueiredo, V.é C.; Dungan, C.M.; Murach, K.A.; Peck, B.D.; Petrosino, J.M.; Brightwell, C.R.; Dupont, A.M.; Neal, A.C.; Fry, C.S.; Accornero, F.; McCarthy, J.J.; Peterson, C.A. 2021: Satellite Cell Depletion Disrupts Transcriptional Coordination and Muscle Adaptation to Exercise. Function 2(1): Zqaa 033
Hansen, L.; Joseph, G.; Valdivia, A.; Taylor, W.R. 2021: Satellite Cell Expression of RAGE (Receptor for Advanced Glycation end Products) Is Important for Collateral Vessel Formation. Journal of the American Heart Association 10(21): E022127
Palomeque, T.; Lorite, P. 2008: Satellite DNA in insects: a review. Heredity 100(6): 564-573
Varley, J.M.; Macgregor, H.C.; Erba, H.P. 1980: Satellite DNA is transcribed on lampbrush chromosomes. Nature 283(5748): 686-688
Hatfield, J.M.; Walker, P.M. 1973: Satellite DNA replication in baby mouse kidney cells infected with polyoma virus. Nature: new Biology 242(118): 141-142
Feliciello, I.; Pezer, Že.; Sermek, A.; Bruvo Mađarić, B.; Ljubić, S.; Ugarković, Đu.đi. 2021: Satellite DNA-Mediated Gene Expression Regulation: Physiological and Evolutionary Implication. Progress in Molecular and Subcellular Biology 60: 145-167
Qi, T.; Xiao, Q.; Cao, Z.; Shen, M.; Ma, J.; Liu, D.; Duan, H. 2020: Satellite Estimation of Dissolved Carbon Dioxide Concentrations in China's Lake Taihu. Environmental Science and Technology 54(21): 13709-13718
Skofronick-Jackson, G.; Kulie, M.; Milani, L.; Munchak, S.J.; Wood, N.B.; Levizzani, V. 2019: Satellite Estimation of Falling Snow: a Global Precipitation Measurement (GPM) Core Observatory Perspective. Journal of Applied Meteorology and Climatology 58(7): 1429-1448
Du, J.; Kimball, J.S.; Sheffield, J.; Pan, M.; Fisher, C.K.; Beck, H.E.; Wood, E.F. 2021: Satellite Flood Inundation Assessment and Forecast Using SMAP and Landsat. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 14: 6707-6715
Harkey, M.; Holloway, T.; Kim, E.J.; Baker, K.R.; Henderson, B. 2021: Satellite Formaldehyde to Support Model Evaluation. Journal of Geophysical Research. Atmospheres: Jgr 126(4)
Ruiz-Soto, M.ía.; Riancho, J.; Tapia, O.; Lafarga, M.; Berciano, M.ía.T. 2020: Satellite Glial Cells of the Dorsal Root Ganglion: a new "Guest/Physiopathological Target" in ALS. Frontiers in Aging Neuroscience 12: 595751
Flechtner, F.; Reigber, C.; Rummel, R.; Balmino, G. 2021: Satellite Gravimetry: a Review of its Realization. Surveys in Geophysics 42(5): 1029-1074
Ciufolini, I.; Matzner, R.; Paolozzi, A.; Pavlis, E.C.; Sindoni, G.; Ries, J.; Gurzadyan, V.; Koenig, R. 2019: Satellite Laser-Ranging as a Probe of Fundamental Physics. Scientific Reports 9(1): 15881
Holloway, T.; Miller, D.; Anenberg, S.; Diao, M.; Duncan, B.; Fiore, A.M.; Henze, D.K.; Hess, J.; Kinney, P.L.; Liu, Y.; Neu, J.L.; O'Neill, S.M.; Odman, M.T.; Pierce, R.B.; Russell, A.G.; Tong, D.; West, J.J.; Zondlo, M.A. 2021: Satellite Monitoring for Air Quality and Health. Annual Review of Biomedical Data Science 4: 417-447
de Foy, B.; Lu, Z.; Streets, D.G. 2016: Satellite NO 2 retrievals suggest China has exceeded its NO x reduction goals from the twelfth Five-Year Plan. Scientific Reports 6: 35912
Oluleye, A. 2021: Satellite Observation of Spatio-temporal Variations in Nitrogen Dioxide over West Africa and Implications for Regional Air Quality. Journal of Health and Pollution 11(31): 210913
Renault, L.; McWilliams, J.C.; Masson, S. 2017: Satellite Observations of Imprint of Oceanic Current on Wind Stress by Air-Sea Coupling. Scientific Reports 7(1): 17747
Garcia-Eidell, C.; Comiso, J.C.; Dinnat, E.; Brucker, L. 2017: Satellite Observed Salinity Distributions at High Latitudes in the Northern Hemisphere: a Comparison of Four Products. Journal of Geophysical Research. Oceans 122(9): 7717-7736
Kishikawa, T.; Otsuka, M.; Yoshikawa, T.; Ohno, M.; Ijichi, H.; Koike, K. 2016: Satellite RNAs promote pancreatic oncogenic processes via the dysfunction of YBX1. Nature Communications 7: 13006
Cheng, J.; Song, C.; Liu, K.; Fan, C.; Ke, L.; Chen, T.; Zhan, P.; Yao, J. 2022: Satellite and UAV-based remote sensing for assessing the flooding risk from Tibetan lake expansion and optimizing the village relocation site. Science of the Total Environment 802: 149928
F Almeida, C.; Bitoun, M.; Vainzof, M. 2021: Satellite cells deficiency and defective regeneration in dynamin 2-related centronuclear myopathy. FASEB journal: official publication of the Federation of American Societies for Experimental Biology 35(4): e21346
Chen, W.; Datzkiw, D.; Rudnicki, M.A. 2020: Satellite cells in ageing: use it or lose it. Open Biology 10(5): 200048
Wang, Y.Xin.; Rudnicki, M.A. 2011: Satellite cells, the engines of muscle repair. Nature Reviews. Molecular Cell Biology 13(2): 127-133
Amoroso, N.; Cilli, R.; Maggipinto, T.; Monaco, A.; Tangaro, S.; Bellotti, R. 2022: Satellite data and machine learning reveal a significant correlation between NO2 and COVID-19 mortality. Environmental Research 204(Part A): 111970
Olano, J.é M.; García-Cervigón, A.I.; Sangüesa-Barreda, G.; Rozas, V.; Muñoz-Garachana, D.; García-Hidalgo, M.; García-Pedrero, Án. 2021: Satellite data and machine learning reveal the incidence of late frost defoliations on Iberian beech forests. Ecological Applications: a Publication of the Ecological Society of America 31(3): E02288
Taubenböck, H.; Schmich, P.; Erbertseder, T.; Müller, I.; Tenikl, J.; Weigand, M.; Staab, J.; Wurm, M. 2020: Satellite data for recording health-relevant environmental conditions: examples and interdisciplinary potential. Bundesgesundheitsblatt Gesundheitsforschung Gesundheitsschutz 63(8): 936-944
Liu, Y.; Sun, C.; Sun, J.; Li, H.; Zhan, W.; Yang, Y.; Zhang, S. 2016: Satellite data lift the veil on offshore platforms in the South China Sea. Scientific Reports 6: 33623
Schiermeier, Q. 2009: Satellite data show Indian water stocks shrinking. Nature 460(7257): 789
See, L.; Fritz, S.; McCallum, I. 2014: Satellite data: Beyond sharing Earth observations. Nature 514(7521): 168
Abbott, A. 2002: Satellite delay spells shortage of star data. Nature 417(6884): 6
Stavrakou, T.; Müller, J-F.; Bauwens, M.; Boersma, K.F.; van Geffen, J. 2020: Satellite evidence for changes in the NO 2 weekly cycle over large cities. Scientific Reports 10(1): 10066
Coimbra, K.T.O.; Alcântara, E.; de Souza Filho, C.R. 2021: Satellite evidence for pervasive water eutrophication in the Doce River reservoirs following the collapse of the Fundao dam in Brazil☆. Environmental Pollution 272: 116014
Shin, S.M.; Itson-Zoske, B.; Cai, Y.; Qiu, C.; Pan, B.; Stucky, C.L.; Hogan, Q.H.; Yu, H. 2020: Satellite glial cells in sensory ganglia express functional transient receptor potential ankyrin 1 that is sensitized in neuropathic and inflammatory pain. Molecular Pain 16: 1744806920925425
Avraham, O.; Deng, P-Yue.; Jones, S.; Kuruvilla, R.; Semenkovich, C.F.; Klyachko, V.A.; Cavalli, V. 2020: Satellite glial cells promote regenerative growth in sensory neurons. Nature Communications 11(1): 4891
Bouman, J.; Ebbing, Jörg.; Fuchs, M.; Sebera, J.; Lieb, V.; Szwillus, W.; Haagmans, R.; Novak, P. 2016: Satellite gravity gradient grids for geophysics. Scientific Reports 6: 21050
Yi, H.; Wen, L. 2016: Satellite gravity measurement monitoring terrestrial water storage change and drought in the continental United States. Scientific Reports 6: 19909
Arumugam, S.V.; Thirugnanam, S.; Paramasivan, V.K.; Pradananga, R.B.; Nithya; Kameswaran, M. 2021: Satellite habilitation centres following cochlear implantation - Are they the way ahead in improving outcomes in developing countries?. International Journal of Pediatric Otorhinolaryngology 144: 110606
Prasetyo, S.Y.J.; Hartomo, K.D.; Paseleng, M.C. 2021: Satellite imagery and machine learning for identification of aridity risk in central Java Indonesia. PEERJ. Computer Science 7: E415
Rogers, D.J.; Randolph, S.E.; Snow, R.W.; Hay, S.I. 2002: Satellite imagery in the study and forecast of malaria. Nature 415(6872): 710-715
Tollefson, J. 2017: Satellite images reveal gaps in global population data. Nature 545(7653): 141-142
Macias-Fauria, M. 2018: Satellite images show China going green. Nature 553(7689): 411-413
Macias-Fauria, M. 2018: Satellite images show China going green. Nature 553(7689): 411-413
Tellman, B.; Sullivan, J.A.; Kuhn, C.; Kettner, A.J.; Doyle, C.S.; Brakenridge, G.R.; Erickson, T.A.; Slayback, D.A. 2021: Satellite imaging reveals increased proportion of population exposed to floods. Nature 596(7870): 80-86
Kerle, N. 2015: Satellite imaging: Disaster mapping by citizens is limited. Nature 517(7535): 438
Wells, K.C.; Millet, D.B.; Payne, V.H.; Deventer, M.Julian.; Bates, K.H.; de Gouw, J.A.; Graus, M.; Warneke, C.; Wisthaler, A.; Fuentes, J.D. 2020: Satellite isoprene retrievals constrain emissions and atmospheric oxidation. Nature 585(7824): 225-233
Lalitaporn, P.; Mekaumnuaychai, T. 2020: Satellite measurements of aerosol optical depth and carbon monoxide and comparison with ground data. Environmental Monitoring and Assessment 192(6): 369
Boley, A.C.; Byers, M. 2021: Satellite mega-constellations create risks in Low Earth Orbit, the atmosphere and on Earth. Scientific Reports 11(1): 10642
Lintott, C.; Lintott, P. 2020: Satellite megaclusters could fox night-time migrations. Nature 586(7831): 674
Iro, A.-K.; Agaimy, A.; Müller, S.K.; Sievert, M.; Iro, H.; Mantsopoulos, K. 2021: Satellite nodules in pleomorphic adenomas of the parotid gland: a nightmare for less invasive parotid surgery?. Oral Oncology 115: 105218
Jiang, H.; Lu, N.; Zhang, X.; Yao, L.; Bai, Y. 2021: Satellite observed cooling effects from re-vegetation on the Mongolian Plateau. Science of the Total Environment 781: 146707
Brandt, M.; Wigneron, J-Pierre.; Chave, J.; Tagesson, T.; Penuelas, J.; Ciais, P.; Rasmussen, K.; Tian, F.; Mbow, C.; Al-Yaari, A.; Rodriguez-Fernandez, N.; Schurgers, G.; Zhang, W.; Chang, J.; Kerr, Y.; Verger, A.; Tucker, C.; Mialon, A.; Rasmussen, L.Vang.; Fan, L.; Fensholt, R. 2018: Satellite passive microwaves reveal recent climate-induced carbon losses in African drylands. Nature Ecology and Evolution 2(5): 827-835
Hassan, F.; Kamruzzaman, M.; Mekalanos, J.J.; Faruque, S.M. 2010: Satellite phage TLCφ enables toxigenic conversion by CTX phage through dif site alteration. Nature 467(7318): 982-985
Sutton, M.A.; Howard, C.M. 2018: Satellite pinpoints ammonia sources globally. Nature 564(7734): 49-50
Baek, W-Kyung.; Jung, H-Sup.; Kim, T.Sung. 2020: Satellite radar observation of large surface collapses induced by the 2017 North Korea nuclear test. Scientific Reports 10(1): 17833
Larsen, P.E.; Scott, N.; Post, A.F.; Field, D.; Knight, R.; Hamada, Y.; Gilbert, J.A. 2015: Satellite remote sensing data can be used to model marine microbial metabolite turnover. Isme Journal 9(1): 166-179
Yeager, A. 2008: Satellite risks losing sight of Earth. Nature 456(7220): 292
Cyranoski, D. 2002: Satellite set to keep track of whales. Nature 415(6870): 354
Tollefson, J. 2017: Satellite snafu masked true sea-level rise for decades. Nature 547(7663): 265-266
Clery, D. 2020: Satellite swarm threatens radio array. Science 370(6514): 274-275
Panigada, S.; Donovan, G.P.; Druon, J-Noël.; Lauriano, G.; Pierantonio, N.; Pirotta, E.; Zanardelli, M.; Zerbini, A.N.; di Sciara, G.Notarbartolo. 2017: Satellite tagging of Mediterranean fin whales: working towards the identification of critical habitats and the focussing of mitigation measures. Scientific Reports 7(1): 3365
Dalton, R. 2005: Satellite tags give fresh angle on tuna quota. Nature 434(7037): 1056-1057
Heinänen, S.; Žydelis, R.ūn.; Kleinschmidt, B.; Dorsch, M.; Burger, C.; Morkūnas, J.; Quillfeldt, P.; Nehls, G. 2020: Satellite telemetry and digital aerial surveys show strong displacement of red-throated divers (Gavia stellata) from offshore wind farms. Marine Environmental Research 160: 104989
White, J.C.; Wulder, M.A.; Hermosilla, T.; Coops, N.C. 2019: Satellite time series can guide forest restoration. Nature 569(7758): 630
Brumfiel, G. 2009: Satellite to monitor carbon sinks sinks. Nature 457(7233): 1067
Robinson, D.P.; Hyland, K.; Beukes, G.; Vettan, A.; Mabadikate, A.; Jabado, R.W.; Rohner, C.A.; Pierce, S.J.; Baverstock, W. 2021: Satellite tracking of rehabilitated sea turtles suggests a high rate of short-term survival following release. Plos one 16(2): E0246241
Wang, Y.; Mi, C.; Guo, Y. 2020: Satellite tracking reveals a new migration route of black-necked cranes (Grus nigricollis) in Qinghai-Tibet Plateau. Peerj 8: E9715
Cyranoski, D. 2001: Satellite will probe mutating seeds in space. Nature 410(6831): 857
Kumar, N.; Liang, D.; Comellas, A.; Chu, A.D.; Abrams, T. 2013: Satellite-based PM concentrations and their application to COPD in Cleveland, OH. Journal of Exposure Science and Environmental Epidemiology 23(6): 637-646
Orimoloye, I.R.; Ololade, O.O.; Belle, J.A. 2021: Satellite-based application in drought disaster assessment using terra MOD13Q1 data across free state province, South Africa. Journal of Environmental Management 285: 112112
Rodell, M.; Velicogna, I.; Famiglietti, J.S. 2009: Satellite-based estimates of groundwater depletion in India. Nature 460(7258): 999-1002
Zhang, T.; He, W.; Zheng, H.; Cui, Y.; Song, H.; Fu, S. 2021: Satellite-based ground PM2.5 estimation using a gradient boosting decision tree. Chemosphere 268: 128801
Oeser, J.; Heurich, M.; Senf, C.; Pflugmacher, D.; Kuemmerle, T. 2021: Satellite-based habitat monitoring reveals long-term dynamics of deer habitat in response to forest disturbances. Ecological Applications: a Publication of the Ecological Society of America 31(3): E2269
Druon, J-Noël.; Hélaouët, P.; Beaugrand, Gégory.; Fromentin, J-Marc.; Palialexis, A.; Hoepffner, N. 2019: Satellite-based indicator of zooplankton distribution for global monitoring. Scientific Reports 9(1): 4732
Gachoki, S.; Groen, T.; Vrieling, A.; Okal, M.; Skidmore, A.; Masiga, D. 2021: Satellite-based modelling of potential tsetse (Glossina pallidipes) breeding and foraging sites using teneral and non-teneral fly occurrence data. Parasites and Vectors 14(1): 506
Vasco, D.W.; Farr, T.G.; Jeanne, P.; Doughty, C.; Nico, P. 2019: Satellite-based monitoring of groundwater depletion in California's Central Valley. Scientific Reports 9(1): 16053
Li, L.; Hao, D.; Li, X.; Chen, M.; Zhou, Y.; Jurgens, D.; Asrar, G.; Sapkota, A. 2022: Satellite-based phenology products and in-situ pollen dynamics: a comparative assessment. Environmental Research 204(Part A): 111937
Merchant, C.J.; Embury, O.; Bulgin, C.E.; Block, T.; Corlett, G.K.; Fiedler, E.; Good, S.A.; Mittaz, J.; Rayner, N.A.; Berry, D.; Eastwood, S.; Taylor, M.; Tsushima, Y.; Waterfall, A.; Wilson, R.; Donlon, C. 2019: Satellite-based time-series of sea-surface temperature since 1981 for climate applications. Scientific Data 6(1): 223
He, Q.; Gao, K.; Zhang, L.; Song, Y.; Zhang, M. 2021: Satellite-derived 1-km estimates and long-term trends of PM2.5 concentrations in China from 2000 to 2018. Environment International 156: 106726
Wang, H.; Liu, H.; Huang, N.; Bi, J.; Ma, X.; Ma, Z.; Shangguan, Z.; Zhao, H.; Feng, Q.; Liang, T.; Cao, G.; Schmid, B.; He, J.-S. 2021: Satellite-derived NDVi underestimates the advancement of alpine vegetation growth over the past three decades. Ecology 102(12): E03518
He, Y.; Xu, R.; Prior, S.A.; Yang, D.; Yang, A.; Chen, J. 2021: Satellite-detected ammonia changes in the United States: Natural or anthropogenic impacts. Science of the Total Environment 789: 147899
Filippini, T.; Rothman, K.J.; Goffi, A.; Ferrari, F.; Maffeis, G.; Orsini, N.; Vinceti, M. 2020: Satellite-detected tropospheric nitrogen dioxide and spread of SARS-CoV-2 infection in Northern Italy. Science of the Total Environment 739: 140278
Puttré, M. 2003: Satellite-guided munitions. Scientific American 288(2): 66-73
Reichhardt, T. 2002: Satellite-image users fear private price hike. Nature 419(6905): 328
Romshoo, S.A.; Fayaz, M.; Meraj, G.; Bahuguna, I.M. 2020: Satellite-observed glacier recession in the Kashmir Himalaya, India, from 1980 to 2018. Environmental Monitoring and Assessment 192(9): 597
Fan, L.; Wigneron, J-Pierre.; Ciais, P.; Chave, Jérôme.; Brandt, M.; Fensholt, R.; Saatchi, S.S.; Bastos, A.; Al-Yaari, A.; Hufkens, K.; Qin, Y.; Xiao, X.; Chen, C.; Myneni, R.B.; Fernandez-Moran, R.; Mialon, A.; Rodriguez-Fernandez, N.J.; Kerr, Y.; Tian, F.; Peñuelas, J. 2019: Satellite-observed pantropical carbon dynamics. Nature Plants 5(9): 944-951
Liao, S-Kai.; Cai, W-Qi.; Liu, W-Yue.; Zhang, L.; Li, Y.; Ren, J-Gang.; Yin, J.; Shen, Q.; Cao, Y.; Li, Z-Ping.; Li, F-Zhi.; Chen, X-Wei.; Sun, L-Hua.; Jia, J-Jun.; Wu, J-Cai.; Jiang, X-Jun.; Wang, J-Feng.; Huang, Y-Mei.; Wang, Q.; Zhou, Y-Lin.; Deng, L.; Xi, T.; Ma, L.; Hu, T.; Zhang, Q.; Chen, Y-Ao.; Liu, N-Le.; Wang, X-Bin.; Zhu, Z-Cai.; Lu, C-Yang.; Shu, R.; Peng, C-Zhi.; Wang, J-Yu.; Pan, J-Wei. 2017: Satellite-to-ground quantum key distribution. Nature 549(7670): 43-47
Reichhardt, T. 2003: Satellites aim to shake up quake predictions. Nature 424(6948): 478
Tollefson, J. 2009: Satellites beam in biomass estimates. Nature 462(7275): 834-835
Hanan, N.P.; Anchang, J.Y. 2020: Satellites could soon map every tree on Earth. Nature 587(7832): 42-43
Foody, G. 2013: Satellites: Ambition for forest initiative. Nature 498(7452): 37
Wulder, M.A.; Coops, N.C. 2014: Satellites: Make Earth observations open access. Nature 513(7516): 30-31
Turner, W. 2013: Satellites: Make data freely accessible. Nature 498(7452): 37
Utsunomia, R.; Silva, Dílio.Mazzoni.Zerbinato.de.Andrade.; Ruiz-Ruano, F.J.; Goes, C.Augusto.Gomes.; Melo, S.; Ramos, L.Peres.; Oliveira, C.; Porto-Foresti, Fábio.; Foresti, F.; Hashimoto, D.Teruo. 2019: Satellitome landscape analysis of Megaleporinus macrocephalus (Teleostei, Anostomidae) reveals intense accumulation of satellite sequences on the heteromorphic sex chromosome. Scientific Reports 9(1): 5856
Fraser, D.C. 1966: Satiation and exploratory activity. Nature 212(5070): 1613-1614
Klaassen, T.; Keszthelyi, D. 2021: Satiation or satiety? more than mere semantics. Lancet 397(10279): 1060-1061
Landayan, D.; Feldman, D.S.; Wolf, F.W. 2018: Satiation state-dependent dopaminergic control of foraging in Drosophila. Scientific Reports 8(1): 5777
Wanders, A.J.; Mars, M.; Borgonjen-van den Berg, K.J.; de Graaf, C.; Feskens, E.J.M. 2014: Satiety and energy intake after single and repeated exposure to gel-forming dietary fiber: post-ingestive effects. International Journal of Obesity 38(6): 794-800
Westerterp-Plantenga, M.S.; Rolland, V.; Wilson, S.A.; Westerterp, K.R. 1999: Satiety related to 24 h diet-induced thermogenesis during high protein/carbohydrate vs high fat diets measured in a respiration chamber. European Journal of Clinical Nutrition 53(6): 495-502
Haneveld, J.K. 2010: Satisfaction. Tijdschrift Voor Diergeneeskunde 135(7): Preceding 272
Roep, B.O.; Atkinson, M.; von Herrath, M. 2004: Satisfaction (not) guaranteed: re-evaluating the use of animal models of type 1 diabetes. Nature Reviews. Immunology 4(12): 989-997
Amtha, R.; Gunardi, I.; Astoeti, T.E.; Roeslan, M.O. 2021: Satisfaction Level of the Oral Medicine Patients Using Teledentistry During the COVID-19 Pandemic: a Factor Analysis. Journal of International Society of Preventive and Community Dentistry 11(4): 414-420
Park, H.-Y.; Kwon, Y.-M.; Jun, H.-R.; Jung, S.-E.; Kwon, S.-Y. 2021: Satisfaction Survey of Patients and Medical Staff for Telephone-Based Telemedicine During Hospital Closing Due to COVID-19 Transmission. Telemedicine Journal and E-Health: the Official Journal of the American Telemedicine Association 27(7): 724-732
Sasanuma, H.; Iijima, Y.; Saito, T.; Yano, Y.; Nakama, S.; Kameda, M.; Takeshita, K. 2020: Satisfaction with Elbow Function and Return Status After Autologous Osteochondral Transplant for Capitellar Osteochondritis Dissecans in High School Baseball Players. American Journal of Sports Medicine 48(12): 3057-3065
Tedesco, D.; Makarem, G.; Mayo, J.; Loerzel, V. 2021: Satisfaction with Expectations-Based Education in Women Undergoing Breast Reconstruction. Plastic Surgical Nursing: Official Journal of the American Society of Plastic and Reconstructive Surgical Nurses 41(2): 71-84
Frances Fei, Y.; Ernst, S.D.; Dendrinos, M.L.; Quint, E.H. 2021: Satisfaction with Hormonal Treatment for Menstrual Suppression in Adolescents and Young Women with Disabilities. Journal of Adolescent Health: Official Publication of the Society for Adolescent Medicine 69(3): 482-488
Sefcik, J.S.; Hirschman, K.B.; Petrovsky, D.V.; Hodgson, N.A.; Naylor, M.D. 2021: Satisfaction with Outdoor Activities Among Northeastern U.S. Newly Enrolled Long-Term Services and Supports Recipients. Journal of Applied Gerontology: the Official Journal of the Southern Gerontological Society 40(6): 590-597
Reed, N.S.; Boss, E.F.; Lin, F.R.; Oh, E.S.; Willink, A. 2021: Satisfaction with Quality of Health Care Among Medicare Beneficiaries with Functional Hearing Loss. Medical Care 59(1): 22-28
Odumodu, I.J.; Olufunlayo, T.F.; Ogunnowo, B.E.; Kalu, M.E. 2020: Satisfaction with Services Among Attendees of Physiotherapy Outpatient Clinics in Tertiary Hospitals in Lagos State. Journal of Patient Experience 7(4): 468-478
Marshall, V.K.; Given, B.A. 2020: Satisfaction with an Interactive Voice Response System and Symptom Management Toolkit Intervention to Improve Adherence in Patients Prescribed an Oral Anticancer Agent. Oncology Nursing Forum 47(6): 637-648
Marshall, V.K.; Given, B.A. 2020: Satisfaction With an Interactive Voice Response System and Symptom Management Toolkit Intervention to Improve Adherence in Patients Prescribed an Oral Anticancer Agent. Oncology Nursing Forum 47(6): 637-648
Imai, K.; Shiroyanagi, Y.; Kim, W.J.; Ichiroku, T.; Yamazaki, Y. 2014: Satisfaction after the Malone antegrade continence enema procedure in patients with spina bifida. Spinal Cord 52(1): 54-57
Cornelis, N.; Buys, R.; Dewit, T.; Benoit, D.; Claes, J.; Fourneau, I.; Cornelissen, V.ér. 2021: Satisfaction and Acceptability of Telemonitored Home-Based Exercise in Patients with Intermittent Claudication: Pragmatic Observational Pilot Study. Jmir Rehabilitation and Assistive Technologies 8(1): E18739
Verger, S.à; Riquelme, I.; Bagur, S.; Paz-Lourido, B. 2021: Satisfaction and Quality of Life of Families Participating in two Different Early Intervention Models in the Same Context: a Mixed Methods Study. Frontiers in Psychology 12: 650736
Wallace, A.S.; Culbert, M.; Rocque, G.; Keene, K.S. 2021: Satisfaction and Regret With Decision Making in Older Women With Breast Cancer. International Journal of Radiation Oncology Biology Physics 111(3s): E215-E216
Hebb, A.; Kistler, M.; George, E.; Zamboni, B. 2021: Satisfaction and Technology Acceptance of Staff Regarding use of Continuous Video Monitoring in Comparison with Sitters. Journal of Nursing Administration 51(2): 60-62
McMaster, C.M.; Cohen, J.; Alexander, S.; Neal, R.; Gow, M.L.; Calleja, E.; Signorelli, C.; Tan, E.J.; Williams, K.; Sim, K.; Leong, G.; Baur, L.A. 2020: Satisfaction and acceptability of paediatric weight management services amongst parents and carers: a mixed-methods study. Clinical Obesity 10(6): E12391
Aga, T.B.; Ferede, Y.M.; Mekonen, E.G. 2021: Satisfaction and associated factors towards inpatient health care services among adult patients at Pawie General Hospital, West Ethiopia. Plos one 16(4): E0249168
Deng, Y.-W.; Wen, J.; Zhao, J.; Cheng, H.-J. 2021: Satisfaction and clinical assessment of 56 adult patients with biofunctional complete denture. Shanghai Kou Qiang Yi Xue 30(3): 328-331
Stovall, D.W.; Aqua, K.; Römer, T.; Donders, G.; Sørdal, T.; Hauck, B.; Llata, E.Saucedo.de.la.; Kallner, H.Kopp.; Salomon, J.; Zvolanek, M.; Frenz, A-Kathrin.; Böhnke, T.; Bauerfeind, A. 2021: Satisfaction and continuation with LNG-IUS 12: findings from the real-world kyleena ® satisfaction study. European Journal of Contraception and Reproductive Health Care: the Official Journal of the European Society of Contraception 2021: 1-11
Allgood, S.; Zemlak, J.L.; Dellon, E.; Kapnadak, S.G.; Goggin, J.; Lechtzin, N. 2022: Satisfaction and effectiveness of opioid pain management among adults with cystic fibrosis: a mixed methods study. Journal of Cystic Fibrosis: Official Journal of the European Cystic Fibrosis Society 21(1): E15-E22
Widodo, D.W.; Mars, R.; Suwento, R.; Alviandi, W.; Oriza, I.I.D.; Bardosono, S. 2021: Satisfaction and health-related quality of life of patients with microtia following reconstructive surgery using the Nagata technique. Plos one 16(9): E0256652
Dana, E.; Asefa, Y.; Hirigo, A.Tadewos.; Yitbarek, K. 2020: Satisfaction and its associated factors of infants' vaccination service among infant coupled mothers/caregivers at Hawassa city public health centers. Human Vaccines and Immunotherapeutics 2020: 1-8
Vélez-Díaz-Pallarés, M.; Gramage-Caro, T.; Rodríguez-Sagrado, M.Án.; Montero-Llorente, B.; Bermejo-Vicedo, T. 2020: Satisfaction and knowledge among patients with HIV after switching from tenofovir to tenofovir alafenamide in regimens containing emtricitabine and rilpivirine. Biomedica: Revista del Instituto Nacional de Salud 40(Supl. 1): 132-138
Trevisan, E.; Haas, V.J.é; Castro, S.d.S. 2019: Satisfaction and work overload at Psychosocial Care Centers - Alcohol and Drugs in the Minas Triangle region, Brazil. Revista Brasileira de Medicina do Trabalho: Publicacao Oficial da Associacao Nacional de Medicina do Trabalho-Anamt 17(4): 511-520
Casabé, A.R.; Sarotto, N.; Gutierrez, C.; Bechara, A.J. 2016: Satisfaction assessment with malleable prosthetic implant of Spectra (AMS) and Genesis (Coloplast) models. International Journal of Impotence Research 28(6): 228-233
Vázquez García, P.; Fernández-Gordón Sánchez, F.M.ía.; Algara San Nicolás, M.ía.; Yela San Bernardino, C.; Casis Herce, B.ña.; Masedo González, Án.; Gómez Gómez, G.J.ús.; Martínez Montiel, M.ía.D.P. 2022: Comparison of satisfaction degree of patients treated at the Inflammatory Bowel Disease Unit (IBDU) of Hospital Universitario 12 de Octubre between previous face-to-face care and telephone care during the COVID-19 pandemic. Revista Espanola de Enfermedades Digestivas: Organo Oficial de la Sociedad Espanola de Patologia Digestiva 114(1): 58-59
Cheng, W.-J.; Hung, K.-C.; Ho, C.-H.; Yu, C.-H.; Chen, Y.-C.; Wu, M.-P.; Chu, C.-C.; Chang, Y.-J. 2020: Satisfaction in parturients receiving epidural analgesia after prenatal shared decision-making intervention: a prospective, before-and-after cohort study. Bmc Pregnancy and Childbirth 20(1): 413
Pham, T.V.; Koirala, R.; Kohrt, B.A. 2020: Satisfaction in the Soul: Common Factors Theory Applied to Traditional Healers in Rural Nepal. Ethos 48(1): 93-128
Katz, L.B.; Hurrell, G.; Venugopal, U.; Cameron, H.; Shearer, D.M. 2021: Satisfaction of Healthcare Professionals and people with Diabetes with an Insulin Bolus Calculator Mobile Application. Journal of Diabetes Science and Technology 15(4): 885-890
Jiang, N.; Yang, P.; Liu, S.; Li, H.; Wu, L.; Shi, X.; Fang, Y.; Zhao, Y.; Xu, J.; Jiang, Z.; Wu, Z.; Duan, X.; Wang, Q.; Tian, X.; Li, M.; Zeng, X. 2020: Satisfaction of Patients and Physicians with Treatments for Rheumatoid Arthritis: a Population-Based Survey in China. Patient Preference and Adherence 14: 1037-1047
Bernardeco, J.; Silva, R.; Pereira, S.; Barros, J.; Carvalho, R. 2021: Satisfaction of Pregnant Women in an Obstetric Ultrasound Unit During the COVID-19 Pandemic. Acta Medica Portuguesa 34(2): 166
De La Cruz-Ramirez, Y.M.; Olaza-Maguiña, A.F. 2021: Satisfaction of Quechua-speaking indigenous pregnant women from a rural community in Peru with telemonitoring during the COVID-19 pandemic. International Journal of Gynaecology and Obstetrics: the Official Organ of the International Federation of Gynaecology and Obstetrics 155(2): 201-202
Hooshmand, S.; Cho, J.; Singh, S.; Govindarajan, R. 2021: Satisfaction of Telehealth in Patients with Established Neuromuscular Disorders. Frontiers in Neurology 12: 667813
Aarestrup, M.F.; Aarestrup, P.F.; de Andrade, M.S.; Aarestrup, B.J.ão.V.; Nagato, A.C.; Aarestrup, F.M. 2021: Satisfaction of allergic patients treated with house dust mite sublingual immunotherapy. International Journal of Immunopathology and Pharmacology 35: 20587384211015528
Adamchuk, D.V.; Arinushkina, A.A.; Neustroev, S.S. 2020: Satisfaction of parents of schoolchildren with various aspects of the food management system at schools: Data from Russia. Data in Brief 31: 105725
Louvel, L.; Lorrain, S.; von Theobald, P. 2021: Satisfaction of patients in pain management delivering in Reunion Island with or without neuraxial analgesia. Journal of Gynecology Obstetrics and Human Reproduction 50(6): 102106
Kintzle, S.; Rivas, W.A.; Castro, C.A. 2022: Satisfaction of the use of Telehealth and Access to Care for Veterans During the COVID-19 Pandemic. Telemedicine Journal and E-Health: the Official Journal of the American Telemedicine Association 28(5): 706-711
Moraleda, S.; Hachoue, Z.; Abdel-Muti, E.; Ruiz, G.; Díez Sebastián, J.; Lassaletta, L. 2020: Satisfaction survey of patients with sequels of peripheral facial palsy treated with botulinum toxin a. Rehabilitacion 54(4): 254-259
Vialoles, N.; Fabre, Él.; Vidal, G.èv.; Battut, C.; Despiau, F.éd.ér.; Gangloff, D.; Meresse, T.; Kolsi, K. 2020: Satisfaction survey within the context of remote iconographic follow-up of wounds in an oncology centre. Soins; la Revue de Reference Infirmiere 65(845): 20-22
Hoang, M.T.; Kåreholt, I.; von Euler, M.; von Koch, L.; Eriksdotter, M.; Garcia-Ptacek, S. 2021: Satisfaction with Stroke Care Among Patients with Alzheimer's and other Dementias: a Swedish Register-Based Study. Journal of Alzheimer's Disease: Jad 79(2): 905-916
Beaudreau, S.A.; Van Moorleghem, K.; Dodd, S.M.; Liou-Johnson, V.; Suresh, M.; Gould, C.E. 2020: Satisfaction with a Vacuum Constriction Device for Erectile Dysfunction among Middle-Aged and Older Veterans. Clinical Gerontologist 2020: 1-9
Coventry, P.; Bower, P.; Blakemore, A.; Baker, E.; Hann, M.; Li, J.; Paisley, A.; Gibson, M. 2019: Satisfaction with a digitally-enabled telephone health coaching intervention for people with non-diabetic hyperglycaemia. Npj Digital Medicine 2: 5
Pitathawatchai, P.; Anuntaseree, S.; Yuenyongviwat, V. 2021: Satisfaction with an In-House Nasal Foreign Body Removal Manikin: a Randomized Controlled Trial. Medical Devices 14: 249-256
Willems, L.M.; Baier, H.; Bien, C.G.; Bösebeck, F.; Dümpelmann, M.; Hamer, H.M.; Kellinghaus, C.; Knake, S.; Schreiber, M.; Staack, A.M.; Surges, R.; Tergau, F.; von Podewils, F.; Weber, Y.; Wehner, T.; Winter, Y.; Philipp Zöllner, J.; Strzelczyk, A.; Rosenow, F. 2021: Satisfaction with and reliability of in-hospital video-EEG monitoring systems in epilepsy diagnosis - a German multicenter experience. Clinical Neurophysiology: Official Journal of the International Federation of Clinical Neurophysiology 132(9): 2317-2322
Torrecilla-Olavarrieta, Río.; Pérez-Revuelta, Jé.; García-Spínola, E.; López Martín, Ángela.; Mongil-SanJuan, Jé.María.; Rodríguez-Gómez, C.; Villagrán-Moreno, Jé.María.; González-Saiz, F. 2020: Satisfaction with antipsychotics as a medication: the role of therapeutic alliance and patient-perceived participation in decision making in patients with schizophrenia spectrum disorder. International Journal of Psychiatry in Clinical Practice 2020: 1-9
Kirchgessner, J.; Perera-Chang, M.; Klinkner, G.; Soley, I.; Marcelli, D.; Arkossy, O.; Stopper, A.; Kimmel, P.L. 2006: Satisfaction with care in peritoneal dialysis patients. Kidney International 70(7): 1325-1331
Eltahir, Y.; Bosma, E.; Teixeira, N.; Werker, P.M.N.; de Bock, G.H. 2020: Satisfaction with cosmetic outcomes of breast reconstruction: Investigations into the correlation between the patients' Breast-Q outcome and the judgment of panels. Jpras Open 24: 60-70
Lawal, F.B.; Oke, G.A. 2021: Satisfaction with dental condition and oral health-related quality of life of school-age children with dental pain in Ibadan, Nigeria. Sage Open Medicine 9: 20503121211025944
Clark-Jones, F. 1999: Satisfaction with health care: the adolescent's perspective. Journal of Child and Family Nursing 2(2): 97-98
Salim, N.A.; Meyad, S.H.; Sawair, F.A.; Satterthwaite, J.D.; Sartawi, S. 2021: Satisfaction with healthcare services among refugees in Zaatari camp in Jordan. Bmc Health Services Research 21(1): 507
Fong, V.; Gardiner, E.; Iarocci, G. 2021: Satisfaction with informal supports predicts resilience in families of children with autism spectrum disorder. Autism: the International Journal of Research and Practice 25(2): 452-463
Kubo, A.; Yoshikawa, K.; Onoda, K. 2021: Satisfaction with learning and life in physical therapy student: a 4 year longitudinal study. Journal of Physical Therapy Science 33(3): 209-212
Fortmann, A.L.; Rutledge, T.; Corey McCulloch, R.; Shivpuri, S.; Nisenzon, A.N.; Muse, J. 2013: Satisfaction with life among veterans with spinal cord injuries completing multidisciplinary rehabilitation. Spinal Cord 51(6): 482-486
Wimmelmann, C.Lawaetz.; Andersen, N.Kirstine.; Grønkjaer, M.Stjerne.; Hegelund, E.Rune.; Flensborg-Madsen, T. 2021: Satisfaction with life and SF-36 vitality predict risk of ischemic heart disease: a prospective cohort study. Scandinavian Cardiovascular Journal: Scj 2021: 1-7
Barclay, L.; New, P.W.; Morgan, P.E.; Guilcher, S.J.T. 2019: Satisfaction with life, health and well-being: comparison between non-traumatic spinal cord dysfunction, traumatic spinal cord injury and Australian norms. Spinal Cord Series and Cases 5: 50
Barclay, L.; New, P.W.; Morgan, P.E.; Guilcher, S.J.T. 2019: Satisfaction with life, health and well-being: comparison between non-traumatic spinal cord dysfunction, traumatic spinal cord injury and Australian norms. Spinal Cord Series and Cases 5(1): 50
Özkan, Şi.; Chiang, C.; Aba, G.ök.; Çelik, Y. 2020: Satisfaction with maternal and birth services: a survey in public hospitals in Turkey. International Journal of Health Care Quality Assurance 33(4-5): 363-372
Myller, J.P.; Luukkainen, A.T.; Huhtala, H.S.A.; Torkkeli, T.V.M.; Rautiainen, M.E.P.; Toppila-Salmi, S.K. 2013: Satisfaction with maxillary sinus surgery might be influenced by risk factors. Allergy and Rhinology 4(1): 6-12
Kahilogullari, A.K.; Alatas, E.; Ertugrul, F.; Malaj, A. 2020: Satisfaction with mental health and psycho-social support services provided to Syrians under temporary protection in Turkey, evidence from refugee health training centers. Journal of Migration and Health: 1-2: 100022
Lindberg, L.Glahder.; Mundy, S.Skriver.; Kristiansen, M.; Johansen, K.Schepelern.; Carlsson, J. 2019: Satisfaction with mental health treatment among patients with a non-Western migrant background: a survey in a Danish specialized outpatient mental health clinic. European Journal of Public Health 29(4): 700-705
Rushton, P.W.; Miller, W.C.; Mortenson, W.B.; Garden, J. 2010: Satisfaction with participation using a manual wheelchair among individuals with spinal cord injury. Spinal Cord 48(9): 691-696
Pérez-Villalobos, C.; Ventura-Ventura, J.; Spormann-Romeri, C.; Melipillán, R.; Jara-Reyes, C.; Paredes-Villarroel, X.; Rojas-Pino, M.; Baquedano-Rodríguez, M.; Castillo-Rabanal, I.; Parra-Ponce, P.; Bastías-Vega, N.; Alvarado-Figueroa, D.éb.; Matus-Betancourt, O. 2021: Satisfaction with remote teaching during the first semester of the COVID-19 crisis: Psychometric properties of a scale for health students. Plos one 16(4): E0250739
King, R.; Marumo, K.; Paick, J-S.; Zhang, K.; Shah, R.; Pangkahila, W.; Yip, A.W-C.; Jiann, B-P.; Ong, M-L. 2011: Satisfaction with sex and erection hardness: results of the Asia-Pacific sexual health and overall wellness survey. International Journal of Impotence Research 23(4): 135-141
Yoo, K.Han.; Kang, D.; Kim, I-Ryung.; Choi, E-Kyung.; Kim, J.Seok.; Yoon, S-Soo.; Lee, C.Hwan.; Park, S.; Kim, S.Jin.; Kim, K.; Kim, W.Seog.; Jung, C.Won.; Choi, H.Jin.; Jang, J.Ho.; Cho, J. 2018: Satisfaction with sexual activity and sexual dysfunction in hematopoietic stem cell transplantation survivors and their partners: a couple study. Bone Marrow Transplantation 53(8): 967-976
Vogel, J.S.; Bruins, J.; de Jong, S.; Knegtering, H.; Bartels-Velthuis, A.A.; Bruggeman, R.; Jörg, F.; Pijnenborg, M.G.H.M.; Veling, W.; Visser, E.; van der Gaag, M.; Castelein, S. 2021: Satisfaction with social connectedness as a predictor for positive and negative symptoms of psychosis: a PHAMOUS study. Schizophrenia Research 238: 121-127
Fernández-García, D.; Moreno-Latorre, E.; Giménez-Espert, M.ía.D.C.; Prado-Gascó, V. 2021: Satisfaction with the clinical practice among nursing students using regression models and qualitative comparative analysis. Nurse Education Today 100: 104861
Amorim, J.S.C.d.; Teixeira, L.B.; Ferla, A.ôn.A. 2020: Satisfaction with the organization of care among elderly users of the services assessed by the PMAQ. Ciencia and Saude Coletiva 25(9): 3625-3634
Shibalkov, I.P.; Nedospasova, O.P.; Pavlova, I.A.; Rozhdestvenskaia, E.M. 2021: Satisfaction with the quality of life in the Russian regions in the context of realizing the resource potential of elderly people. Advances in Gerontology 34(3): 454-460
Andrews, E.; Berghofer, K.; Long, J.; Prescott, A.; Caboral-Stevens, M. 2020: Satisfaction with the use of telehealth during COVID-19: An integrative review. International Journal of Nursing Studies Advances 2: 100008
Rouzaud Laborde, C.; Cenko, E.; Mardini, M.T.; Nerella, S.; Kheirkhahan, M.; Ranka, S.; Fillingim, R.B.; Corbett, D.B.; Weber, E.; Rashidi, P.; Manini, T. 2021: Satisfaction, Usability, and Compliance with the use of Smartwatches for Ecological Momentary Assessment of Knee Osteoarthritis Symptoms in Older Adults: Usability Study. Jmir Aging 4(3): E24553
Van der Valk, M.R.; Wolterbeek, N.; van Assen, T.; Veen, M.R. 2022: Satisfaction, functional outcomes and predictors in hip arthroscopy: a cohort study. Hip International: the Journal of Clinical and Experimental Research on Hip Pathology and Therapy 32(2): 246-252
Williams, K.N.; Shaw, C.A.; Perkhounkova, Y.; Hein, M.; Coleman, C.K. 2021: Satisfaction, utilization, and feasibility of a telehealth intervention for in-home dementia care support: a mixed methods study. Dementia 20(5): 1565-1585
Takahashi, E.; Kaneuji, A.; Florissi, I.; Bragdon, C.R.; Malchau, H.; Kawahara, N. 2021: Satisfactory Outcomes in Patients Operated with Primary Total Hip Arthroplasty for Perthes-like Deformities: Results from a Surgical Technique Utilizing a Conical Stem, an Elevated Hip Center, and no Shortening Femoral Osteotomy. Arthroplasty Today 7: 29-36
Prescott-Clements, L.; Hurst, Y.; Rennie, J.S. 2003: Satisfactory completion of dental vocational training in Scotland: a system of assessment. British Dental Journal Suppl: 17-21
Reigstad, O.; Grimsgaard, C.; Holm-Glad, T.; Korslund, J.; Thorkildsen, R.D.; Røkkum, M. 2020: Satisfactory function 12 years after triscaphoid arthrodesis for chronic scapholunate ligament injury. Journal of Plastic Surgery and Hand Surgery 54(4): 233-239
Rikken, Q.G.H.; Dahmen, J.; Stufkens, S.A.S.; Kerkhoffs, G.M.M.J. 2021: Satisfactory long-term clinical outcomes after bone marrow stimulation of osteochondral lesions of the talus. Knee Surgery Sports Traumatology Arthroscopy: Official Journal of the Esska 29(11): 3525-3533
Lau, L.C.M.; Fan, J.C.H.; Chung, K.-Y.; Cheung, K.-W.; Man, G.C.W.; Hung, Y.-W.; Kwok, C.K.B.; Ho, K.K.W.; Chiu, K.-H.; Yung, P.S.H. 2021: Satisfactory long-term survival, functional and radiological outcomes of open-wedge high tibial osteotomy for managing knee osteoarthritis: Minimum 10-year follow-up study. Journal of Orthopaedic Translation 26: 60-66
Mancino, F.; De Martino, I.; Burrofato, A.; De Ieso, C.; Saccomanno, M.F.; Maccauro, G.; De Santis, V. 2020: Satisfactory mid-term outcomes of condylar-constrained knee implants in primary total knee arthroplasty: clinical and radiological follow-up. Journal of Orthopaedics and Traumatology: Official Journal of the Italian Society of Orthopaedics and Traumatology 21(1): 22
Ross, B. 2005: Satisfactory occlusal relations for the individual with a craniofacial anomaly. International Journal of Prosthodontics 18(4): 282-283
Sinharay, R.; Griffiths, W.J.H. 2021: Satisfactory outcomes in orthotopic liver transplantation for hepatic sarcoidosis: the UK experience. Transplant Immunology 68: 101442
Wilson, N.M.; Shaw, J.T.; Malaba, M.; Yugusuk, F.L.T.; Nyambati, P.; Siy, A.B.; Galat, D.D.; Koech, K.; Nugent, D.; Whiting, P.S. 2019: Satisfactory postoperative alignment following retrograde SIGN Fin nailing for femoral shaft fractures: a case-control study. Ota International: the Open Access Journal of Orthopaedic Trauma 2(3): E024
Asseff, A.E. 1948: Satisfactory results in root canal treatments. El Cooperador Dental; Cooperativismo Informacion y Ciencia Odontologica 16(2): 105-109
Cubiró, X.; Garcia-Melendo, C.; Morales-Munera, C.E.; Roé-Crespo, E.; Riera-Mestre, A.; Mora-Luján, J.é M.ía.; Iriarte, A.; Puig, L.ís.; Baselga, E.àl. 2021: Satisfactory treatment of mucocutaneous lesions in hereditary hemorrhagic telangiectasia patients with dual pulsed dye laser and neodymium: yttrium-aluminum-garnet. Dermatologic Therapy 34(6): E15124
Wannheden, C.; Stenfors, T.; Stenling, A.; von Thiele Schwarz, U. 2020: Satisfied or Frustrated? a Qualitative Analysis of Need Satisfying and Need Frustrating Experiences of Engaging with Digital Health Technology in Chronic Care. Frontiers in Public Health 8: 623773
Camacho, F. 1997: Satisfied patients and physicians. Medicina Clinica 109(12): 476-477
Gruebele, M.; Wolynes, P.G. 1998: Satisfying turns in folding transitions. Nature Structural Biology 5(8): 662-665
D'hooghe, M.; Willekens, B.; Delvaux, V.; D'haeseleer, M.; Guillaume, D.; Laureys, G.; Nagels, G.; Vanderdonckt, P.; Van Pesch, V.; Popescu, V. 2021: Sativex® (nabiximols) cannabinoid oromucosal spray in patients with resistant multiple sclerosis spasticity: the Belgian experience. Bmc Neurology 21(1): 227
Nistri, M. 1948: Sato and Kuribayashi's controstriatal blood picture in human neuropathology. Rassegna di Neuropsichiatria e Scienze Affini 2(4): 301-309
Heyka, R. 2020: Satoru Nakamoto M.D. References 44(12): 1246-1247
Gao, Y.; Zhang, B.; Yang, J. 2021: Satralizumab for the Treatment of Neuromyelitis Optica Spectrum Disorders. Annals of PharmacoTherapy 55(9): 1167-1171
Heo, Y.-A. 2020: Satralizumab: first Approval. Drugs 80(14): 1477-1482
Paton, D.M. 2021: Satralizumab: an interleukin-6 (IL-6) receptor antagonist for the treatment of neuromyelitis optica spectrum disorders. Drugs of Today 57(3): 209-218
Yoneda, H.; Inubushi, Y.; Yabashi, M.; Katayama, T.; Ishikawa, T.; Ohashi, H.; Yumoto, H.; Yamauchi, K.; Mimura, H.; Kitamura, H. 2014: Saturable absorption of intense hard X-rays in iron. Nature Communications 5: 5080
Wang, J.; Coillet, A.; Demichel, O.; Wang, Z.; Rego, D.; Bouhelier, A.; Grelu, P.; Cluzel, B. 2020: Saturable plasmonic metasurfaces for laser mode locking. Light Science and Applications 9: 50
Wang, J.; Coillet, A.; Demichel, O.; Wang, Z.; Rego, D.; Bouhelier, A.; Grelu, P.; Cluzel, B. 2020: Saturable plasmonic metasurfaces for laser mode locking. Light Science and Applications 9(1): 50
Bito, L.Z. 1975: Saturable, energy-dependent, transmembrane transport of prostaglandins against concentration gradients. Nature 256(5513): 134-136
Denisenko, A.; Garbuz, P.; Shishkina, S.V.; Voloshchuk, N.M.; Mykhailiuk, P.K. 2020: Saturated Bioisosteres of ortho-Substituted Benzenes. Angewandte Chemie 59(46): 20515-20521
Astrup, A.; Magkos, F.; Bier, D.M.; Brenna, J.Thomas.; de Oliveira Otto, M.C.; Hill, J.O.; King, J.C.; Mente, A.; Ordovas, J.M.; Volek, J.S.; Yusuf, S.; Krauss, R.M. 2020: Saturated Fats and Health: A Reassessment and Proposal for Food-Based Recommendations: JACC State-of-the-Art Review. Journal of the American College of Cardiology 76(7): 844-857
Berg, J.; Seyedsadjadi, N.; Grant, R. 2020: Saturated Fatty Acid Intake Is Associated with Increased Inflammation, Conversion of Kynurenine to Tryptophan, and Delta-9 Desaturase Activity in Healthy Humans. International Journal of Tryptophan Research: Ijtr 13: 1178646920981946
Qin, Y.-E.; Duan, L.; He, Y.; Yuan, C.; Wang, T.; Yuan, D.; Zhang, C.; Liu, C. 2020: Saturated Fatty Acids Promote Hepatocytic Senecence through Regulation of miR-34a/Cyclin-Dependent Kinase 6. Molecular Nutrition and Food Research 2020: E2000383
Kokotou, M.G.; Kokotos, A.C.; Gkikas, D.; Mountanea, O.G.; Mantzourani, C.; Almutairi, A.; Lei, X.; Ramanadham, S.; Politis, P.K.; Kokotos, G. 2020: Saturated Hydroxy Fatty Acids Exhibit a Cell Growth Inhibitory Activity and Suppress the Cytokine-Induced β-Cell Apoptosis. Journal of Medicinal Chemistry 63(21): 12666-12681
Zhan, H.; Wang, Y.; Li, K.; Chen, Y.; Yi, X.; Bai, K.; Xie, G.; Cheng, Y. 2020: Saturated Red Electroluminescence from Thermally Activated Delayed Fluorescence Conjugated Polymers. Frontiers in Chemistry 8: 332
Fernández-Felipe, J.; Merino, B.; Sanz-Martos, A.B.; Plaza, A.; Contreras, A.; Naranjo, V.; Morales, L.; Chowen, J.A.; Cano, V.; Ruiz-Gayo, M.; Del Olmo, N. 2021: Saturated and unsaturated fat diets impair hippocampal glutamatergic transmission in adolescent mice. Psychoneuroendocrinology 133: 105429
Allott, E.H.; Arab, L.; Su, L.J.; Farnan, L.; Fontham, E.T.H.; Mohler, J.L.; Bensen, J.T.; Steck, S.E. 2017: Saturated fat intake and prostate cancer aggressiveness: results from the population-based North Carolina-Louisiana Prostate Cancer Project. Prostate Cancer and Prostatic Diseases 20(1): 48-54
Nakajima, S.; Fukasawa, K.; Gotoh, M.; Murakami-Murofushi, K.; Kunugi, H. 2020: Saturated fatty acid is a principal cause of anxiety-like behavior in diet-induced obese rats in relation to serum lysophosphatidyl choline level. International Journal of Obesity 44(3): 727-738
Islam, M.M.; Umehara, T.; Tsujita, N.; Shimada, M. 2021: Saturated fatty acids accelerate linear motility through mitochondrial ATP production in bull sperm. Reproductive Medicine and Biology 20(3): 289-298
Xu, D.; Liang, J.; Cui, M.; Zhang, L.; Ren, S.; Zheng, W.; Dong, X.; Zhang, B. 2020: Saturated fatty acids activate the inflammatory signalling pathway in Schwann cells: Implication in sciatic nerve injury. Scandinavian Journal of Immunology 92(2): E12896
Sekar, S.; Shafie, S.Raihanah.; Prasadam, I.; Crawford, R.; Panchal, S.K.; Brown, L.; Xiao, Y. 2017: Saturated fatty acids induce development of both metabolic syndrome and osteoarthritis in rats. Scientific Reports 7: 46457
Denhez, B.; Rousseau, M.; Spino, C.; Dancosst, D-Alexandre.; Dumas, M-Ève.; Guay, Aéanne.; Lizotte, F.; Geraldes, P. 2020: Saturated fatty acids induce insulin resistance in podocytes through inhibition of IRS1 via activation of both IKKβ and mTORC1. Scientific Reports 10(1): 21628
Levi, L.; Wang, Z.; Doud, M.Kathryn.; Hazen, S.L.; Noy, N. 2015: Saturated fatty acids regulate retinoic acid signalling and suppress tumorigenesis by targeting fatty acid-binding protein 5. Nature Communications 6: 8794
Natarajan, S.K.; Bruett, T.; Muthuraj, P.G.; Sahoo, P.K.; Power, J.; Mott, J.L.; Hanson, C.; Anderson-Berry, A. 2021: Saturated free fatty acids induce placental trophoblast lipoapoptosis. Plos one 16(4): E0249907
Wu, S.; Li, X.; Ding, Y. 2021: Saturated impulsive control for synchronization of coupled delayed neural networks. Neural Networks: the Official Journal of the International Neural Network Society 141: 261-269
Chen, G.S.; Siao, S.Wun.; Shen, C.R. 2017: Saturated mutagenesis of ketoisovalerate decarboxylase V461 enabled specific synthesis of 1-pentanol via the ketoacid elongation cycle. Scientific Reports 7(1): 11284
Wang, Y.; Qian, Y.; Fang, Q.; Zhong, P.; Li, W.; Wang, L.; Fu, W.; Zhang, Y.; Xu, Z.; Li, X.; Liang, G. 2017: Saturated palmitic acid induces myocardial inflammatory injuries through direct binding to TLR4 accessory protein MD2. Nature Communications 8: 13997
Nardecchia, A.; Motto-Ros, V.; Duponchel, L. 2021: Saturated signals in spectroscopic imaging: why and how should we deal with this regularly observed phenomenon?. Analytica Chimica Acta 1157: 338389
Wang, F.; Dai, Y.; Zhu, X.; Chen, Q.; Zhu, H.; Zhou, B.; Tang, H.; Pang, S. 2021: Saturated very long chain fatty acid configures glycosphingolipid for lysosome homeostasis in long-lived C. elegans. Nature Communications 12(1): 5073
Alexander, C.; Bernstein, S.L.; Rocchi, M.; Auburger, G. 2001: Saturating density of STSs (1/6 kb) in a 1.1 Mb region on 3q28-q29: a valuable resource for cloning of disease genes. European Journal of Human Genetics: Ejhg 9(4): 307-310
Pedersen, R.L.; Sahlberg, A.-L.; Hot, D.; Li, Z. 2021: Saturation Dependence of Flame Thermometry Using Mid-IR Degenerate Four Wave Mixing. Applied Spectroscopy 75(1): 107-114
Van de Haar, M.A.; Tachikirt, M.; Berends, A.C.; Krames, M.R.; Meijerink, A.; Rabouw, F.T. 2021: Saturation Mechanisms in Common LED Phosphors. Acs Photonics 8(6): 1784-1793
Vignovich, W.P.; Pomin, V.H. 2020: Saturation Transfer Difference in Characterization of Glycosaminoglycan-Protein Interactions. Slas Technology 25(4): 307-319
Libertini, E.; Heath, S.C.; Hamoudi, R.A.; Gut, M.; Ziller, M.J.; Herrero, J.; Czyz, A.; Ruotti, V.; Stunnenberg, H.G.; Frontini, M.; Ouwehand, W.H.; Meissner, A.; Gut, I.G.; Beck, S. 2016: Saturation analysis for whole-genome bisulfite sequencing data. Nature Biotechnology 34(7): 691-693
Wang, R.P.; Elnaggar, H.; Titus, C.J.; Tomiyasu, K.; Geessinck, J.; Koster, G.; Frati, F.; Okamoto, J.; Huang, D.J.; de Groot, F.M.F. 2020: Saturation and self-absorption effects in the angle-dependent 2p3d resonant inelastic X-ray scattering spectra of Co3. Journal of Synchrotron Radiation 27(Part 4): 979-987
Delongchamps, N.B.; Haas, G.P. 2009: Saturation biopsies for prostate cancer: current uses and future prospects. Nature Reviews. Urology 6(12): 645-652
Fischer, P.; Muschet, A.; Lang, T.; Salh, R.; Veisz, L. 2021: Saturation control of an optical parametric chirped-pulse amplifier. Optics Express 29(3): 4210-4218
Kulkarni, A.C. 2021: Saturation diver fatality due to hydrogen sulphide while working on a subsea pipe line. Diving and Hyperbaric Medicine 51(1): 94-97
Findlay, G.M.; Boyle, E.A.; Hause, R.J.; Klein, J.C.; Shendure, J. 2014: Saturation editing of genomic regions by multiplex homology-directed repair. Nature 513(7516): 120-123
Kircher, M.; Xiong, C.; Martin, B.; Schubach, M.; Inoue, F.; Bell, R.J.A.; Costello, J.F.; Shendure, J.; Ahituv, N. 2019: Saturation mutagenesis of twenty disease-associated regulatory elements at single base-pair resolution. Nature Communications 10(1): 3583
Bradley, C.C.; Jones, R.G.; Birch, J.; Duxbury, G. 1970: Saturation of a molecular absorption line at 890 GHz. Nature 226(5249): 941-942
Mollon, J.D.; Polden, P.G. 1977: Saturation of a retinal cone mechanism. Nature 265(5591): 243-246
Latella, I.; Messina, R.; Biehs, S-Age.; Rubi, J.Miguel.; Ben-Abdallah, P. 2020: Saturation of radiative heat transfer due to many-body thermalization. Scientific Reports 10(1): 8938
Gyllenhammer, L.E.; Alderete, T.L.; Toledo-Corral, C.M.; Weigensberg, M.; Goran, M.I. 2016: Saturation of subcutaneous adipose tissue expansion and accumulation of ectopic fat associated with metabolic dysfunction during late and post-pubertal growth. International Journal of Obesity 40(4): 601-606
Falcon, E.; Michel, G.; Prabhudesai, G.; Cazaubiel, A.; Berhanu, M.; Mordant, N.; Aumaître, S.; Bonnefoy, F. 2020: Saturation of the Inverse Cascade in Surface Gravity-Wave Turbulence. Physical Review Letters 125(13): 134501
Kobayashi, H.; Ohi, H.; Shinohara, H.; Sugimura, M.; Fujii, T.; Terao, T.; Schmitt, M.; Goretzki, L.; Chucholowski, N.; Jänicke, F. 1993: Saturation of tumour cell surface receptors for urokinase-type plasminogen activator by amino-terminal fragment and subsequent effect on reconstituted basement membranes invasion. British Journal of Cancer 67(3): 537-544
Yim, J.; Ylivaara, O.M.E.; Ylilammi, M.; Korpelainen, V.; Haimi, E.; Verkama, E.; Utriainen, M.; Puurunen, R.L. 2020: Saturation profile based conformality analysis for atomic layer deposition: aluminum oxide in lateral high-aspect-ratio channels. Physical Chemistry Chemical Physics: Pccp 22(40): 23107-23120
Pankowska, A.; Chudzik, A.; Słowik, T.; Łazorczyk, A.; Kochalska, K.; Andres-Mach, M.; Lam, W.W.; Pietura, Rław.; Rola, Rław.; Stanisz, G.J.; Orzyłowska, A. 2021: Saturation transfer MRI is sensitive to neurochemical changes in the rat brain due to chronic unpredictable mild stress. Scientific Reports 11(1): 19040
Hall, J.L.; Sohail, A.; Cabrita, E.J.; Macdonald, C.; Stockner, T.; Sitte, H.H.; Angulo, J.; MacMillan, F. 2020: Saturation transfer difference NMR on the integral trimeric membrane transport protein GltPh determines cooperative substrate binding. Scientific Reports 10(1): 16483
Tan, Z.; Lam, W.W.; Oakden, W.; Murray, L.; Koletar, M.M.; Liu, S.K.; Stanisz, G.J. 2020: Saturation transfer properties of tumour xenografts derived from prostate cancer cell lines 22Rv1 and DU145. Scientific Reports 10(1): 21315
Davis, L.W. 2017: Saturday Driving Restrictions Fail to Improve Air Quality in Mexico City. Scientific Reports 7: 41652
Muñoz, B.E.; Quintana-Peña, V.; Gonzalez, M.C.; Valderrama, J.A.; Castaño-Pino, Y.J.; Rincón, D.; Navarro, A.és.; Orozco, J.L. 2020: Saturdays-in-Motion: Education and Empowerment through an Interdisciplinary Team Approach for Parkinson's Disease in Cali-Colombia. Parkinson's Disease 2020: 2497386
Lunine, J.I. 2004: Saturn at last!. Scientific American 290(6): 56-63
Witze, A. 2017: Saturn spacecraft begins science swan-song. Nature 544(7649): 149-150
Helled, R.; Galanti, E.; Kaspi, Y. 2015: Saturn's fast spin determined from its gravitational field and oblateness. Nature 520(7546): 202-204
Verbiscer, A.J.; Skrutskie, M.F.; Hamilton, D.P. 2009: Saturn's largest ring. Nature 461(7267): 1098-1100
Johnson, T.V.; Lunine, J.I. 2005: Saturn's moon Phoebe as a captured body from the outer Solar System. Nature 435(7038): 69-71
Shebanits, O.; Hadid, L.Z.; Cao, H.; Morooka, M.W.; Hunt, G.J.; Dougherty, M.K.; Wahlund, J-E.; Waite, J.H.; Müller-Wodarg, I. 2020: Saturn's near-equatorial ionospheric conductivities from in situ measurements. Scientific Reports 10(1): 7932
Read, P. 2011: Saturn: storm-clouds brooding on towering heights. Nature 475(7354): 44-45
Moday, I. 1946: Saturnine anemia of rabbits. Le Sang 17(8): 523-526
Ollivier, H.; Brun, R. 1949: Saturnine intoxication in appendicular form. Archives des Maladies Professionnelles de Medecine du Travail et de Securite Sociale 10(6): 518
Frommel, E.; Piquet, J.; Cuenod, C.L. 1946: Saturnine intoxication studied in the context of cellular hypovitaminosis C; Protective role of ascorbic acid. Helvetica Physiologica et Pharmacologica Acta 4(2): 301-303
Cavigneaux; Charles 1949: Saturnism and thermal cures. Archives des Maladies Professionnelles de Medecine du Travail et de Securite Sociale 10(6): 503-506
Small, D.M.; Bernstein, M. 1979: Sauce Béarnaise. New England Journal of Medicine 301(5): 276-277
Wharton, C.H. 1979: Sauce Béarnaise. New England Journal of Medicine 301(5): 276
Van Eck, A.; Franks, E.; Vinyard, C.J.; Galindo-Cuspinera, V.ón.; Fogliano, V.; Stieger, M.; Scholten, E. 2020: Sauce it up: influence of condiment properties on oral processing behavior, bolus formation and sensory perception of solid foods. Food and Function 11(7): 6186-6201
Perkins, C.A.; Busch, M.T.; Christino, M.A.; Willimon, S.C. 2021: Saucerization and Repair of Discoid Lateral Menisci with Peripheral Rim Instability: Intermediate-term Outcomes in Children and Adolescents. Journal of Pediatric Orthopedics 41(1): 23-27
Jiao, Y.; Kim, S.Chan.; Wang, Y.; Wu, T.; Jin, H.; Lee, C.Won.; Park, S.Jahr.; Lee, B.Hyo.; Kim, H.Young.; Yang, C.Ha.; Zhao, Z.; Zhao, R. 2021: Sauchinone Blocks Ethanol Withdrawal-Induced Anxiety but Spares Locomotor Sensitization: Involvement of Nitric Oxide in the Bed Nucleus of the Stria Terminalis. Evidence-BasedComplementaryandAlternativeMedicine:Ecam 2021: 6670212
Chae, H-Sung.; You, B.Hoon.; Kim, D-Yeop.; Lee, H.; Ko, H.Wan.; Ko, H-Jeong.; Choi, Y.Hee.; Choi, S.Shim.; Chin, Y-Won. 2018: Sauchinone controls hepatic cholesterol homeostasis by the negative regulation of PCSK9 transcriptional network. Scientific Reports 8(1): 6737
Zhou, D.; He, L. 2021: Sauchinone inhibits hypoxia-induced invasion and epithelial-mesenchymal transition in osteosarcoma cells via inactivation of the sonic hedgehog pathway. Journal of Receptor and Signal Transduction Research 2021: 1-7
Li, S.-Q.; Feng, J.; Yang, M.; Ai, X.-P.; He, M.; Liu, F. 2020: Sauchinone: a prospective therapeutic agent-mediated EIF4EBP1 down-regulation suppresses proliferation, invasion and migration of lung adenocarcinoma cells. Journal of Natural Medicines 74(4): 777-787
BinDhim, N.F.; Althumiri, N.A.; Basyouni, M.H.; Alageel, A.A.; Alghnam, S.; Al-Qunaibet, A.M.; Almubarak, R.A.; Aldhukair, S.; Ad-Dab'bagh, Y. 2021: Saudi Arabia Mental Health Surveillance System (MHSS): mental health trends amid COVID-19 and comparison with pre-COVID-19 trends. European Journal of Psychotraumatology 12(1): 1875642
Abbott, A. 2015: Saudi Arabia opens top-notch laser lab. Nature 518(7539): 281-282
Ahmad, A.; Alkharfy, K.M.; Alrabiah, Z.; Alhossan, A. 2020: Saudi Arabia, pharmacists and COVID-19 pandemic. Journal of Pharmaceutical Policy and Practice 13: 41
Raffa, L.H.; Aljehani, R.; Alguydi, H.; Aljuhani, M.M. 2020: Saudi Children's Perception of Strabismus: a Hospital-Based Study. Middle East African Journal of Ophthalmology 27(4): 218-223
Awan, Z.A.; Rashidi, O.M.; Al-Shehri, B.A.; Jamil, K.; Elango, R.; Al-Aama, J.Y.; Hegele, R.A.; Banaganapalli, B.; Shaik, N.A. 2021: Saudi Familial Hypercholesterolemia Patients with Rare LDLR Stop Gain Variant Showed Variable Clinical Phenotype and Resistance to Multiple Drug Regimen. Frontiers in Medicine 8: 694668
Saadah, O.I.; ALsaiari, A.S.; Al-Mughales, J.A. 2020: Saudi children with celiac disease: are they at risk of developing type-1 diabetes mellitus?. Journal of Pediatric Endocrinology and Metabolism: Jpem 2020
Alharbi, F.Ali.; Maghfuri, N.Magbul.; Abdu, D.Mohammed.; Redine, M.Yahya. 2020: Saudi neurology residents' knowledge and attitudes toward intravenous thrombolysis in patients with acute ischemic stroke. Journal of Family Medicine and Primary Care 9(1): 192-196
Almufarriji, R.M.; Alobaid, A.O.; Alsubaie, F.A. 2020: Saudi neurosurgery residency and COVID-19: how are we coping?. Neurosciences 25(5): 343-344
Shdaifat, E.; Al-Shdayfat, N.; Sudqi, A. 2020: Saudi nursing students' pain management knowledge and attitudes. Nursing Open 7(6): 1833-1839
Habeeb, K.A.; Alarfaj, G. 2020: Saudi parents awareness regarding burn, choking, and drowning first aid in children. Journal of Family Medicine and Primary Care 9(3): 1370-1375
Al Qadrah, B.H.; Al-Saleh, A.M.; Al-Sayyari, A. 2021: Saudi pediatric residents' confidence in handling ethical situations and factors influencing it. International Journal of Pediatrics and Adolescent Medicine 8(3): 160-164
Alaglan, A.A.; Almousa, R.F.; Alomirini, A.A.; Alabdularazaq, E.S.; Alkheder, R.S.; Alzaben, K.A.; Alonayzan, G.A.; Saquib, J. 2020: Saudi women's physical activity habits during pregnancy. Women's Health 16: 1745506520952045
Reifegerste, D.; Harst, L.; Otto, L. 2022: Sauerbruch, STARPAHC, and SARS: Historical Perspectives on Readiness and Barriers in Telemedicine. Zeitschrift für Gesundheitswissenschaften 30(1): 11-20
Bergmann, B. 1948: Saugman's emergency lighting lamp. Laeknabladid 33(2-3): 44-48
Hoske, H. 1945: Sauna as a remedy. Lebens-Kunst; Cademario-Nachrichten 26(2): 33-40
Liikkanen, L.A.; Laukkanen, J.A. 2021: Sauna bathing frequency in Finland and the impact of COVID-19. Complementary Therapies in Medicine 56: 102594
Roca Rubio, M.Fernanda.; Eriksson, U.; Brummer, R.J.; König, J. 2021: Sauna dehydration as a new physiological challenge model for intestinal barrier function. Scientific Reports 11(1): 15514
Fauser, C. 1948: Sauna in Autumn and Winter. Volksgesundheit 41(10): 361-363
Patrick, R.P.; Johnson, T.L. 2021: Sauna use as a lifestyle practice to extend healthspan. Experimental Gerontology 154: 111509
Huong, P.Thi.Thanh.; Tai, B.Huu.; Nhiem, N.Xuan.; Cuong, N.Xuan.; Quang, T.Hong.; Thu, V.Kim.; Yen, P.Hai.; Kiem, P.Van. 2021: Saurobacciosides A - C: three new glycosides from Sauropus bacciformis with their cytotoxic activity. Natural Product Research 2021: 1-15
Curry Rogers, K.; D'Emic, M.; Rogers, R.; Vickaryous, M.; Cagan, A. 2011: Sauropod dinosaur osteoderms from the Late Cretaceous of Madagascar. Nature Communications 2: 564
Kim, J.Hye.; Park, J.Gwang.; Hong, Y.Han.; Shin, K.Kuk.; Kim, J.Kyeong.; Kim, Y-Dong.; Yoon, K.Dong.; Kim, K-Hee.; Yoo, B.Chul.; Sung, G-Ho.; Cho, J.Youl. 2021: Sauropus brevipes ethanol extract negatively regulates inflammatory responses in vivo and in vitro by targeting Src, Syk and IRAK1. Pharmaceutical Biology 59(1): 74-86
Song, M.; Lee, S.-Y.; Kim, M.; Park, S.; Park, J.; Kwon, Y.; Park, D.-H. 2020: Saururus chinensis-controlled allergic pulmonary disease through NF-κB/COX-2 and PGE2 pathways. Peerj 8: E10043
Hokama, A.; Miyagi, T.; Takeichi, Y.; Uema, E.; Takehara, S.; Ohira, T.; Iraha, A.; Kinjo, T.; Fujita, J. 2020: Sausage-like fingers in Crohn's disease. Intestinal Research 18(3): 341-342
Alotaibi, A.A.; Bepari, A.; Assiri, R.A.; Niazi, S.K.; Nayaka, S.; Rudrappa, M.; Nagaraja, S.K.; Bhat, M.P. 2021: Saussurea lappa Exhibits Anti-Oncogenic Effect in Hepatocellular Carcinoma, HepG2 Cancer Cell Line by Bcl-2 Mediated Apoptotic Pathway and Mitochondrial Cytochrome C Release. Current Issues in Molecular Biology 43(2): 1114-1132
Rana, H.K.; Rana, S.K.; Sun, H.; Fujikawa, K.; Luo, D.; Joshi, L.R.; Ghimire, S.K. 2021: Saussurea talungensis (Asteraceae), a new species from Humla, Nepal Himalayas. Phytokeys 176: 55-66
Oh, Y.-C.; Li, W.; Choi, J.-G. 2021: Saussureae Radix Attenuates Neuroinflammation in LPS-Stimulated Mouse BV2 Microglia via HO-1/Nrf-2 Induction and Inflammatory Pathway Inhibition. Mediators of Inflammation 2021: 6687089
Solinas, P.; Amoretti, A.; Giazotto, F. 2021: Sauter-Schwinger Effect in a Bardeen-Cooper-Schrieffer Superconductor. Physical Review Letters 126(11): 117001
Munaretto, N.; Aibinder, W.; Moran, S.; Rizzo, M. 2022: Sauve-Kapandji Remains a Viable Option for Distal Radioulnar Joint Dysfunction. Hand 17(5): 963-968
Wurster, C.M.; Rifai, H.; Zhou, B.; Haig, J.; Bird, M.I. 2019: Savanna in equatorial Borneo during the late Pleistocene. Scientific Reports 9(1): 6392
Davies, T.Jonathan.; Daru, B.H.; Bezeng, B.S.; Charles-Dominique, T.; Hempson, G.P.; Kabongo, R.M.; Maurin, O.; Muasya, A.Muthama.; van der Bank, M.; Bond, W.J. 2020: Savanna tree evolutionary ages inform the reconstruction of the paleoenvironment of our hominin ancestors. Scientific Reports 10(1): 12430
Belteczki, Z.; Rihmer, Z. 2020: Savant-syndrome - something for something?. Neuropsychopharmacologia Hungarica: a Magyar Pszichofarmakologiai Egyesulet Lapja 22(2): 60-71
Li, N.; Huang, X.; Yan, Q.; Zhang, W.; Wang, Z. 2021: Save China's blue-crowned laughingthrush. Science 373(6551): 171
Gaddis, G.M. 2020: Save Daylight Savings time. Missouri Medicine 117(5): 434-435
Likens, G.E.; Wagner, D.L. 2021: Save Earth's global observatories. Science 373(6551): 135
Parchizadeh, J.; Williams, S.T. 2017: Save Iran's cheetah from extinction. Nature 552(7683): 31
Parchizadeh, J.; Williams, S.T. 2017: Save Iran's cheetah from extinction. Nature 552(7683): 31
Campos-Arceiz, A.; Lim, T. 2019: Save Javan rhinos that survived eruption. Nature 566(7742): 39
Ussenaliyeva, A. 2020: Save Kazakhstan's shrinking Lake Balkhash. Science 370(6514): 303
Korte, S.; Luft, J.; von Keutz, A.; Runge, F.; Mecklenburg, L.; Wozniak, M.M.; Zander, S.; Ludwig, F.T.; Pajaziti, B.; Romeike, A.; Korytko, P. 2020: Save your Maximum Tolerated Dose: how to Diagnose Procedure-Related Spinal Cord Lesions After Lumbar Intrathecal Bolus Administration of Oligonucleotides in Cynomolgus Monkeys. International Journal of Toxicology 39(6): 510-517
Svendsen, J.C.; Alstrup, A.K.O.; Jensen, L.F. 2018: Save a North Sea fish from becoming museum piece. Nature 556(7700): 174
Jin, X.; Zhao, Y.; Song, W.; Zhao, T. 2021: Save for Safe: Effect of COVID-19 Pandemic on Consumers' Saving and Spending Behavior in China. Frontiers in Psychology 12: 636859
Pulliam, K.E.; Joseph, B.; Veile, R.A.; Friend, L.A.; Makley, A.T.; Caldwell, C.C.; Lentsch, A.B.; Goodman, M.D.; Pritts, T.A. 2020: Save it-don't waste it! Maximizing utilization of erythrocytes from previously stored whole blood. Journal of Trauma and Acute Care Surgery 89(4): 665-672
Powell, K. 2005: Save now, don't pay later. Nature 433(7023): 336-337
Morrison, T.H.; Hughes, T.P.; Adger, W.Neil.; Brown, K.; Barnett, J.; Lemos, M.Carmen. 2019: Save reefs to rescue all ecosystems. Nature 573(7774): 333-336
Hsu, E.; Perito, E.R.; Mazariegos, G. 2021: Save the Children: the Ethical Argument for Preferential Priority to Minors in Deceased Donor Liver Allocation. Clinical Liver Disease 17(4): 312-316
Johari, A.N. 2021: Save the Hip-Hip Surveillance in Cerebral Palsy is the Need of the Hour!!. Indian Journal of Orthopaedics 55(1): 3-4
Shime, N.; Abe, R.; Bunya, N.; Endo, T.; Fujino, Y.; Fujita, K.; Fujizuka, K.; Hagiwara, Y.; Hamaguchi, J.; Hara, Y.; Hashiba, E.; Hashimoto, S.; Hattori, N.; Hoshino, K.; Ijuin, S.; Ikeyama, T.; Ichiba, S.; Iwanaga, W.; Iwashita, Y.; Kanamoto, M.; Kaneko, H.; Kawamae, K.; Kotani, T.; Koyama, Y.; Liu, K.; Masuno, T.; Morimura, N.; Nakamura, T.; Nakane, M.; Nasu, M.; Nishida, O.; Nishimura, M.; Ochiai, K.; Ogura, T.; Ohshimo, S.; Oyama, K.; Sasaki, J.; Seo, R.; Shimazu, T.; Shime, N.; Shimizu, K.; Suzuki, H.; Takauji, S.; Takeda, S.; Takeuchi, I.; Takita, M.; Taniguchi, H. 2020: Save the ICU and save lives during the COVID-19 pandemic. Journal of Intensive Care 8: 40
Smoke, S.M.; Plotkin, S.; Patel, N.; Hilden, P. 2022: Save the Quinolones! Impact of a Non-Restrictive Fluoroquinolone Reduction Initiative on Antibiotic use and Resistance at an Urban Teaching Hospital. Journal of Pharmacy Practice 35(5): 707-710
Rizzal, A'.Fahrul.; Keliat, B.Anna.; Wardani, I.Yulia. 2021: Save the future: Enhancing substance abuse refusal skill in adolescent. Enfermeria Clinica 31 Suppl. 2: S405-S407
Page, D.C. 1997: Save the males!. Nature Genetics 17(1): 3
Maheswaran, G.; Acharja, I.P.; Sharma, L.K.; Mondal, H.S.; Mukherjee, T.; Alam, I.; Majumder, A. 2021: Save the white-bellied heron from extinction. Science 373(6561): 1317
Gewin, V. 2005: Save the world and keep a career. Nature 438(7067): 526-527
Bhargava, A. 2021: Saved by a syncretic faith? a case from 1995. Indian Journal of Medical Ethics Vi (3): 1-4
Mouritsen, O.G.; Rhatigan, P.; Cornish, M.L.; Critchley, A.T.; Pérez-Lloréns, J.é L. 2021: Saved by seaweeds: phyconomic contributions in times of crises. Journal of Applied Phycology 33(1): 443-458
Gala, Z.S.; Ayyala, H.; Viviano, S.L.; Ignatiuk, A. 2020: Saved by the SPY: Ulnar Artery Reconstruction with LCFA Graft for Hypothenar Hammer Syndrome. Eplasty 20: E10
Lilly, M.P. 2021: Saved by the collaterals. Journal of Vascular Surgery 74(1): 334
Lehoux, D. 2020: Saved by the phenomena: Law and nature in Cicero and the (Pseudo?) Platonic Epinomis. Studies in History and Philosophy of Science 81: 55-61
Tingen, J.S.; McKinley, B.P.; Rinkliff, J.M.; Cornett, W.R.; Lucas, C. 2020: Savi Scout Radar Localization Versus Wire Localization for Breast Biopsy Regarding Positive Margin, Complication, and Reoperation Rates. American Surgeon 86(8): 1029-1031
Kasem, I.; Mokbel, K. 2020: Savi Scout® Radar Localisation of Non-palpable Breast Lesions: Systematic Review and Pooled Analysis of 842 Cases. Anticancer Research 40(7): 3633-3643
Overkamp, H. 1949: Saving Blood turnover in case of Protein Deficiency. Deutsche Medizinische Wochenschrift 74(6): 172-174
Apgar, A. 2020: Saving Delaney … by white privilege: a memoir of lesbian motherhood and anti-Black ableism. Journal of Lesbian Studies 2020: 1-16
Rehman, Z.U. 2020: Saving Limbs in Diabetics: Challenges and Opportunities. Journal of the College of Physicians and Surgeons--Pakistan: Jcpsp 30(10): 1003-1004
Piazza, O. 2020: Saving Limited Resources During Covid-19 Pandemic. Translational Medicine @ Unisa 23: 20-21
Piazza, O. 2020: Saving Limited Resources During Covid-19 Pandemic. Translational Medicine @ Unisa 23: 20-21
Ashkenazi, I.; Rapaport, C. 2020: Saving Lives Versus Saving Dollars: the Acceptable Loss for Coronavirus Disease 2019. Critical Care Medicine 48(8): 1243-1244
Wang, X. 2022: Saving Lives: for the Best Outcome?. Philosophia 50(1): 337-351
Oliva, E.M.; Richardson, J.; Harvey, M.A.; Bellino, P. 2021: Saving Lives: the Veterans Health Administration (VHA) Rapid Naloxone Initiative. Joint Commission Journal on Quality and Patient Safety 47(8): 469-480
Bonomi, A.; Zeoli, A.M.; Shanahan, S.; Martin, D. 2021: Saving Lives: Working across Agencies and Individuals to Reduce Intimate Homicide among those at Greatest Risk. Journal of Family Violence 36(5): 523-526
Ilatikhameneh, H.; Ameen, T.; Novakovic, B.; Tan, Y.; Klimeck, G.; Rahman, R. 2016: Saving Moore's Law Down To 1 nm Channels With Anisotropic Effective Mass. Scientific Reports 6: 31501
Sponheimer, M.; Ryder, C.M.; Fewlass, H.; Smith, E.K.; Pestle, W.J.; Talamo, S. 2019: Saving Old Bones: a non-destructive method for bone collagen prescreening. Scientific Reports 9(1): 13928
Cordero, D.A. 2021: Saving our Healthcare Workers Again During the COVID-19 Pandemic in the Philippines. Journal of Preventive Medicine and Public Health 54(5): 380-381
Lee, Y.; Jung, S.J. 2021: Saving our Healthcare Workers Again During the COVID-19 Pandemic in the Philippines. Journal of Preventive Medicine and Public Health 54(5): 382-383
Lexa, F.J.; Golding, L.P. 2021: Saving Private Practice: Size and Sustainability in the 21st Century. Journal of the American College of Radiology: Jacr 18(6): 789-791
Edlund, J.E.; Cuccolo, K.; Irgens, M.S.; Wagge, J.R.; Zlokovich, M.S. 2022: Saving Science Through Replication Studies. Perspectives on Psychological Science: a Journal of the Association for Psychological Science 17(1): 216-225
Darcey, J. 2018: Saving Smiles Trauma Toolkit launched. British Dental Journal 224(3): 129
Rinaldi, A. 2006: Saving a fragile legacy. Biotechnology and microbiology are increasingly used to preserve and restore the world's cultural heritage. Embo Reports 7(11): 1075-1079
Harrington, M. 2011: Saving a species bedeviled by cancer. Lab Animal 40(8): 232
Li, R.; Hu, S.; Chen, P.; Jiang, J.; Cui, G.; Wang, D.-W. 2021: Saving critically ill COVID-19 patients with mechanical circulatory support. Annals of Translational Medicine 9(15): 1221
Ewald, J.; Sterner, T.; Ó Broin, E.; Mata, Érika. 2021: Saving energy in residential buildings: the role of energy pricing. ClimaticChange 167(1-2): 18
Keener, A.B. 2016: Saving face: The search for alternatives to life-long immunosuppression for face transplants. Nature Medicine 22(5): 448-449
McKeown, S.Jane.; Bronner-Fraser, M. 2008: Saving face: rescuing a craniofacial birth defect. Nature Medicine 14(2): 115-116
Gilbert, N. 2021: Saving hawksbill sea turtles from rats, cats and Hurricane Ida. Nature 598(7881): 532
Paiva, S-Lynn. 2020: Saving hearts with HDAC inhibition. Nature Reviews. Drug Discovery 19(2): 92
Lin, C.; Qi, J.; Liang, S.; Feng, C.; Wiedmann, T.O.; Liao, Y.; Yang, X.; Li, Y.; Mi, Z.; Yang, Z. 2020: Saving less in China facilitates global CO 2 mitigation. Nature Communications 11(1): 1358
Holmes, D. 2017: Saving life and limb. Nature 548(7668): S42-S43
Fox, C.J. 2021: Saving lives and limbs: Challenges for the REBOA aficionado. Journal of Vascular Surgery 74(2): 477
Boon, S. 2018: Saving lives and property with accurate flood forecasts. Nature 554(7691): 267
Boon, S. 2018: Saving lives and property with accurate flood forecasts. Nature 554(7691): 267
Gatti, N.ò; Retali, B. 2021: Saving lives during the COVID-19 pandemic: the benefits of the first Swiss lockdown. Swiss Journal of Economics and Statistics 157(1): 4
Kennedy, A. 1994: Saving lives on roads. Lancet 343(8911): 1504
Peden, M. 2020: Saving lives through vehicle safety. LANCET. Global Health 8(6): E746-E747
Cullis, B.; Lalya, F.; Smoyer, W.E. 2020: Saving more young lives in Africa. Peritoneal Dialysis International: Journal of the International Society for Peritoneal Dialysis 40(5): 438-440
Larsen, J.V. 2000: Saving mothers in South Africa. South African Medical Journal 90(7): 660
Shors, T.J. 2009: Saving new brain cells. Scientific American 300(3): 46-52 54
Lep, Ža.; Zupančič, M.; Poredoš, M. 2022: Saving of Freshmen and their Parents in Slovenia: Saving Motives and Links to Parental Financial Socialization. Journal of Family and Economic Issues 43(4): 756-773
Foltz-Ramos, K.; Fusco, N.M.; Paige, J.B. 2021: Saving patient x: A quasi-experimental study of teamwork and performance in simulation following an interprofessional escape room. Journal of Interprofessional Care 2021: 1-8
Kauser, F.; Amitava, A.K.; Saxena, J.; Raza, S.A.; Masood, A.; Alam, M.S. 2021: Saving space: Comparing mini - logMAR with standard logMAR visual acuity. Indian Journal of Ophthalmology 69(1): 48-51
Räsänen, J. 2020: Saving the Babies or the Elderly in a Time of Crisis?. American Journal of Bioethics: Ajob 20(7): 180-182
Shin, L.; Bowling, F.L.; Armstrong, D.G.; Boulton, A.J.M. 2020: Saving the Diabetic Foot During the COVID-19 Pandemic: a Tale of two Cities. Diabetes Care 43(8): 1704-1709
De Meyer, J.; Verhelst, P.; Adriaens, D. 2020: Saving the European Eel: how Morphological Research can Help in Effective Conservation Management. Integrative and Comparative Biology 60(2): 467-475
Mukul, S.A.; Huq, S.; Herbohn, J.; Seddon, N.; Laurance, W.F. 2020: Saving the Sundarbans from development. Science 368(6496): 1198
Forbes, K.; Stokes, S.A. 1984: Saving the diabetic foot. American Journal of Nursing 84(7): 884-888
Levin, M.E. 1980: Saving the diabetic foot. Medical Times 108(5): 56-64
Flynn, M.D. 2000: Saving the diabetic foot. Journal of the Royal College of Physicians of London 34(3): 257-259
Smith, R.J. 2000: Saving the diabetic foot. Journal of the National Medical Association 92(8): 405-410
El-Showk, S. 2018: Saving the digital world. Nature 563(7733): S144-S146
Shah, S.; Villemain, O.L. 2020: Saving the endangered physician-scientists: reintroducing them to an environment of administrative support. Journal of Investigative Medicine: the Official Publication of the American Federation for Clinical Research 68(7): 1206-1207
Ackerman, P. 2001: Saving the life of a practice after the death of the dentist. Lda Journal 60(1): 9-10
Boyd, I.L. 2020: Saving the poor and vulnerable. Science 370(6515): 383
Nickoloff, B.J. 2008: Saving the skin from drug-induced detachment. Nature Medicine 14(12): 1311-1313
Gross, D.J.; Zangbar, B.; Muthu, N.; Chang, E.H.; Badami, A.; Stein, L.; Gruessner, R.; Poston, R. 2019: Saving the split: the benefits of VATS thymectomy. Journal of Thoracic Disease 11(4): 1428-1432
Kenney, J.S.; Smith, J.L.; Starfield, A.M.; McDougal, C.W. 1994: Saving the tiger in the wild. Nature 369(6479): 352
Bergeron, M.G.; Huletsky, A.; Picard, Fçois.J.; Boissinot, M. 2004: Saving vital time in the war on drug resistance. Nature 430(6996): 141
Janvier, A.; Mercurio, M.R. 2013: Saving vs creating: perceptions of intensive care at different ages and the potential for injustice. Journal of Perinatology: Official Journal of the California Perinatal Association 33(5): 333-335
Swedberg, E.; Shah, R.; Sadruddin, S.; Soeripto, J. 2020: Saving young children from forgotten killer: pneumonia. American Journal of Physiology. Lung Cellular and Molecular Physiology 319(5): L861-L862
Walker, C.A. 2003: Saving your rookie managers from themselves. Clinical Leadership and Management Review: the Journal of Clma 17(2): 115-119
Bensaad, K.; Vousden, K.H. 2005: Savior and slayer: the two faces of p53. Nature Medicine 11(12): 1278-1279
Trujillo, J.P.; Surralles, J. 2015: Savior siblings and Fanconi anemia: analysis of success rates from the family's perspective. Genetics in Medicine: Official Journal of the American College of Medical Genetics 17(11): 935-938
Sakpuntoon, V.; Angchuan, J.; Boonmak, C.; Khunnamwong, P.; Jacques, N.ém.; Grondin, C.éc.; Casaregola, S.; Srisuk, N. 2020: Savitreea pentosicarens gen. nov., sp. nov., a yeast species in the family Saccharomycetaceae isolated from a grease trap. International Journal of Systematic and Evolutionary Microbiology 70(11): 5665-5670
Kagawade, V.C.; Angadi, S.A. 2021: Savitzky-Golay filter energy features-based approach to face recognition using symbolic modeling. Pattern Analysis and Applications: Paa 24(4): 1451-1473
Wilson, K.A.; MacNamara, A. 2021: Savor the moment: Willful increase in positive emotion and the persistence of this effect across time. Psychophysiology 58(3): E13754
Colombo, D.ée.; Pavani, J.-B.; Fernandez-Alvarez, J.; Garcia-Palacios, A.; Botella, C. 2021: Savoring the present: the reciprocal influence between positive emotions and positive emotion regulation in everyday life. Plos one 16(5): E0251561
Roehrborn, C.G. 2006: Saw palmetto for benign prostatic hyperplasia: just how effective is it?. Nature Clinical Practice. Urology 3(8): 420-421
Garcia-Pavia, P.; Dominguez, F. 2020: Saw-Tooth Cardiomyopathy: Try not to Stumble Twice over the Same Stone. JACC. Case Reports 2(8): 1210-1211
Pirasath, S.; Gajan, D.; Guruparan, M.; Murugananthan, A.; Gnanathasan, A. 2021: Saw-scaled viper envenoming complicated with acute myocardial infarction. Sage Open Medical Case Reports 9: 2050313x211007705
Hancocks, S. 2012: Sawbones no longer?. British Dental Journal 212(8): 353
Mallakpour, S.; Sirous, F.; Hussain, C.M. 2021: Sawdust, a versatile, inexpensive, readily available bio-waste: from mother earth to valuable materials for sustainable remediation technologies. Advances in Colloid and Interface Science 295: 102492
Oeyen, J.P.; Baa-Puyoulet, P.; Benoit, J.B.; Beukeboom, L.W.; Bornberg-Bauer, E.; Buttstedt, A.; Calevro, F.; Cash, E.I.; Chao, H.; Charles, H.; Chen, M.-J.M.; Childers, C.; Cridge, A.G.; Dearden, P.; Dinh, H.; Doddapaneni, H.V.; Dolan, A.; Donath, A.; Dowling, D.; Dugan, S.; Duncan, E.; Elpidina, E.N.; Friedrich, M.; Geuverink, E.; Gibson, J.D.; Grath, S.; Grimmelikhuijzen, C.J.P.; Große-Wilde, E.; Gudobba, C.; Han, Y.; Hansson, B.S.; Hauser, F.; Hughes, D.S.T.; Ioannidis, P.; Jacquin-Joly, E.; Jennings, E.C.; Jones, J.W.; Klasberg, S.; Lee, S.L.; Lesný, P.; Lovegrove, M.; Martin, S.; Martynov, A.G.; Mayer, C.; Montagné, N.; Moris, V.C.; Munoz-Torres, M.; Murali, S.C.; Muzny, D.M.; Oppert, B.; Parisot, N.; Pauli, T.; Peters, R.S.; Peter 2020: Sawfly Genomes Reveal Evolutionary Acquisitions that Fostered the Mega-Radiation of Parasitoid and Eusocial Hymenoptera. Genome Biology and Evolution 12(7): 1099-1188
Gunjal, D.B.; Walekar, L.S.; Pawar, S.P.; Anbhule, P.V.; Mali, M.G.; Dhulap, V.P.; Sohn, D.; Mahajan, P.G.; Lee, K.Hwan.; Shejwal, R.V.; Kolekar, G.B. 2021: Sawmill waste derived carbon dots as a fluorescent probe for synthetic dyes in soft drinks. Scientific Reports 11(1): 17996
Vassallo, P.; Rossetti, A.O. 2020: Sawtooth amplitude-integrated EEG: a clue to Cheyne-Stokes respiration. Clinical Neurophysiology: Official Journal of the International Federation of Clinical Neurophysiology 131(7): 1579-1580
Kochiyama, S.; Fang, W.; Monn, M.A.; Kesari, H. 2021: Sawtooth patterns in flexural force curves of structural biological materials are not signatures of toughness enhancement: Part i. Journal of the Mechanical Behavior of Biomedical Materials 119: 104362
Fang, W.; Kochiyama, S.; Kesari, H. 2021: Sawtooth patterns in flexural force curves of structural biological materials are not signatures of toughness enhancement: Part Ii. Journal of the Mechanical Behavior of Biomedical Materials 124: 104787
Abd Elhameed, A.G.; Helal, M.G.; Said, E.; Salem, H.A. 2021: Saxagliptin defers thioacetamide-induced hepatocarcinogenesis in rats: a novel suppressive impact on Wnt/Hedgehog/Notch1 signaling. Environmental Toxicology and Pharmacology 86: 103668
Mohsen, M.; Elberry, A.A.; Mohamed Rabea, A.; Abdelrahim, M.E.A.; Hussein, R.R.S. 2021: Saxagliptin and vildagliptin lowered albuminuria in patients with diabetes and hypertension independent on glycaemic control. International Journal of Clinical Practice 75(3): E13769
Xing, X.; Guo, S.; Liu, Y.; Kuang, J.; Huang, Z.; Wang, X.; Lu, Q. 2021: Saxagliptin protects against diabetic nephropathy by inhibiting caspase 3/PARP-1-dependent nephrocyte apoptosis. Experimental and Therapeutic Medicine 22(3): 990
Caglayan, M.O.; Üstündağ, Z. 2020: Saxitoxin aptasensor based on attenuated internal reflection ellipsometry for seafood. Toxicon: Official Journal of the International Society on Toxinology 187: 255-261
Ramos, T.K.; Costa, L.D.F.; Yunes, J.ão.S.; Resgalla, C.; Barufi, J.é B.; Bastos, E.d.O.; Horta, P.A.; Rörig, L.R. 2021: Saxitoxins from the freshwater cyanobacterium Raphidiopsis raciborskii can contaminate marine mussels. Harmful Algae 103: 102004
Ohuabunwa, E.C. 2021: Say our Names. we Are Doctors Too. Annals of Emergency Medicine 78(4): 568-569
Fitzgerald, G.F. 1997: Say cheese! The maturing science of starter cultures. Nature Biotechnology 15(10): 950-951
Walker, A. 2007: Say hello to our little friends. Nature Reviews. Microbiology 5(8): 572-573
Tonkin, T. 1977: Say it ain't so, Joe!. Hospital Forum 20(1): 6; 31
Ostrowski, M. 2006: Say it in English. Rn 69(9): 9
Lingen, M. 2018: Say it with mastodons. Nature 563(7731): 436
Howarth, M. 2015: Say it with proteins: an alphabet of crystal structures. Nature Structural and Molecular Biology 22(5): 349
Martin, R.A. 2006: Say what we mean, mean what we say. European Journal of Human Genetics: Ejhg 14(2): 149; Author Reply 149-50
Buechner, Q.A. 2004: Say what you mean. Advance for Nurse Practitioners 12(8): 21
Jerrold, L. 2021: Say what you mean. American Journal of Orthodontics and Dentofacial Orthopedics: Official Publication of the American Association of Orthodontists its Constituent Societies and the American Board of Orthodontics 159(6): 866-867
Deane, C. 2021: Say yes to the NOS. Nature Chemical Biology 17(7): 749
Scarff, J.R. 2021: Say yes to the dress (code). Annals of Clinical Psychiatry: Official Journal of the American Academy of Clinical Psychiatrists 33(3): E11
Blow, J.J.; Prokhorova, T.A. 1999: Saying a firm 'no' to DNA re-replication. Nature Cell Biology 1(7): E175-E177
Mathison, E. 2020: Saying it don't make it so: a response to Winnington and MacLeod. New Zealand Medical Journal 133(1520): 104-107
Loewenthal, J.R. 1986: Saying no and other ethical dilemmas. Heart and Lung: the Journal of Critical Care 15(4): 420
MacLaren, G.; Combes, A.; Brodie, D. 2020: Saying no until the moment is right: initiating ECMO in the EOLIA era. Intensive Care Medicine 46(10): 1894-1896
Maddox, J. 1990: Saying sorry, but not sorry. Nature 343(6259): 589
García-Orza, J.; Gutiérrez-Cordero, I.; Guandalini, M. 2020: Saying thirteen instead of forty-two but saying lale instead of tale: is number production special?. Cortex; a Journal Devoted to the Study of the Nervous System and Behavior 128: 281-296
Blasko, D.G.; Kazmerski, V.A.; Dawood, S.S. 2021: Saying what you don't mean: a cross-cultural study of perceptions of sarcasm. Canadian Journal of Experimental Psychology 75(2): 114-119
Zhang, A.Q. 2021: Saying yes to help. Science 371(6524): 98
Matson, J. 2013: Sayonara, supergiant. Scientific American 309(5): 18-19
Naidu, T. 2021: Says who? Northern ventriloquism, or epistemic disobedience in global health scholarship. LANCET. Global Health 9(9): E1332-E1335
Pierce, M.; McManus, S.; Jessop, C.; John, A.; Hotopf, M.; Ford, T.; Hatch, S.; Wessely, S.; Abel, K.M. 2020: Says who? the significance of sampling in mental health surveys during COVID-19. LANCET. Psychiatry 7(7): 567-568
Song, C.; Zhang, N.; Lin, J.; Guo, X.; Liu, X. 2017: Sb 2 O 3 /Ag/Sb 2 O 3 Multilayer Transparent Conducting Films For Ultraviolet Organic Light-emitting Diode. Scientific Reports 7: 41250
Wang, C.; Jing, Y.; Zhou, X.; Li, Y.-F. 2021: Sb2TeSe2 Monolayers: Promising 2D Semiconductors for Highly Efficient Excitonic Solar Cells. Acs Omega 6(31): 20590-20597
Zhu, D.; Zaffalon, M.L.; Zito, J.; Cova, F.; Meinardi, F.; De Trizio, L.; Infante, I.; Brovelli, S.; Manna, L. 2021: Sb-Doped Metal Halide Nanocrystals: a 0D versus 3D Comparison. Acs Energy Letters 6(6): 2283-2292
Wei, X.; Liu, L.; Lu, C.; Yuan, F.; Han, G.; Wang, B. 2021: SbCASP4 improves salt exclusion by enhancing the root apoplastic barrier. Planta 254(4): 81
Baranova, E.; Fronzes, Rémi.; Garcia-Pino, A.; Van Gerven, N.; Papapostolou, D.; Péhau-Arnaudet, Gérard.; Pardon, E.; Steyaert, J.; Howorka, S.; Remaut, H. 2012: SbsB structure and lattice reconstruction unveil Ca2+ triggered S-layer assembly. Nature 487(7405): 119-122
Dethe, D.H.; Shukla, M.; Dherange, B.D. 2020: Sc(OTf)3-Catalyzed Synthesis of Symmetrical Dithioacetals and Bisarylmethanes Using Nitromethane as a Methylene Source. Organic Letters 22(15): 5778-5782
Zhu, X.; Li, J.; Li, H.-D.; Xie, M.; Wang, J. 2020: Sc-GPE: a Graph Partitioning-Based Cluster Ensemble Method for Single-Cell. Frontiers in Genetics 11: 604790
Duren, Z.; Lu, W.Sophia.; Arthur, J.G.; Shah, P.; Xin, J.; Meschi, F.; Li, M.Lin.; Nemec, C.M.; Yin, Y.; Wong, W.Hung. 2021: Sc-compReg enables the comparison of gene regulatory networks between conditions using single-cell data. Nature Communications 12(1): 4763
Dai, J.; Boeke, J.D.; Luo, Z.; Jiang, S.; Cai, Y. 2020: Sc3.0: revamping and minimizing the yeast genome. Genome Biology 21(1): 205
Zhang, H.; Li, P.; Ren, S.; Cheng, Z.; Zhao, G.; Zhao, W. 2019: ScCobB2-mediated Lysine Desuccinylation Regulates Protein Biosynthesis and Carbon Metabolism in Streptomyces coelicolor. Molecular and Cellular Proteomics: Mcp 18(10): 2003-2017
Li, J.; Jiang, W.; Han, H.; Liu, J.; Liu, B.; Wang, Y. 2021: ScGSLC: An unsupervised graph similarity learning framework for single-cell RNA-seq data clustering. Computational Biology and Chemistry 90: 107415
Qi, F.; Xu, G.; Liao, X.; Wang, F.; Yuan, J.; Wang, H.; Wang, X.; Liu, L.; Zhang, S.; Zhang, Z. 2021: ScRNA-seq revealed the kinetic of nasopharyngeal immune responses in asymptomatic COVID-19 carriers. Cell Discovery 7(1): 56
Natale, B.V.; Schweitzer, C.; Hughes, M.; Globisch, M.A.; Kotadia, R.; Tremblay, E.; Vu, P.; Cross, J.C.; Natale, D.R.C. 2017: Sca-1 identifies a trophoblast population with multipotent potential in the mid-gestation mouse placenta. Scientific Reports 7(1): 5575
Hall, S.L.; Lau, K-Hing.William.; Chen, S-Tai.; Wergedal, J.E.; Srivastava, A.; Klamut, H.; Sheng, M.H-C.; Gridley, D.S.; Mohan, S.; Baylink, D.J. 2007: Sca-1(+) hematopoietic cell-based gene therapy with a modified FGF-2 increased endosteal/trabecular bone formation in mice. Molecular Therapy: the Journal of the American Society of Gene Therapy 15(10): 1881-1889
Tang, J.; Zhu, H.; Liu, S.; Wang, H.; Huang, X.; Yan, Y.; Wang, L.; Zhou, B. 2021: Sca1 marks a reserve endothelial progenitor population that preferentially expand after injury. Cell Discovery 7(1): 88
Zhao, S.; Hoff, A.M.; Skotheim, R.I. 2020: ScaR-a tool for sensitive detection of known fusion transcripts: establishing prevalence of fusions in testicular germ cell tumors. Nar Genomics and Bioinformatics 2(1): Lqz025
Hugdahl, E. 2020: Scabies - a public health problem. Tidsskrift for den Norske Laegeforening: Tidsskrift for Praktisk Medicin Ny Raekke 140(15)
Taiaroa, G.; Matalavea, B.; Tafuna'i, M.; Lacey, J.A.; Price, D.J.; Isaia, L.; Leaupepe, H.; Viali, S.; Lee, D.; Gorrie, C.L.; Williamson, D.A.; Jack, S. 2021: Scabies and impetigo in Samoa: a school-based clinical and molecular epidemiological study. Lancet Regional Health. Western Pacific 6: 100081
Haile, T.; Sisay, T.; Jemere, T. 2020: Scabies and its associated factors among under 15 years children in Wadila district, Northern Ethiopia, 2019. Pan African Medical Journal 37: 224
Acharya, N.R. 1949: Scabies and its treatment. Antiseptic 46(11): 846
Varma, K.L. 1949: Scabies and its treatment. Antiseptic 46(4): 295
Veraldi, S.; Schianchi, R.; Nazzaro, G. 2021: Scabies and nocturnal pruritus: preliminary observations in a group of African migrants. Journal of Infection in Developing Countries 15(6): 889-891
Danielsen, H. 2020: Scabies burrow under a dermatoscope. Tidsskrift for den Norske Laegeforening: Tidsskrift for Praktisk Medicin Ny Raekke 140(15)
Padovese, V.; Dassoni, F.; Morrone, A. 2020: Scabies coexisting with other dermatoses: the importance of recognizing multiple pathologies in resource-poor settings. International Journal of Dermatology 59(12): 1502-1505
Nassih, H.; Hanafi, F.E.; Elalaoui, S.; Qadiry, R.E.; Bourahouat, A.; Sab, I.A. 2020: Scabies complicated by necrotizing lymphocytic vasculitis in an infant. Pan African Medical Journal 36: 166
Ibekwe, P.U.; Henshaw, E.B.; Otike-Odibi, B.; Okoh, N.U.; Ukonu, B.A.; Nnaji, T.O.; Archibong, J.; Altraide, D.; Onyekonwu, C.; Okudo, G.C. 2020: Scabies education in secondary schools: a multicenter study. Annals of African Medicine 19(4): 263-268
So, T.; Un, S.; Lestari, K.D.; Fuller, L.C.; Elyazar, I.; Bendick, C.; Grijsen, M.L. 2021: Scabies in monasteries in Phnom Penh, Cambodia. Journal of the European Academy of Dermatology and Venereology: Jeadv 35(12): E871-E873
Gramp, P.; Gramp, D. 2021: Scabies in remote Aboriginal and Torres Strait Islander populations in Australia: a narrative review. Plos Neglected Tropical Diseases 15(9): E0009751
Balestri, R.; Magnano, M.; Infusino, S.D.; Rizzoli, L.; Girardelli, C.R.; Rech, G. 2021: Scabies is becoming less sensitive to permethrin therapy. Journal of the European Academy of Dermatology and Venereology: Jeadv 35(12): E889-E891
Bouvier, G. 1947: Scabies of cattle in the canton of Vaud. Schweizer Archiv für Tierheilkunde 89(4): 167-175
Martínez-Pallás, I.; Aldea-Manrique, B.; Ramírez-Lluch, M.; Manuel Vinuesa-Hernando, J.; Ara-Martín, M. 2020: Scabies outbreak during home confinement due to the SARS-CoV-2 pandemic. Journal of the European Academy of Dermatology and Venereology: Jeadv 34(12): E781-E783
Hermans, E.H. 1947: Scabies treatment with solutio Vleminckx. Acta Leidensia 18: 99-103
Putra, I.B.; Jusuf, N.K. 2021: Scabies with Secondary Infection Resembling Kerion-Type Tinea Capitis. International Journal of General Medicine 14: 163-167
Wu, Y.F.; Wang, J.J.; Liu, H.H.; Chen, W.X.; Hu, P. 2021: Scabies, incomplete lupus erythematosus and Henoch-Schonlein purpura. Archives of Medical Science: Ams 17(2): 564-568
Weill, A.; Bernigaud, C.; Mokni, M.; Gil, S.; Elefant, E.; Chosidow, O. 2021: Scabies-infested pregnant women: a critical therapeutic challenge. Plos Neglected Tropical Diseases 15(1): E0008929
Arora, P.; Rudnicka, L.; Sar-Pomian, M.; Wollina, U.; Jafferany, M.; Lotti, T.; Sadoughifar, R.; Sitkowska, Z.; Goldust, M. 2020: Scabies: a comprehensive review and current perspectives. Dermatologic Therapy 33(4): E13746
Elgart, M.L. 1993: Scabies: diagnosis and treatment. Dermatology Nursing 5(6): 464-467
Nakagawasai, O.; Lin, J.-R.; Odaira, T.; Takahashi, K.; Nemoto, W.; Moriguchi, S.; Yabuki, Y.; Kobayakawa, Y.; Fukunaga, K.; Nakada, M.; Tan-No, K. 2020: Scabronine G Methyl Ester Improves Memory-Related Behavior and Enhances Hippocampal Cell Proliferation and Long-Term Potentiation via the BDNF-CREB Pathway in Olfactory Bulbectomized Mice. Frontiers in Pharmacology 11: 583291
Ma, B-Ji.; Ruan, Y. 2008: Scabronine J, a new cyathane-type diterpenoid from the basidiomycete Sarcodon scabrosus. Journal of Antibiotics 61(2): 86-88
Powell, P.A.; Wesley, C.; Spencer, S.; Cagan, R.L. 2001: Scabrous complexes with Notch to mediate boundary formation. Nature 409(6820): 626-630
Zember, W.F.; Fishman, E.K.; Chu, L.C. 2020: Scabs Versus Scars: Understanding the Impact of Coronavirus Disease 2019 (COVID-19) on Short- and Long-Term Behaviors. Journal of the American College of Radiology: Jacr 17(10): 1352-1354
García-Poyatos, C.; Cogliati, S.; Calvo, E.; Hernansanz-Agustín, P.; Lagarrigue, S.; Magni, R.; Botos, M.; Langa, X.; Amati, F.; Vázquez, J.ús.; Mercader, N.; Enríquez, J.é A. 2020: Scaf1 promotes respiratory supercomplexes and metabolic efficiency in zebrafish. Embo Reports 21(7): E50287
Yan, B-Bo.; Xue, M-Zhu.; Xiong, B.; Liu, K.; Hu, D-Yu.; Shen, J-Kang. 2009: ScafBank: a public comprehensive Scaffold database to support molecular hopping. Acta Pharmacologica Sinica 30(2): 251-258
Chiou, G.; Jui, E.; Rhea, A.C.; Gorthi, A.; Miar, S.; Acosta, F.M.; Perez, C.; Suhail, Y.; Kshitiz; Chen, Y.; Ong, J.L.; Bizios, R.; Rathbone, C.; Guda, T. 2020: Scaffold Architecture and Matrix Strain Modulate Mesenchymal Cell and Microvascular Growth and Development in a time Dependent Manner. Cellular and Molecular Bioengineering 13(5): 507-526
Rogozhnikov, D.; O'Brien, P.J.; Elahipanah, S.; Yousaf, M.N. 2016: Scaffold Free Bio-orthogonal Assembly of 3-Dimensional Cardiac Tissue via Cell Surface Engineering. Scientific Reports 6: 39806
Yang, Y.; Ang, W.; Long, H.; Chang, Y.; Li, Z.; Zhou, L.; Yang, T.; Deng, Y.; Luo, Y. 2016: Scaffold Hopping Toward Agomelatine: Novel 3, 4-Dihydroisoquinoline Compounds as Potential Antidepressant Agents. Scientific Reports 6: 34711
De Lucas, A.I.; Vega, J.A.; García Molina, A.án.; Linares, M.ía.L.; Tresadern, G.; Lavreysen, H.; Oehlrich, D.; Trabanco, A.és.A.; Cid, J.é M. 2021: Scaffold Hopping to Imidazo[1,2-a]pyrazin-8-one Positive Allosteric Modulators of Metabotropic Glutamate 2 Receptor. Acs Omega 6(35): 22997-23006
Hendley, M.A.; Isely, C.; Murphy, K.P.; Hall, H.E.; Annamalai, P.; Gower, R.M. 2020: Scaffold Implant into the Epididymal Adipose Tissue Protects Mice from High Fat Diet Induced Ectopic Lipid Accumulation and Hyperinsulinemia. Frontiers in Bioengineering and Biotechnology 8: 562
Kerkmeijer, L.S.M.; Wykrzykowska, J.J. 2020: Scaffold Resorption Process Is not the Achilles' Heel of the Absorb BVS: but what Then?. JACC. Basic to Translational Science 5(6): 630-631
Huang, Y.; Fan, H.; Gong, X.; Yang, L.; Wang, F. 2021: Scaffold with Natural Calcified Cartilage Zone for Osteochondral Defect Repair in Minipigs. American Journal of Sports Medicine 49(7): 1883-1891
Gertsch, Jürg. 2019: Scaffold and organism hopping with chemical probes. Nature Chemical Biology 15(5): 428-429
Yang, J.S.-W.; Qian, C.; You, S.; Rotinen, M.; Posadas, E.M.; Freedland, S.J.; Di Vizio, D.; Kim, J.; Freeman, M.R. 2021: Scaffold attachment factor B1 regulates androgen degradation pathways in prostate cancer. American Journal of Clinical and Experimental Urology 9(4): 337-349
Mukhopadhyay, N.K.; Kim, J.; You, S.; Morello, M.; Hager, M.H.; Huang, W-C.; Ramachandran, A.; Yang, J.; Cinar, B.; Rubin, M.A.; Adam, R.M.; Oesterreich, S.; Di Vizio, D.; Freeman, M.R. 2014: Scaffold attachment factor B1 regulates the androgen receptor in concert with the growth inhibitory kinase MST1 and the methyltransferase EZH2. Oncogene 33(25): 3235-3245
Huang, H. 2013: Scaffold attachment factor B1: an intrinsic inhibitor of androgen receptor downregulated in prostate cancer. Asian Journal of Andrology 15(6): 703-704
Shelat, A.A.; Guy, R.Kiplin. 2007: Scaffold composition and biological relevance of screening libraries. Nature Chemical Biology 3(8): 442-446
Azzi, A. 2021: Scaffold dependent role of the inositol 5'-phosphatase SHIP2, in regulation of oxidative stress induced apoptosis. Archives of Biochemistry and Biophysics 697: 108667
Martin, H.; Somers, T.; Dwyer, M.; Robson, R.; Pfeffer, F.M.; Bjornsson, R.; Krämer, T.; Kavanagh, K.; Velasco-Torrijos, T. 2020: Scaffold diversity for enhanced activity of glycosylated inhibitors of fungal adhesion. Rsc Medicinal Chemistry 11(12): 1386-1401
Small, W.R.; Stoyanov, S.D.; Paunov, V.N. 2013: Scaffold free fabrication of linear multicellular assemblies by dielectrophoretic hydrogel trapping technique. Biomaterials Science 1(9): 996-1002
Yoon, J-Hyun.; Abdelmohsen, K.; Kim, J.; Yang, X.; Martindale, J.L.; Tominaga-Yamanaka, K.; White, E.J.; Orjalo, A.V.; Rinn, J.L.; Kreft, S.G.; Wilson, G.M.; Gorospe, M. 2013: Scaffold function of long non-coding RNA HOTAIR in protein ubiquitination. Nature Communications 4: 2939
Tocco, G.; Esposito, F.; Caboni, P.; Laus, A.; Beutler, J.A.; Wilson, J.A.; Corona, A.; Le Grice, S.F.J.; Tramontano, E. 2020: Scaffold hopping and optimisation of 3',4'-dihydroxyphenyl- containing thienopyrimidinones: synthesis of quinazolinone derivatives as novel allosteric inhibitors of HIV-1 reverse transcriptase-associated ribonuclease H. Journal of Enzyme Inhibition and Medicinal Chemistry 35(1): 1953-1963
Hadi, S.R.A.E.; Lasheen, D.S.; Soliman, D.H.; Elrazaz, E.Z.; Abouzid, K.A.M. 2020: Scaffold hopping and redesign approaches for quinazoline based urea derivatives as potent VEGFR-2 inhibitors. Bioorganic Chemistry 101: 103961
Burslem, G.M.; Bondeson, D.P.; Crews, C.M. 2020: Scaffold hopping enables direct access to more potent PROTACs with in vivo activity. Chemical Communications 56(50): 6890-6892
Jorda, R.; Krajčovičová, S.ňa.; Králová, P.; Soural, M.; Kryštof, V.ír. 2020: Scaffold hopping of the SYK inhibitor entospletinib leads to broader targeting of the BCR signalosome. European Journal of Medicinal Chemistry 204: 112636
Muniyandi, P.; Palaninathan, V.; Mizuki, T.; Mohamed, M.S.; Hanajiri, T.; Maekawa, T. 2021: Scaffold mediated delivery of dual mi RNAs to transdifferentiate cardiac fibroblasts. Materials Science and Engineering. C Materials for Biological Applications 128: 112323
Choudhary, S.; Silakari, O. 2020: Scaffold morphing of arbidol (umifenovir) in search of multi-targeting therapy halting the interaction of SARS-CoV-2 with ACE2 and other proteases involved in COVID-19. Virus Research 289: 198146
Ji, Y.B.; Park, J.Y.; Kang, Y.; Lee, S.; Ju, H.J.; Choi, S.; Lee, B.Y.; Kim, M.S. 2021: Scaffold printing using biodegradable poly(1,4-butylene carbonate) ink: printability, in vivo physicochemical properties, and biocompatibility. Materials Today. Bio 12: 100129
Round, J.L.; Humphries, L.A.; Tomassian, T.; Mittelstadt, P.; Zhang, M.; Miceli, M.Carrie. 2007: Scaffold protein Dlgh1 coordinates alternative p38 kinase activation, directing T cell receptor signals toward NFAT but not NF-kappaB transcription factors. Nature Immunology 8(2): 154-161
Jin, H.; Lee, K.; Kim, Y-H.; Oh, H.K.; Maeng, Y-I.; Kim, T-H.; Suh, D-S.; Bae, J. 2016: Scaffold protein FHL2 facilitates MDM2-mediated degradation of IER3 to regulate proliferation of cervical cancer cells. Oncogene 35(39): 5106-5118
Shaw, A.S.; Filbert, E.L. 2009: Scaffold proteins and immune-cell signalling. Nature Reviews. Immunology 9(1): 47-56
Zhang, M. 2007: Scaffold proteins as dynamic switches. Nature Chemical Biology 3(12): 756-757
Eickhorst, C.; Licheva, M.; Kraft, C. 2020: Scaffold proteins in bulk and selective autophagy. Progress in Molecular Biology and Translational Science 172: 15-35
Dhanasekaran, D.N.; Kashef, K.; Lee, C.M.; Xu, H.; Reddy, E.P. 2007: Scaffold proteins of MAP-kinase modules. Oncogene 26(22): 3185-3202
Wang, P.; van der Hoeven, D.; Ye, N.; Chen, H.; Liu, Z.; Ma, X.; Montufar-Solis, D.; Rehl, K.M.; Cho, K.-J.; Thapa, S.; Chen, W.; van der Hoeven, R.; Frost, J.A.; Hancock, J.F.; Zhou, J. 2021: Scaffold repurposing of fendiline: Identification of potent KRAS plasma membrane localization inhibitors. European Journal of Medicinal Chemistry 217: 113381
Henckes, N.A.éa.C.; Faleiro, D.; Chuang, L.C.; Cirne-Lima, E.O. 2021: Scaffold strategies combined with mesenchymal stem cells in vaginal construction: a review. Cell Regeneration 10(1): 26
Okada, K.; Honda, Y.; Kitahara, H.; Ikutomi, M.; Kameda, R.; Brooke Hollak, M.; Yock, P.G.; Popma, J.J.; Kusano, H.; Cheong, W.-F.; Sudhir, K.; Fitzgerald, P.J.; Kimura, T. 2020: Scaffold underexpansion and late lumen loss after bioresorbable scaffold implantation: Insights from ABSORB JAPAN trial. International Journal of Cardiology. Heart and Vasculature 31: 100623
Carpenter, R.; Oh, H.J.; Ham, I.-H.; Kim, D.; Hur, H.; Lee, J. 2019: Scaffold-Assisted Ectopic Transplantation of Internal Organs and Patient-Derived Tumors. Acs Biomaterials Science and Engineering 5(12): 6667-6678
Chooi, W.H.; Chin, J.S.; Chew, S.Y. 2021: Scaffold-Based Delivery of CRISPR/Cas9 Ribonucleoproteins for Genome Editing. Methods in Molecular Biology 2211: 183-191
Kerns, S.A.; Rose, M.J. 2020: Scaffold-Based Functional Models of [Fe]-Hydrogenase (Hmd): Building the Bridge between Biological Structure and Molecular Function. Accounts of Chemical Research 53(8): 1637-1647
Tortorici, M.; Petersen, A.; Ehrhart, K.; Duda, G.N.; Checa, S. 2021: Scaffold-Dependent Mechanical and Architectural Cues Guide Osteochondral Defect Healing in silico. Frontiers in Bioengineering and Biotechnology 9: 642217
Frerker, N.; Karlsen, T.A.; Lilledahl, M.B.; Brorson, S.-H.; Tibballs, J.E.; Brinchmann, J.E. 2021: Scaffold-Free Engineering of Human Cartilage Implants. Cartilage 13(1_Suppl): 1237s-1249s
Henkel, J.; Medeiros Savi, F.; Berner, A.; Fountain, S.; Saifzadeh, S.; Steck, R.; Epari, D.R.; Woodruff, M.A.; Knackstedt, M.; Schuetz, M.A.; Hutmacher, D.W. 2021: Scaffold-guided bone regeneration in large volume tibial segmental defects. Bone 153: 116163
Li, J.; Lee, J.-K.; Miwa, K.; Kuramoto, Y.; Masuyama, K.; Yasutake, H.; Tomoyama, S.; Nakanishi, H.; Sakata, Y. 2021: Scaffold-Mediated Developmental Effects on Human Induced Pluripotent Stem Cell-Derived Cardiomyocytes Are Preserved After External Support Removal. Frontiers in Cell and Developmental Biology 9: 591754
Agarwalla, P.; Ogunnaike, E.A.; Ahn, S.; Ligler, F.S.; Dotti, G.; Brudno, Y. 2020: Scaffold-Mediated Static Transduction of T Cells for CAR-T Cell Therapy. Advanced Healthcare Materials 9(14): E2000275
Bassi, G.; Panseri, S.; Dozio, S.Maria.; Sandri, M.; Campodoni, E.; Dapporto, M.; Sprio, S.; Tampieri, A.; Montesi, M. 2020: Scaffold-based 3D cellular models mimicking the heterogeneity of osteosarcoma stem cell niche. Scientific Reports 10(1): 22294
Kerns, S.A.; Seo, J.; Lynch, V.M.; Shearer, J.; Goralski, S.T.; Sullivan, E.R.; Rose, M.J. 2021: Scaffold-based [Fe]-hydrogenase model: H2 activation initiates Fe(0)-hydride extrusion and non-biomimetic hydride transfer. Chemical Science 12(38): 12838-12846
Wang, Q.; Chen, F.; Liu, P.; Mu, Y.; Sun, S.; Yuan, X.; Shang, P.; Ji, B. 2021: Scaffold-based analysis of nonpeptide oncogenic FTase inhibitors using multiple similarity matching, binding affinity scoring and enzyme inhibition assay. Journal of Molecular Graphics and Modelling 105: 107898
Dissanayaka, W.L.; Zhang, C. 2020: Scaffold-based and Scaffold-free Strategies in Dental Pulp Regeneration. Journal of Endodontics 46(9s): S81-S89
Contessi Negrini, N.; Angelova Volponi, A.; Higgins, C.A.; Sharpe, P.T.; Celiz, A.D. 2021: Scaffold-based developmental tissue engineering strategies for ectodermal organ regeneration. Materials Today. Bio 10: 100107
Lim, J.; Hwang, S.-Y.; Moon, S.; Kim, S.; Kim, W.Y. 2019: Scaffold-based molecular design with a graph generative model. Chemical Science 11(4): 1153-1164
Li, W.-Y.; Ma, Y.; Li, H.-X.; Lu, X.-H.; Du, S.; Ma, Y.-C.; Zhou, L.; Wang, R.-L. 2020: Scaffold-based selective SHP2 inhibitors design using core hopping, molecular docking, biological evaluation and molecular simulation. Bioorganic Chemistry 105: 104391
Vu, B.; Souza, G.R.; Dengjel, J.ör. 2021: Scaffold-free 3D cell culture of primary skin fibroblasts induces profound changes of the matrisome. Matrix Biology Plus 11: 100066
De Pieri, A.; Rochev, Y.; Zeugolis, D.I. 2021: Scaffold-free cell-based tissue engineering therapies: advances, shortfalls and forecast. Npj Regenerative Medicine 6(1): 18
Herberg, S.; Varghai, D.; Alt, D.S.; Dang, P.N.; Park, H.; Cheng, Y.; Shin, J-Youn.; Dikina, A.D.; Boerckel, J.D.; Rolle, M.W.; Alsberg, E. 2021: Scaffold-free human mesenchymal stem cell construct geometry regulates long bone regeneration. Communications Biology 4(1): 89
Jung, Y.; Ji, H.; Chen, Z.; Fai Chan, H.; Atchison, L.; Klitzman, B.; Truskey, G.; Leong, K.W. 2015: Scaffold-free, Human Mesenchymal Stem Cell-Based Tissue Engineered Blood Vessels. Scientific Reports 5: 15116
Parfenov, V.A.; Petrov, S.V.; Pereira, F.D.A.S.; Levin, A.A.; Koudan, E.V.; Nezhurina, E.K.; Karalkin, P.A.; Vasiliev, M.M.; Petrov, O.F.; Komlev, V.S.; Khesuani, Y.D.; Mironov, V.A. 2020: Scaffold-free, Label-free, and Nozzle-free Magnetic Levitational Bioassembler for Rapid Formative Biofabrication of 3D Tissues and Organs. International Journal of Bioprinting 6(3): 304
Chen, R.; Zhang, H.; Yan, J.; Bryers, J.D. 2018: Scaffold-mediated delivery for non-viral mRNA vaccines. Gene Therapy 25(8): 556-567
Irazoqui, J.E.; Gladfelter, A.S.; Lew, D.J. 2003: Scaffold-mediated symmetry breaking by Cdc42p. Nature Cell Biology 5(12): 1062-1070
Bailey, C.P.; Figueroa, M.; Gangadharan, A.; Lee, D.A.; Chandra, J. 2020: Scaffolding LSD1 Inhibitors Impair NK Cell Metabolism and Cytotoxic Function Through Depletion of Glutathione. Frontiers in Immunology 11: 2196
Brower, R.L.; Woods, C.S.; Jones, T.Bertrand.; Park, T.J.; Hu, S.; Tandberg, D.A.; Nix, A.N.; Rahming, S.G.; Martindale, S.K. 2018: Scaffolding Mathematics Remediation for Academically At-Risk Students Following Developmental Education Reform in Florida. Community College Journal of Research and Practice 42(2): 112-128
Cao, M.Duc.; Nguyen, S.Hoang.; Ganesamoorthy, D.; Elliott, A.G.; Cooper, M.A.; Coin, L.J.M. 2017: Scaffolding and completing genome assemblies in real-time with nanopore sequencing. Nature Communications 8: 14515
Schumacher, S.; Laass, K.; Kant, S.; Shi, Y.; Visel, A.; Gruber, A.D.; Kotlyarov, A.; Gaestel, M. 2004: Scaffolding by ERK3 regulates MK5 in development. EMBO Journal 23(24): 4770-4779
Pero, R.; Marcotte, L. 2019: Scaffolding for assessment success: using gradual release of responsibility to support resident transition to competency-based medical education. Canadian Medical Education Journal 10(3): E110-E112
Higuchi, M.; Onishi, K.; Kikuchi, C.; Gotoh, Y. 2008: Scaffolding function of PAK in the PDK1-Akt pathway. Nature Cell Biology 10(11): 1356-1364
Burgess, A.; Matar, E.; Roberts, C.; Haq, I.; Wynter, L.; Singer, J.; Kalman, E.; Bleasel, J. 2021: Scaffolding medical student knowledge and skills: team-based learning (TBL) and case-based learning (CBL). Bmc Medical Education 21(1): 238
Karlsson, E.; Lärkeryd, A.; Sjödin, A.; Forsman, M.; Stenberg, P. 2015: Scaffolding of a bacterial genome using MinION nanopore sequencing. Scientific Reports 5: 11996
Jun, J.E.; Goodnow, C.C. 2003: Scaffolding of antigen receptors for immunogenic versus tolerogenic signaling. Nature Immunology 4(11): 1057-1064
Zhang, Y.; Xu, Y.; Liu, S.; Guo, X.; Cen, D.; Xu, J.; Li, H.; Li, K.; Zeng, C.; Lu, L.; Zhou, Y.; Shen, H.; Cheng, H.; Zhang, X.; Ke, Y. 2016: Scaffolding protein Gab1 regulates myeloid dendritic cell migration in allergic asthma. Cell Research 26(11): 1226-1241
Byeon, J.W.; Jo, Y.R.; Shin, Y.K.; Park, H.T.; Park, H.-S. 2021: Scaffolding protein Gab2 is involved in postnatal development and lipopolysaccharide-induced activation of microglia in the mouse brain. Biochemical and Biophysical Research Communications 567: 112-117
Ischenko, I.; Petrenko, O.; Gu, H.; Hayman, M.J. 2003: Scaffolding protein Gab2 mediates fibroblast transformation by the SEA tyrosine kinase. Oncogene 22(41): 6311-6318
Wang, Y.; Rao, W.; Zhang, C.; Zhang, C.; Liu, M-D.; Han, F.; Yao, L-b.; Han, H.; Luo, P.; Su, N.; Fei, Z. 2015: Scaffolding protein Homer1a protects against NMDA-induced neuronal injury. Cell Death and Disease 6: E1843
Rathbone, H.W.; Michie, K.A.; Landsberg, M.J.; Green, B.R.; Curmi, P.M.G. 2021: Scaffolding proteins guide the evolution of algal light harvesting antennas. Nature Communications 12(1): 1890
Rouaud, F.; Sluysmans, S.; Flinois, A.; Shah, J.; Vasileva, E.; Citi, S. 2020: Scaffolding proteins of vertebrate apical junctions: structure, functions and biophysics. Biochimica et Biophysica Acta. Biomembranes 1862(10): 183399
Berger, I.; Dakwar-Kawar, O.; Grossman, E.S.; Nahum, M.; Cohen Kadosh, R. 2021: Scaffolding the attention-deficit/hyperactivity disorder brain using transcranial direct current and random noise stimulation: a randomized controlled trial. Clinical Neurophysiology: Official Journal of the International Federation of Clinical Neurophysiology 132(3): 699-707
Li, J.; Di Lorenzo, V.; Patil, P.; Ruiz-Moreno, A.J.; Kurpiewska, K.; Kalinowska-Tłuścik, J.; Velasco-Velázquez, M.A.; Dömling, A. 2020: Scaffolding-Induced Property Modulation of Chemical Space. Acs Combinatorial Science 22(7): 356-360
Santarella, F.; Sridharan, R.; Marinkovic, M.; Do Amaral, R.J.F.C.; Cavanagh, B.; Smith, A.; Kashpur, O.; Gerami-Naini, B.; Garlick, J.A.; O'Brien, F.J.; Kearney, C.J. 2020: Scaffolds Functionalized with Matrix from Induced Pluripotent Stem Cell Fibroblasts for Diabetic Wound Healing. Advanced Healthcare Materials 9(16): E2000307
Sha'ban, M.; Ahmad Radzi, M.A.'z. 2020: Scaffolds for Cartilage Regeneration: to use or not to Use?. Advances in Experimental Medicine and Biology 1249: 97-114
Seah, J.Si.Han.; Singh, S.; Tan, L.Poh.; Choudhury, D. 2021: Scaffolds for the manufacture of cultured meat. Critical Reviews in Biotechnology 2021: 1-13
Yang, Y.; Abdalla, S. 2020: Scaffolds of Macroporous Tannin Spray with Human-Induced Pluripotent Stem Cells. Frontiers in Bioengineering and Biotechnology 8: 951
Cheung, A.S.; Zhang, D.K.Y.; Koshy, S.T.; Mooney, D.J. 2018: Scaffolds that mimic antigen-presenting cells enable ex vivo expansion of primary T cells. Nature Biotechnology 36(2): 160-169
Swanson, W.B.; Zhang, Z.; Xiu, K.; Gong, T.; Eberle, M.; Wang, Z.; Ma, P.X. 2020: Scaffolds with controlled release of pro-mineralization exosomes to promote craniofacial bone healing without cell transplantation. Acta Biomaterialia 118: 215-232
Joshi, S.R.; Pendyala, G.S.; Shah, P.; Mopagar, V.P.; Padmawar, N.; Padubidri, M. 2020: Scaffolds--The Ground for Regeneration: a Narrative Review. Journal of International Society of Preventive and Community Dentistry 10(6): 692-699
Brahma, M.; Kabiraj, A.; Saha, D.; Mahapatra, S. 2018: Scalability assessment of Group-IV mono-chalcogenide based tunnel FET. Scientific Reports 8(1): 5993
Jannik, D.; Sebastian, H.; BjÖrn, H.; Thomas, L. 2020: Scalability of Sterilizing-Grade Filters in Different Filtration Modes. Pda Journal of Pharmaceutical Science and Technology 74(6): 644-659
Demaerschalk, B.M.; Blegen, R.N.; Ommen, S.R. 2021: Scalability of Telemedicine Services in a Large Integrated Multispecialty Health Care System During COVID-19. Telemedicine Journal and E-Health: the Official Journal of the American Telemedicine Association 27(1): 96-98
Koo, H.; Lee, W.; Choi, Y.; Sun, J.; Bak, J.; Noh, J.; Subramanian, V.; Azuma, Y.; Majima, Y.; Cho, G. 2015: Scalability of carbon-nanotube-based thin film transistors for flexible electronic devices manufactured using an all roll-to-roll gravure printing system. Scientific Reports 5: 14459
Alavi, R.; Dai, W.; Amlani, F.; Rinderknecht, D.G.; Kloner, R.A.; Pahlevan, N.M. 2021: Scalability of cardiovascular intrinsic frequencies: Validations in preclinical models and non-invasive clinical studies. Life Sciences 284: 119880
Nabawy, M.R.A.; Marcinkeviciute, R. 2021: Scalability of resonant motor-driven flapping wing propulsion systems. Royal Society Open Science 8(9): 210452
Chomkhuntod, P.; Iamprasertkun, P.; Chiochan, P.; Suktha, P.; Sawangphruk, M. 2021: Scalable 18,650 aqueous-based supercapacitors using hydrophobicity concept of anti-corrosion graphite passivation layer. Scientific Reports 11(1): 13082
Keshan Balavandy, S.; Li, F.; Macdonald, N.P.; Maya, F.; Townsend, A.T.; Frederick, K.; Guijt, R.M.; Breadmore, M.C. 2021: Scalable 3D printing method for the manufacture of single-material fluidic devices with integrated filter for point of collection colourimetric analysis. Analytica Chimica Acta 1151: 238101
Kim, S.; Handler, J.J.; Cho, Y.T.; Barbastathis, G.; Fang, N.X. 2021: Scalable 3D printing of aperiodic cellular structures by rotational stacking of integral image formation. Science Advances 7(38): Eabh 1200
González-Arias, F.; Reddy, T.; Stone, J.E.; Hadden-Perilla, J.A.; Perilla, J.R. 2020: Scalable Analysis of Authentic Viral Envelopes on FRONTERA. Computing in Science and Engineering 22(6): 11-20
Yao, M.; Yuan, Z.; Li, S.; He, T.; Wang, R.; Yuan, M.; Niu, Z. 2021: Scalable Assembly of Flexible Ultrathin All-in-One Zinc-Ion Batteries with Highly Stretchable, Editable, and Customizable Functions. Advanced Materials 33(10): E2008140
Touloupou, P.; Finkenstädt, Bärbel.; Spencer, S.E.F. 2020: Scalable Bayesian Inference for Coupled Hidden Markov and Semi-Markov Models. Journal of Computational and Graphical Statistics: a Joint Publication of American Statistical Association Institute of Mathematical Statistics Interface Foundation of North America 29(2): 238-249
Ni, Y.; Müller, P.; Diesendruck, M.; Williamson, S.; Zhu, Y.; Ji, Y. 2020: Scalable Bayesian Nonparametric Clustering and Classification. Journal of Computational and Graphical Statistics: a Joint Publication of American Statistical Association Institute of Mathematical Statistics Interface Foundation of North America 29(1): 53-65
Yang, G.-W.; Zhang, Y.-Y.; Xie, R.; Wu, G.-P. 2020: Scalable Bifunctional Organoboron Catalysts for Copolymerization of CO2 and Epoxides with Unprecedented Efficiency. Journal of the American Chemical Society 142(28): 12245-12255
Baez, S.d.l.C.; García Del Barco, D.; Hardy-Sosa, A.; Guillen Nieto, G.; Bringas-Vega, M.L.; Llibre-Guerra, J.J.; Valdes-Sosa, P. 2021: Scalable Bio Marker Combinations for Early Stroke Diagnosis: a Systematic Review. Frontiers in Neurology 12: 638693
Kumar, N.; Sridharan, D.; Palaniappan, A.; Dougherty, J.A.; Czirok, A.; Isai, D.G.; Mergaye, M.; Angelos, M.G.; Powell, H.M.; Khan, M. 2020: Scalable Biomimetic Coaxial Aligned Nanofiber Cardiac Patch: a Potential Model for "Clinical Trials in a Dish". Frontiers in Bioengineering and Biotechnology 8: 567842
Tymm, C.; Zhou, J.; Tadimety, A.; Burklund, A.; Zhang, J.X.J. 2020: Scalable COVID-19 Detection Enabled by Lab-on-Chip Biosensors. Cellular and Molecular Bioengineering 13(4): 313-329
Saad, S.; Kaur, H.; Natale, G. 2020: Scalable Chemical Synthesis Route to Manufacture pH-Responsive Janus CaCO3 Micromotors. Langmuir: the Acs Journal of Surfaces and Colloids 36(42): 12590-12600
Ott, R.; Zache, T.V.; Jendrzejewski, F.; Berges, J. 2021: Scalable Cold-Atom Quantum Simulator for Two-Dimensional QED. Physical Review Letters 127(13): 130504
Li, Q.; Lin, H.; Rauch, J.; Deleyrolle, L.P.; Reynolds, B.A.; Viljoen, H.J.; Zhang, C.; Zhang, C.; Gu, L.; Van Wyk, E.; Lei, Y. 2018: Scalable Culturing of Primary Human Glioblastoma Tumor-Initiating Cells with a Cell-Friendly Culture System. Scientific Reports 8(1): 3531
Šimko, T.; Heinrich, L.A.; Lange, C.; Lintuluoto, A.E.; MacDonell, D.M.; Mečionis, A.; Rodríguez Rodríguez, D.; Shandilya, P.; Vidal García, M. 2021: Scalable Declarative HEP Analysis Workflows for Containerised Compute Clouds. Frontiers in Big Data 4: 661501
Khan, M.S.; Kim, H.-J.; Kim, Y.-H.; Ebina, Y.; Sugimoto, W.; Sasaki, T.; Osada, M. 2020: Scalable Design of Two-Dimensional Oxide Nanosheets for Construction of Ultrathin Multilayer Nanocapacitor. Small 16(39): E2003485
Pettinato, G.; Ramanathan, R.; Fisher, R.A.; Mangino, M.J.; Zhang, N.; Wen, X. 2016: Scalable Differentiation of Human iPSCs in a Multicellular Spheroid-based 3D Culture into Hepatocyte-like Cells through Direct Wnt/β-catenin Pathway Inhibition. Scientific Reports 6: 32888
Wu, P-Chen.; Yang, C-Liang.; Du, Y.; Lai, C-Huang. 2019: Scalable Epitaxial Growth of WSe 2 Thin Films on SiO 2 /Si via a Self-Assembled PtSe 2 Buffer Layer. Scientific Reports 9(1): 8017
Dasgupta, A.; Sengupta, S. 2022: Scalable Estimation of Epidemic Thresholds via Node Sampling. Sankhya. Series A. 84(1): 321-344
Huang, Y.; Yu, K.; Li, H.; Xu, K.; Liang, Z.; Walker, D.; Ferreira, P.; Fischer, P.; Fan, D.E. 2020: Scalable Fabrication of Molybdenum Disulfide Nanostructures and their Assembly. Advanced Materials 32(43): E2003439
Kumagai, S.; Yamamura, A.; Makita, T.; Tsurumi, J.; Lim, Y.Ying.; Wakimoto, T.; Isahaya, N.; Nozawa, H.; Sato, K.; Mitani, M.; Okamoto, T.; Watanabe, S.; Takeya, J. 2019: Scalable Fabrication of Organic Single-Crystalline Wafers for Reproducible TFT Arrays. Scientific Reports 9(1): 15897
Xue, J.; Zheng, W.; Wang, L.; Jin, Z. 2016: Scalable Fabrication of Polydopamine Nanotubes Based on Curcumin Crystals. Acs Biomaterials Science and Engineering 2(4): 489-493
Ngo, G.Q.; George, A.; Schock, R.T.K.; Tuniz, A.; Najafidehaghani, E.; Gan, Z.; Geib, N.C.; Bucher, T.; Knopf, H.; Saravi, S.; Neumann, C.; Lühder, T.; Schartner, E.P.; Warren-Smith, S.C.; Ebendorff-Heidepriem, H.; Pertsch, T.; Schmidt, M.A.; Turchanin, A.; Eilenberger, F. 2020: Scalable Functionalization of Optical Fibers Using Atomically Thin Semiconductors. Advanced Materials 32(47): E2003826
Silva, T.P.; Fernandes, T.G.; Nogueira, D.E.S.; Rodrigues, C.A.V.; Bekman, E.P.; Hashimura, Y.; Jung, S.; Lee, B.; Carmo-Fonseca, M.; Cabral, J.M.S. 2020: Scalable Generation of Mature Cerebellar Organoids from Human Pluripotent Stem Cells and Characterization by Immunostaining. Journal of Visualized Experiments: Jove 2020(160)
Zhang, L.; Chan, K.Wai.Clifford. 2018: Scalable Generation of Multi-mode NOON States for Quantum Multiple-phase Estimation. Scientific Reports 8(1): 11440
Mahadik, K.; Wright, C.; Kulkarni, M.; Bagchi, S.; Chaterji, S. 2019: Scalable Genome Assembly through Parallel de Bruijn Graph Construction for Multiple k-mers. Scientific Reports 9(1): 14882
Wadi, V.S.; Jena, K.K.; Halique, K.; Brigita Rožič; Cmok, L.; Tzitzios, V.; Alhassan, S.M. 2020: Scalable High Refractive Index polystyrene-sulfur nanocomposites via in situ inverse vulcanization. Scientific Reports 10(1): 14924
Li, X.; Zhang, Y.; Wang, S.; Liu, Y.; Ding, Y.; He, G.; Jiang, X.; Xiao, W.; Yu, G. 2020: Scalable High-Areal-Capacity Li-S Batteries Enabled by Sandwich-Structured Hierarchically Porous Membranes with Intrinsic Polysulfide Adsorption. Nano Letters 20(9): 6922-6929
Li, Y.; Tang, X.; Zhang, P.; Wang, Y.; Yang, X.; Wang, X.; Li, K.; Wang, Y.; Wu, N.; Tang, M.; Xiang, J.; Lin, X.; Lee, H.H.; Dong, X.; Zheng, H.; Mao, H.-K. 2021: Scalable High-Pressure Synthesis of sp2-sp3 Carbon Nanoribbon via [4 + 2] Polymerization of 1,3,5-Triethynylbenzene. Journal of Physical Chemistry Letters 12(30): 7140-7145
Hildebrand, S.; Schueth, A.; Herrler, A.; Galuske, R.; Roebroeck, A. 2019: Scalable Labeling for Cytoarchitectonic Characterization of Large Optically Cleared Human Neocortex Samples. Scientific Reports 9(1): 10880
Abou-El-Enein, M.; Elsallab, M.; Feldman, S.A.; Fesnak, A.D.; Heslop, H.E.; Marks, P.; Till, B.G.; Bauer, G.; Savoldo, B. 2021: Scalable Manufacturing of CAR T cells for Cancer Immunotherapy. Blood Cancer Discovery 2(5): 408-422
De Sousa Pinto, D.; Bandeiras, C.át.; de Almeida Fuzeta, M.; Rodrigues, C.A.V.; Jung, S.; Hashimura, Y.; Tseng, R.-J.; Milligan, W.; Lee, B.; Ferreira, F.C.; da Silva, C.áu.L.; Cabral, J.M.S. 2020: Scalable Manufacturing of Human Mesenchymal Stromal Cells in the Vertical-Wheel Bioreactor System: An Experimental and Economic Approach. Biotechnology Journal 15(8): E2070064
Shank, J.C.; Tellekamp, M.Brooks.; Wahila, M.J.; Howard, S.; Weidenbach, A.S.; Zivasatienraj, B.; Piper, L.F.J.; Doolittle, W.Alan. 2018: Scalable Memdiodes Exhibiting Rectification and Hysteresis for Neuromorphic Computing. Scientific Reports 8(1): 12935
Livesu, M. 2021: Scalable Mesh Refinement for Canonical Polygonal Schemas of Extremely High Genus Shapes. IEEE Transactions on Visualization and Computer Graphics 27(1): 254-260
Kaya, E.; Lewin, W.; Frost, D.; Hannon, B.; Zimmermann, C. 2021: Scalable Model for Delivery of Inpatient Palliative Care During a Pandemic. American Journal of Hospice and Palliative Care 38(7): 877-882
Bay, H.Hosseini.; Patino, D.; Mutlu, Z.; Romero, P.; Ozkan, M.; Ozkan, C.S. 2016: Scalable Multifunctional Ultra-thin Graphite Sponge: Free-standing, Superporous, Superhydrophobic, Oleophilic Architecture with Ferromagnetic Properties for Environmental Cleaning. Scientific Reports 6: 21858
Tsai, Y.-L.; Yeh, P.-Y.; Huang, C.-J.; Guo, C.-L.; Chang, Y.-C. 2019: Scalable Multilayer Cell Collector to Capture Circulating Tumor Cells with an Unlimited Volume Capacity. Acs Biomaterials Science and Engineering 5(6): 2725-2731
Kontio, J.A.J.; Sillanpää, M.J. 2019: Scalable Nonparametric Prescreening Method for Searching Higher-Order Genetic Interactions Underlying Quantitative Traits. Genetics 213(4): 1209-1224
Kontio, J.A.J.; Sillanpää, M.J. 2019: Scalable Nonparametric Prescreening Method for Searching Higher-Order Genetic Interactions Underlying Quantitative Traits. Genetics 213(4): 1209-1224
Creusen, G.; Akintayo, C.O.; Schumann, K.; Walther, A. 2020: Scalable One-Pot-Liquid-Phase Oligonucleotide Synthesis for Model Network Hydrogels. Journal of the American Chemical Society 142(39): 16610-16621
Nash, M.A. 2021: Scalable Online Learning in Physical Chemistry. Chimia 75(1): 64-66
Ueta, Y.; Ito, S. 2020: Scalable Orbital Tuning of the 1,3-Diphosphacyclobutane-2,4-diyl Unit of Singlet Biradicaloid. Journal of Organic Chemistry 85(22): 14384-14390
Minkin, I.; Medvedev, P. 2020: Scalable Pairwise Whole-Genome Homology Mapping of Long Genomes with BubbZ. Iscience 23(6): 101224
Xu, P.; Chen, P.-Y.; Xu, H.-C. 2020: Scalable Photoelectrochemical Dehydrogenative Cross-Coupling of Heteroarenes with Aliphatic C-H Bonds. Angewandte Chemie 59(34): 14275-14280
Hagen, A.; Lehmann, H.; Aurich, S.; Bauer, N.; Melzer, M.; Moellerberndt, J.; Patané, V.; Schnabel, C.L.; Burk, J. 2020: Scalable Production of Equine Platelet Lysate for Multipotent Mesenchymal Stromal Cell Culture. Frontiers in Bioengineering and Biotechnology 8: 613621
Dorval Courchesne, N.ém.-M.; Duraj-Thatte, A.; Tay, P.K.R.; Nguyen, P.Q.; Joshi, N.S. 2017: Scalable Production of Genetically Engineered Nanofibrous Macroscopic Materials via Filtration. Acs Biomaterials Science and Engineering 3(5): 733-741
Li, Q.; Lin, H.; Wang, O.; Qiu, X.; Kidambi, S.; Deleyrolle, L.P.; Reynolds, B.A.; Lei, Y. 2016: Scalable Production of Glioblastoma Tumor-initiating Cells in 3 Dimension Thermoreversible Hydrogels. Scientific Reports 6: 31915
De Almeida Fuzeta, M.; Bernardes, N.; Oliveira, F.D.; Costa, A.C.; Fernandes-Platzgummer, A.; Farinha, J.é P.; Rodrigues, C.A.V.; Jung, S.; Tseng, R.-J.; Milligan, W.; Lee, B.; Castanho, M.A.R.B.; Gaspar, D.; Cabral, J.M.S.; da Silva, C.áu.L. 2020: Scalable Production of Human Mesenchymal Stromal Cell-Derived Extracellular Vesicles Under Serum-/Xeno-Free Conditions in a Microcarrier-Based Bioreactor Culture System. Frontiers in Cell and Developmental Biology 8: 553444
Xu, Y.; Wang, K.; Han, J.; Liu, C.; An, Y.; Meng, Q.; Li, C.; Zhang, X.; Sun, X.; Zhang, Y.; Mao, L.; Wei, Z.; Ma, Y. 2020: Scalable Production of Wearable Solid-State Li-Ion Capacitors from N-Doped Hierarchical Carbon. Advanced Materials 32(45): E2005531
Novikov, D.; Knyazev, S.; Grinshpon, M.; Icer, P.; Skums, P.; Zelikovsky, A. 2021: Scalable Reconstruction of SARS-CoV-2 Phylogeny with Recurrent Mutations. Journal of Computational Biology: a Journal of Computational Molecular Cell Biology 28(11): 1130-1141
Luo, T.; Deng, L.; Li, A.; Zhou, C.; Shao, S.; Sun, Q.; Gong, H.; Yang, X.; Li, X. 2020: Scalable Resin Embedding Method for Large-Volume Brain Tissues with High Fluorescence Preservation Capacity. Iscience 23(11): 101717
Ranque, P.; George, C.; Dubey, R.K.; van der Jagt, R.; Flahaut, D.; Dedryvère, R.ém.; Fehse, M.; Kassanos, P.; Jager, W.F.; Sudhölter, E.J.R.; Kelder, E.M. 2020: Scalable Route to Electroactive and Light Active Perylene Diimide Dye Polymer Binder for Lithium-Ion Batteries. Acs Applied Energy Materials 3(3): 2271-2277
Molinski, J.; Tadimety, A.; Burklund, A.; Zhang, J.X.J. 2020: Scalable Signature-Based Molecular Diagnostics Through On-chip Biomarker Profiling Coupled with Machine Learning. Annals of Biomedical Engineering 48(10): 2377-2399
Qiu, Y.; Zhao, Y.; Gao, H.; Zhao, Y.; Zhang, J.; Zhang, B.; Feng, J.; Jiang, L.; Wu, Y. 2021: Scalable Single-Crystalline Organic 1D Arrays for Image Sensor. Small 17(21): E2100332
Ozcelik, D.; Jain, A.; Stambaugh, A.; Stott, M.A.; Parks, J.W.; Hawkins, A.; Schmidt, H. 2017: Scalable Spatial-Spectral Multiplexing of Single-Virus Detection Using Multimode Interference Waveguides. Scientific Reports 7(1): 12199
Kim, J.; Kim, M-Gil.; Kim, J.; Jo, S.; Kang, J.; Jo, J-Wan.; Lee, W.; Hwang, C.; Moon, J.; Yang, L.; Kim, Y-Hi.; Noh, Y-Young.; Jaung, J.Yun.; Kim, Y-Hoon.; Park, S.Kyu. 2015: Scalable Sub-micron Patterning of Organic Materials Toward High Density Soft Electronics. Scientific Reports 5: 14520
Kozhakhmetov, A.; Schuler, B.; Tan, A.M.Z.; Cochrane, K.A.; Nasr, J.R.; El-Sherif, H.; Bansal, A.; Vera, A.; Bojan, V.; Redwing, J.M.; Bassim, N.; Das, S.; Hennig, R.G.; Weber-Bargioni, A.; Robinson, J.A. 2020: Scalable Substitutional Re-Doping and its Impact on the Optical and Electronic Properties of Tungsten Diselenide. Advanced Materials 32(50): E2005159
Jin, M.L.; Park, S.; Kweon, H.; Koh, H.-J.; Gao, M.; Tang, C.; Cho, S.-Y.; Kim, Y.; Zhang, S.; Li, X.; Shin, K.; Fu, A.; Jung, H.-T.; Ahn, C.W.; Kim, D.H. 2021: Scalable Superior Chemical Sensing Performance of Stretchable Ionotronic Skin via a π-Hole Receptor Effect. Advanced Materials 33(13): E2007605
Gregorčič, P.; Zupančič, Mž.; Golobič, I. 2018: Scalable Surface Microstructuring by a Fiber Laser for Controlled Nucleate Boiling Performance of High- and Low-Surface-Tension Fluids. Scientific Reports 8(1): 7461
Martínez-Castro, E.; Suárez-Pantiga, S.; Mendoza, A. 2020: Scalable Synthesis of Esp and Rhodium(II) Carboxylates from Acetylacetone and RhCl3·xH2O. Organic Process Research and Development 24(6): 1207-1212
Konar, R.; Rosy; Perelshtein, I.; Teblum, E.; Telkhozhayeva, M.; Tkachev, M.; Richter, J.J.; Cattaruzza, E.; Pietropolli Charmet, A.; Stoppa, P.; Noked, M.; Nessim, G.D. 2020: Scalable Synthesis of Few-Layered 2D Tungsten Diselenide (2H-WSe2) Nanosheets Directly Grown on Tungsten (W) Foil Using Ambient-Pressure Chemical Vapor Deposition for Reversible Li-Ion Storage. Acs Omega 5(31): 19409-19421
Park, S.; Sung, J.; Chae, S.; Hong, J.; Lee, T.; Lee, Y.; Cha, H.; Kim, S.Y.; Cho, J. 2020: Scalable Synthesis of Hollow β-SiC/Si Anodes via Selective Thermal Oxidation for Lithium-Ion Batteries. Acs Nano 14(9): 11548-11557
Ghosh, M.; Dilwale, S.; Vijayakumar, V.; Kurungot, S. 2020: Scalable Synthesis of Manganese-Doped Hydrated Vanadium Oxide as a Cathode Material for Aqueous Zinc-Metal Battery. Acs Applied Materials and Interfaces 12(43): 48542-48552
Medoš, Ži.; Virant, M.; Štanfel, U.ša.; Žener, B.št.; Košmrlj, J.; Bešter-Rogač, M. 2020: Scalable Synthesis of Salt-free Quaternary Ammonium Carboxylate Catanionic Surfactants. Acta Chimica Slovenica 67(1): 270-275
Chang, T.Y.; Dotson, J.J.; Garcia-Garibay, M.A. 2020: Scalable Synthesis of Vicinal Quaternary Stereocenters via the Solid-State Photodecarbonylation of a Crystalline Hexasubstituted Ketone. Organic Letters 22(22): 8855-8859
Kumar, B.; Singh, S.V.; Chattopadhyay, A.; Biring, S.; Pal, B.N. 2020: Scalable Synthesis of a Sub-10 nm Chalcopyrite (CuFeS2) Nanocrystal by the Microwave-Assisted Synthesis Technique and its Application in a Heavy-Metal-Free Broad-Band Photodetector. Acs Omega 5(40): 25947-25953
Luo, M.; Wu, S.; Kalkeri, R.; Ptak, R.G.; Zhou, T.; Van Mellaert, L.; Wang, C.; Dumbre, S.G.; Block, T.; Groaz, E.; De Jonghe, S.; Li, Y.; Herdewijn, P. 2020: Scalable Synthesis, in Vitro cccDNA Reduction, and in Vivo Antihepatitis B Virus Activity of a Phosphonomethoxydeoxythreosyl Adenine Prodrug. Journal of Medicinal Chemistry 63(22): 13851-13860
Ullah, S.M.A.; Islam, M.M.; Mahmud, S.; Nooruddin, S.; Raju, S.M.T.U.; Haque, M.R. 2021: Scalable Telehealth Services to Combat Novel Coronavirus (COVID-19) Pandemic. Sn Computer Science 2(1): 18
Wu, H.; Iino, H.; Hanna, J.-I. 2020: Scalable Ultrahigh-Speed Fabrication of Uniform Polycrystalline Thin Films for Organic Transistors. Acs Applied Materials and Interfaces 12(26): 29497-29504
Guan, P.; Da Ros, F.; Lillieholm, M.; Kjøller, N-Kristian.; Hu, H.; Røge, K.Meldgaard.; Galili, M.; Morioka, T.; Oxenløwe, L.Katsuo. 2018: Scalable WDM phase regeneration in a single phase-sensitive amplifier through optical time lenses. Nature Communications 9(1): 1049
Westheimer, B.M.; Gordon, M.S. 2021: Scalable ab initio fragmentation methods based on a truncated expansion of the non-orthogonal molecular orbital model. Journal of Chemical Physics 155(15): 154101
Gürten Inal, I.I.şıl. 2021: Scalable activated carbon/graphene based supercapacitors with improved capacitance retention at high current densities. Turkish Journal of Chemistry 45(3): 927-941
Mi, R.; Chen, C.; Keplinger, T.; Pei, Y.; He, S.; Liu, D.; Li, J.; Dai, J.; Hitz, E.; Yang, B.; Burgert, I.; Hu, L. 2020: Scalable aesthetic transparent wood for energy efficient buildings. Nature Communications 11(1): 3836
Schmidt, T.L.; Beliveau, B.J.; Uca, Y.O.; Theilmann, M.; Da Cruz, F.; Wu, C-Ting.; Shih, W.M. 2015: Scalable amplification of strand subsets from chip-synthesized oligonucleotide libraries. Nature Communications 6: 8634
Deng, Y.; Bao, F.; Dai, Q.; Wu, L.F.; Altschuler, S.J. 2019: Scalable analysis of cell-type composition from single-cell transcriptomics using deep recurrent learning. Nature Methods 16(4): 311-314
Handley, T.N.G.; Jackson, M.A.; Craik, D.J. 2022: Scalable and Efficient in Planta Biosynthesis of Sunflower Trypsin Inhibitor-1 (SFTI) Peptide Therapeutics. Methods in Molecular Biology 2371: 117-142
Roco, C.; O'Connor, E.; Hills, E.; Tran, V.; Rosenberg, A. 2020: Scalable and Highly Sensitive Single Cell RNA-seq through Combinatorial Barcoding. Journal of Biomolecular Techniques: Jbt 31(Suppl): S16
Backhouse, O.J.; Santana-Bonilla, A.; Booth, G.H. 2021: Scalable and Predictive Spectra of Correlated Molecules with Moment Truncated Iterated Perturbation Theory. Journal of Physical Chemistry Letters 12(31): 7650-7658
Wilson, N.J.; Ceron, S.; Horowitz, L.; Petersen, K. 2020: Scalable and Robust Fabrication, Operation, and Control of Compliant Modular Robots. Frontiers in Robotics and Ai 7: 44
Hammer, S.; Mangold, H.Moritz.; Nguyen, A.E.; Martinez-Ta, D.; Naghibi Alvillar, S.; Bartels, L.; Krenner, H.J. 2017: Scalable and Transfer-Free Fabrication of MoS 2 /SiO 2 Hybrid Nanophotonic Cavity Arrays with Quality Factors Exceeding 4000. Scientific Reports 7(1): 7251
Rajkomar, A.; Oren, E.; Chen, K.; Dai, A.M.; Hajaj, N.; Hardt, M.; Liu, P.J.; Liu, X.; Marcus, J.; Sun, M.; Sundberg, P.; Yee, H.; Zhang, K.; Zhang, Y.; Flores, G.; Duggan, G.E.; Irvine, J.; Le, Q.; Litsch, K.; Mossin, A.; Tansuwan, J.; Wang, D.; Wexler, J.; Wilson, J.; Ludwig, D.; Volchenboum, S.L.; Chou, K.; Pearson, M.; Madabushi, S.; Shah, N.H.; Butte, A.J.; Howell, M.D.; Cui, C.; Corrado, G.S.; Dean, J. 2018: Scalable and accurate deep learning with electronic health records. Npj Digital Medicine 1: 18
Herzog, R.én.; Morales, A.; Mora, S.; Araya, J.ín.; Escobar, M.ía.-J.é; Palacios, A.G.; Cofré, R. 2021: Scalable and accurate method for neuronal ensemble detection in spiking neural networks. Plos one 16(7): E0251647
Dydio, Pł.; Reek, J.N.H. 2014: Scalable and chromatography-free synthesis of 2-(2-formylalkyl)arenecarboxylic acid derivatives through the supramolecularly controlled hydroformylation of vinylarene-2-carboxylic acids. Nature Protocols 9(5): 1183-1191
Ji, Q.; Hu, T.; Chen, Q.; Xin, W.; Liu, X.; Chen, H. 2020: Scalable and continuous preparation of nano-stirbars by electrospinning. Chemical Communications 56(79): 11767-11770
Siddique, R.Hasan.; Mertens, J.; Hölscher, H.; Vignolini, S. 2017: Scalable and controlled self-assembly of aluminum-based random plasmonic metasurfaces. Light Science and Applications 6(7): E17015
Wang, D.; Tian, H.; Yang, Y.; Xie, D.; Ren, T-Ling.; Zhang, Y. 2013: Scalable and direct growth of graphene micro ribbons on dielectric substrates. Scientific Reports 3: 1348
Lozada-Hidalgo, M.; Zhang, S.; Hu, S.; Esfandiar, A.; Grigorieva, I.V.; Geim, A.K. 2017: Scalable and efficient separation of hydrogen isotopes using graphene-based electrochemical pumping. Nature Communications 8: 15215
Aghazadeh, R.; Frounchi, J.; Montagna, F.; Benatti, S. 2020: Scalable and energy efficient seizure detection based on direct use of compressively-sensed EEG data on an ultra low power multi-core architecture. Computers in Biology and Medicine 125: 104004
Teng, D.; Kong, J.; Wang, F. 2019: Scalable and flexible management of medical image big data. Distributed and Parallel Databases 37(2): 235-250
Wei, N.; Li, Z.; Li, Q.; Yang, E.; Xu, R.; Song, X.; Sun, J.; Dou, C.; Tian, J.; Cui, H. 2021: Scalable and low-cost fabrication of hydrophobic PVDF/WS2 porous membrane for highly efficient solar steam generation. Journal of Colloid and Interface Science 588: 369-377
Aitken, J.; Ambrose, K.; Barrell, S.; Beale, R.; Bineva-Todd, G.; Biswas, D.; Byrne, R.; Caidan, S.; Cherepanov, P.; Churchward, L.; Clark, G.; Crawford, M.; Cubitt, L.; Dearing, V.; Earl, C.; Edwards, A.; Ekin, C.; Fidanis, E.; Gaiba, A.; Gamblin, S.; Gandhi, S.; Goldman, J.; Goldstone, R.; Grant, P.R.; Greco, M.; Heaney, J.; Hindmarsh, S.; Houlihan, C.F.; Howell, M.; Hubank, M.; Hughes, D.; Instrell, R.; Jackson, D.; Jamal-Hanjani, M.; Jiang, M.; Johnson, M.; Jones, L.; Kanu, N.; Kassiotis, G.; Kirk, S.; Kjaer, S.; Levett, A.; Levett, 2020: Scalable and robust SARS-CoV-2 testing in an academic center. Nature Biotechnology 38(8): 927-931
Lee, S.-Y. 2020: Scalable and safer printed Zn//MnO2 planar micro-batteries for smart electronics. National Science Review 7(1): 5-6
Doyon, T.J.; Kumar, P.; Thein, S.; Kim, M.; Stitgen, A.; Grieger, A.M.; Madigan, C.; Willoughby, P.H.; Buller, A.Richard. 2021: Scalable and selective β-hydroxy-α-amino acid synthesis catalyzed by promiscuous L-threonine transaldolase ObiH. Chembiochem: a European Journal of Chemical Biology 2021
Horn, E.J.; Rosen, B.R.; Chen, Y.; Tang, J.; Chen, K.; Eastgate, M.D.; Baran, P.S. 2016: Scalable and sustainable electrochemical allylic C-H oxidation. Nature 533(7601): 77-81
Yao, N.Y.; Jiang, L.; Gorshkov, A.V.; Maurer, P.C.; Giedke, G.; Cirac, J.I.; Lukin, M.D. 2012: Scalable architecture for a room temperature solid-state quantum information processor. Nature Communications 3: 800
Clark, D.A.; Mitra, P.P.; Wang, S.S. 2001: Scalable architecture in mammalian brains. Nature 411(6834): 189-193
Chakrabarty, S.; Wang, Y.; Perkins, J.C.; Narayan, A.R.H. 2020: Scalable biocatalytic C-H oxyfunctionalization reactions. Chemical Society Reviews 49(22): 8137-8155
Jensen, M.T.; Rønne, M.H.; Ravn, A.K.; Juhl, Ré.W.; Nielsen, D.U.; Hu, X-Ming.; Pedersen, S.U.; Daasbjerg, K.; Skrydstrup, T. 2017: Scalable carbon dioxide electroreduction coupled to carbonylation chemistry. Nature Communications 8(1): 489
Lin, K-Ting.; Hsu, T.; Lee, C-Yu.; Hoi, I-Chun.; Lin, G-Dar. 2019: Scalable collective Lamb shift of a 1D superconducting qubit array in front of a mirror. Scientific Reports 9(1): 19175
Rix, G.; Watkins-Dulaney, E.J.; Almhjell, P.J.; Boville, C.E.; Arnold, F.H.; Liu, C.C. 2020: Scalable continuous evolution for the generation of diverse enzyme variants encompassing promiscuous activities. Nature Communications 11(1): 5644
Nguyen, P.; Pease, N.A.; Kueh, H.Y. 2021: Scalable control of developmental timetables by epigenetic switching networks. Journal of the Royal Society Interface 18(180): 20210109
Lee, H.; Kim, D-Wook.; Remedios, R.; Anthony, T.E.; Chang, A.; Madisen, L.; Zeng, H.; Anderson, D.J. 2014: Scalable control of mounting and attack by Esr1+ neurons in the ventromedial hypothalamus. Nature 509(7502): 627-632
Khan, A.; Diaz, A.; Brooks, A.E.; Burks, S.S.; Athauda, G.; Wood, P.; Lee, Y.-S.; Silvera, R.; Donaldson, M.; Pressman, Y.; Anderson, K.D.; Bunge, M.B.; Pearse, D.D.; Dietrich, W.D.; Guest, J.D.; Levi, A.D. 2022: Scalable culture techniques to generate large numbers of purified human Schwann cells for clinical trials in human spinal cord and peripheral nerve injuries. Journal of Neurosurgery. Spine 36(1): 135-144
Tang, F.; Uchendu, I.; Wang, F.; Dodge, H.H.; Zhou, J. 2020: Scalable diagnostic screening of mild cognitive impairment using AI dialogue agent. Scientific Reports 10(1): 5732
Kouřil, K.; Kouřilová, H.; Bartram, S.; Levitt, M.H.; Meier, B. 2019: Scalable dissolution-dynamic nuclear polarization with rapid transfer of a polarized solid. Nature Communications 10(1): 1733
Gonzales, D.L.; Badhiwala, K.N.; Vercosa, D.G.; Avants, B.W.; Liu, Z.; Zhong, W.; Robinson, J.T. 2017: Scalable electrophysiology in intact small animals with nanoscale suspended electrode arrays. Nature Nanotechnology 12(7): 684-691
Manipatruni, S.; Nikonov, D.E.; Lin, C-Ching.; Gosavi, T.A.; Liu, H.; Prasad, B.; Huang, Y-Lin.; Bonturim, E.; Ramesh, R.; Young, I.A. 2019: Scalable energy-efficient magnetoelectric spin-orbit logic. Nature 565(7737): 35-42
Kumar, P.V.; Bardhan, N.M.; Tongay, S.; Wu, J.; Belcher, A.M.; Grossman, J.C. 2014: Scalable enhancement of graphene oxide properties by thermally driven phase transformation. Nature Chemistry 6(2): 151-158
Leguy, J.; Glavatskikh, M.; Cauchy, T.; Da Mota, B. 2021: Scalable estimator of the diversity for de novo molecular generation resulting in a more robust QM dataset (OD9) and a more efficient molecular optimization. Journal of Cheminformatics 13(1): 76
Kornijcuk, V.; Lim, H.; Kim, I.; Park, J-Keuk.; Lee, W-Seong.; Choi, J-Hae.; Choi, B.Joon.; Jeong, D.Seok. 2017: Scalable excitatory synaptic circuit design using floating gate based leaky integrators. Scientific Reports 7(1): 17579
Zweigerdt, R.; Olmer, R.; Singh, H.; Haverich, A.; Martin, U. 2011: Scalable expansion of human pluripotent stem cells in suspension culture. Nature Protocols 6(5): 689-700
Preciado, E.; Schülein, F.J.R.; Nguyen, A.E.; Barroso, D.; Isarraraz, M.; von Son, G.; Lu, I-Hsi.; Michailow, W.; Möller, B.; Klee, V.; Mann, J.; Wixforth, A.; Bartels, L.; Krenner, H.J. 2015: Scalable fabrication of a hybrid field-effect and acousto-electric device by direct growth of monolayer MoS2/LiNbO3. Nature Communications 6: 8593
El-Kady, M.F.; Kaner, R.B. 2013: Scalable fabrication of high-power graphene micro-supercapacitors for flexible and on-chip energy storage. Nature Communications 4: 1475
Takahashi, H.; Jung Heo, Y.; Arakawa, N.; Kan, T.; Matsumoto, K.; Kawano, R.; Shimoyama, I. 2016: Scalable fabrication of microneedle arrays via spatially controlled UV exposure. Microsystems and Nanoengineering 2: 16049
Wang, X.; Zheng, S.; Zhou, F.; Qin, J.; Shi, X.; Wang, S.; Sun, C.; Bao, X.; Wu, Z.-S. 2020: Scalable fabrication of printed Zn//MnO2 planar micro-batteries with high volumetric energy density and exceptional safety. National Science Review 7(1): 64-72
Choi, J.; Lee, C.C.; Park, S. 2019: Scalable fabrication of sub-10 nm polymer nanopores for DNA analysis. Microsystems and Nanoengineering 5: 12
Kaplas, T.; Matikainen, A.; Nuutinen, T.; Suvanto, S.; Vahimaa, P.; Svirko, Y. 2017: Scalable fabrication of the graphitic substrates for graphene-enhanced Raman spectroscopy. Scientific Reports 7(1): 8561
Naguib, M.J.; Makhlouf, A.I.A. 2021: Scalable flibanserin nanocrystal-based novel sublingual platform for female hypoactive sexual desire disorder: engineering, optimization adopting the desirability function approach and in vivo pharmacokinetic study. Drug Delivery 28(1): 1301-1311
Schröder, T.; Trusheim, M.E.; Walsh, M.; Li, L.; Zheng, J.; Schukraft, M.; Sipahigil, A.; Evans, R.E.; Sukachev, D.D.; Nguyen, C.T.; Pacheco, J.L.; Camacho, R.M.; Bielejec, E.S.; Lukin, M.D.; Englund, D. 2017: Scalable focused ion beam creation of nearly lifetime-limited single quantum emitters in diamond nanostructures. Nature Communications 8: 15376
Kim, H.; Lim, H-Dae.; Kim, S-Wook.; Hong, J.; Seo, D-Hwa.; Kim, D-Chul.; Jeon, S.; Park, S.; Kang, K. 2013: Scalable functionalized graphene nano-platelets as tunable cathodes for high-performance lithium rechargeable batteries. Scientific Reports 3: 1506
Kosuri, S.; Eroshenko, N.; Leproust, E.M.; Super, M.; Way, J.; Li, J.Billy.; Church, G.M. 2010: Scalable gene synthesis by selective amplification of DNA pools from high-fidelity microchips. Nature Biotechnology 28(12): 1295-1299
Hussain, A.; Ding, E.-X.; Mclean, B.; Mustonen, K.; Ahmad, S.; Tavakkoli, M.; Page, A.J.; Zhang, Q.; Kotakoski, J.; Kauppinen, E.I. 2020: Scalable growth of single-walled carbon nanotubes with a highly uniform structure. Nanoscale 12(23): 12263-12267
Gao, Q.; Zhang, Z.; Xu, X.; Song, J.; Li, X.; Wu, Y. 2018: Scalable high performance radio frequency electronics based on large domain bilayer MoS 2. Nature Communications 9(1): 4778
Legutki, J.Barten.; Zhao, Z-Gong.; Greving, M.; Woodbury, N.; Johnston, S.Albert.; Stafford, P. 2014: Scalable high-density peptide arrays for comprehensive health monitoring. Nature Communications 5: 4785
Gil-Santos, E.; Baker, C.; Lemaître, A.; Gomez, C.; Leo, G.; Favero, I. 2017: Scalable high-precision tuning of photonic resonators by resonant cavity-enhanced photoelectrochemical etching. Nature Communications 8: 14267
Yang, H.; Mao, X.; Qin, G.-Q.; Wang, M.; Zhang, H.; Ruan, D.; Long, G.-L. 2021: Scalable higher-order exceptional surface with passive resonators. Optics Letters 46(16): 4025-4028
Rao, M. 2008: Scalable human ES culture for therapeutic use: propagation, differentiation, genetic modification and regulatory issues. Gene Therapy 15(2): 82-88
Byeon, J.Hoon. 2016: Scalable hybrid chemical manufacture to photothermal therapy: PEG-capped phototransducers. Scientific Reports 6: 31351
Yabuno, M.; Miyajima, S.; Miki, S.; Terai, H. 2020: Scalable implementation of a superconducting nanowire single-photon detector array with a superconducting digital signal processor. Optics Express 28(8): 12047-12057
Grim, J.Q.; Bracker, A.S.; Zalalutdinov, M.; Carter, S.G.; Kozen, A.C.; Kim, M.; Kim, C.Soo.; Mlack, J.T.; Yakes, M.; Lee, B.; Gammon, D. 2019: Scalable in operando strain tuning in nanophotonic waveguides enabling three-quantum-dot superradiance. Nature Materials 18(9): 963-969
Maharao, N.; Antontsev, V.; Hou, H.; Walsh, J.; Varshney, J. 2020: Scalable in silico Simulation of Transdermal Drug Permeability: Application of BIOiSIM Platform. Drug Design Development and Therapy 14: 2307-2317
John, A.R.; Raju, S.; Cadnum, J.L.; Lee, K.; McClellan, P.; Akkus, O.; Miller, S.K.; Jennings, W.D.; Buehler, J.A.; Li, D.F.; Redmond, S.N.; Braskie, M.; Hoyen, C.K.; Donskey, C.J. 2021: Scalable in-hospital decontamination of N95 filtering face-piece respirator with a peracetic acid room disinfection system. Infection Control and Hospital Epidemiology 42(6): 678-687
Zechner, C.; Unger, M.; Pelet, S.; Peter, M.; Koeppl, H. 2014: Scalable inference of heterogeneous reaction kinetics from pooled single-cell recordings. Nature Methods 11(2): 197-202
Vanderpoorten, O.; Peter, Q.; Challa, P.K.; Keyser, U.F.; Baumberg, J.; Kaminski, C.F.; Knowles, T.P.J. 2019: Scalable integration of nano-, and microfluidics with hybrid two-photon lithography. Microsystems and Nanoengineering 5: 40
Chamlagain, B.; Withanage, S.S.; Johnston, A.C.; Khondaker, S.I. 2020: Scalable lateral heterojunction by chemical doping of 2D TMD thin films. Scientific Reports 10(1): 12970
Qu, J.; Hou, X.; Fan, W.; Xi, G.; Diao, H.; Liu, X. 2015: Scalable lithography from Natural DNA Patterns via polyacrylamide gel. Scientific Reports 5: 17872
Bruzewicz, C.D.; McConnell, R.; Chiaverini, J.; Sage, J.M. 2016: Scalable loading of a two-dimensional trapped-ion array. Nature Communications 7: 13005
Kastner, D.B.; Kharazia, V.; Nevers, R.; Smyth, C.; Astudillo-Maya, D.A.; Williams, G.M.; Yang, Z.; Holobetz, C.M.; Santina, L.Della.; Parkinson, D.Y.; Frank, L.M. 2020: Scalable method for micro-CT analysis enables large scale quantitative characterization of brain lesions and implants. Scientific Reports 10(1): 20851
Khope, A.S.P.; Helkey, R.; Liu, S.; Khope, S.; Alferness, R.C.; Saleh, A.A.M.; Bowers, J.E. 2021: Scalable multicast hybrid broadband-crossbar wavelength selective switch: proposal and analysis. Optics Letters 46(2): 448-451
Minkin, I.; Medvedev, P. 2020: Scalable multiple whole-genome alignment and locally collinear block construction with SibeliaZ. Nature Communications 11(1): 6327
Ren, X.; Nam, W.; Ghassemi, P.; Strobl, J.S.; Kim, I.; Zhou, W.; Agah, M. 2020: Scalable nanolaminated SERS multiwell cell culture assay. Microsystems and Nanoengineering 6: 47
Hobson, J.J.; Savage, A.C.; Dwyer, A.B.; Unsworth, C.; Massam, J.; Arshad, U.; Pertinez, H.; Box, H.; Tatham, L.; Rajoli, R.K.R.; Neary, M.; Sharp, J.; Valentijn, A.; David, C.; Curley, P.; Liptrott, N.J.; McDonald, T.O.; Owen, A.; Rannard, S.P. 2021: Scalable nanoprecipitation of niclosamide and in vivo demonstration of long-acting delivery after intramuscular injection. Nanoscale 13(13): 6410-6416
Tsuchiya, M.; Lai, B-Kuai.; Ramanathan, S. 2011: Scalable nanostructured membranes for solid-oxide fuel cells. Nature Nanotechnology 6(5): 282-286
Li, H.; Wen, P.; Itanze, D.S.; Hood, Z.D.; Adhikari, S.; Lu, C.; Ma, X.; Dun, C.; Jiang, L.; Carroll, D.L.; Qiu, Y.; Geyer, S.M. 2020: Scalable neutral H 2 O 2 electrosynthesis by platinum diphosphide nanocrystals by regulating oxygen reduction reaction pathways. Nature Communications 11(1): 3928
Shim, H-Woo.; Lim, A-Hyeon.; Kim, J-Chan.; Jang, E.; Seo, S-Deok.; Lee, G-Hee.; Kim, T.Doohun.; Kim, D-Wan. 2013: Scalable one-pot bacteria-templating synthesis route toward hierarchical, porous-Co3O4 superstructures for supercapacitor electrodes. Scientific Reports 3: 2325
Yan, H.; Suk Oh, J.; Lee, J-Woong.; Eui Song, C. 2012: Scalable organocatalytic asymmetric Strecker reactions catalysed by a chiral cyanide generator. Nature Communications 3: 1212
Borregaard, J.; Zugenmaier, M.; Petersen, J.M.; Shen, H.; Vasilakis, G.; Jensen, K.; Polzik, E.S.; Sørensen, A.S. 2016: Scalable photonic network architecture based on motional averaging in room temperature gas. Nature Communications 7: 11356
Jagielski, J.; Solari, S.F.; Jordan, L.; Scullion, D.; Blülle, B.; Li, Y-Ting.; Krumeich, F.; Chiu, Y-Cheng.; Ruhstaller, B.; Santos, E.J.G.; Shih, C-Jen. 2020: Scalable photonic sources using two-dimensional lead halide perovskite superlattices. Nature Communications 11(1): 387
Martinod, M-Antoine.; Norris, B.; Tuthill, P.; Lagadec, T.; Jovanovic, N.; Cvetojevic, N.; Gross, S.; Arriola, A.; Gretzinger, T.; Withford, M.J.; Guyon, O.; Lozi, J.; Vievard, Sébastien.; Deo, V.; Lawrence, J.S.; Leon-Saval, S. 2021: Scalable photonic-based nulling interferometry with the dispersed multi-baseline GLINT instrument. Nature Communications 12(1): 2465
Couture, L.A. 2010: Scalable pluripotent stem cell culture. Nature Biotechnology 28(6): 562-563
Nieguth, R.é; Wiemann, L.O.; Eckstein, M.; Thum, O.; Poncelet, D.; Ansorge-Schumacher, M.B. 2017: Scalable preparation of silCoat-biocatalysts by use of a fluidized-bed reactor. Engineering in Life Sciences 17(6): 613-619
Agrawal, A.; Chiu, A.M.; Le, M.; Halperin, E.; Sankararaman, S. 2020: Scalable probabilistic PCA for large-scale genetic variation data. Plos Genetics 16(5): E1008773
Garrigós-Martínez, J.; Weninger, A.; Montesinos-Seguí, J.é L.; Schmid, C.; Valero, F.; Rinnofner, C.; Glieder, A.; Garcia-Ortega, X. 2021: Scalable production and application of Pichia pastoris whole cell catalysts expressing human cytochrome P450 2C9. Microbial Cell Factories 20(1): 90
He, J.; Lu, C.; Jiang, H.; Han, F.; Shi, X.; Wu, J.; Wang, L.; Chen, T.; Wang, J.; Zhang, Y.; Yang, H.; Zhang, G.; Sun, X.; Wang, B.; Chen, P.; Wang, Y.; Xia, Y.; Peng, H. 2021: Scalable production of high-performing woven lithium-ion fibre batteries. Nature 597(7874): 57-63
Paton, K.R.; Varrla, E.; Backes, C.; Smith, R.J.; Khan, U.; O'Neill, A.; Boland, C.; Lotya, M.; Istrate, O.M.; King, P.; Higgins, T.; Barwich, S.; May, P.; Puczkarski, P.; Ahmed, I.; Moebius, M.; Pettersson, H.; Long, E.; Coelho, Jão.; O'Brien, S.E.; McGuire, E.K.; Sanchez, B.Mendoza.; Duesberg, G.S.; McEvoy, N.; Pennycook, T.J.; Downing, C.; Crossley, A.; Nicolosi, V.; Coleman, J.N. 2014: Scalable production of large quantities of defect-free few-layer graphene by shear exfoliation in liquids. Nature Materials 13(6): 624-630
Wei, H-Rui.; Deng, F-Guo. 2014: Scalable quantum computing based on stationary spin qubits in coupled quantum dots inside double-sided optical microcavities. Scientific Reports 4: 7551
Kyaw, T.H.; Felicetti, S.; Romero, G.; Solano, E.; Kwek, L-C. 2015: Scalable quantum memory in the ultrastrong coupling regime. Scientific Reports 5: 8621
Takeuchi, N.; China, F.; Miki, S.; Miyajima, S.; Yabuno, M.; Yoshikawa, N.; Terai, H. 2020: Scalable readout interface for superconducting nanowire single-photon detectors using AQFP and RSFQ logic families. Optics Express 28(11): 15824-15834
Kim, T.; Weinberg, B.; Wong, W.; Lu, T.K. 2021: Scalable recombinase-based gene expression cascades. Nature Communications 12(1): 2711
Drees, D.; Scherzinger, A.; Hägerling, R.é; Kiefer, F.; Jiang, X. 2021: Scalable robust graph and feature extraction for arbitrary vessel networks in large volumetric datasets. Bmc Bioinformatics 22(1): 346
Xiao, X.; Song, H.; Lin, S.; Zhou, Y.; Zhan, X.; Hu, Z.; Zhang, Q.; Sun, J.; Yang, B.; Li, T.; Jiao, L.; Zhou, J.; Tang, J.; Gogotsi, Y. 2016: Scalable salt-templated synthesis of two-dimensional transition metal oxides. Nature Communications 7: 11296
Ahmmed, K.T.; Chan, H.P.; Li, B. 2020: Scalable selective high order mode pass filter architecture with asymmetric directional couplers. Optics Express 28(19): 28465-28478
Angkurawaranon, C.; Papachristou Nadal, I.; Mallinson, P.A.C.; Pinyopornpanish, K.; Quansri, O.; Rerkasem, K.; Srivanichakorn, S.; Techakehakij, W.; Wichit, N.; Pateekhum, C.; Hashmi, A.H.; Hanson, K.; Khunti, K.; Kinra, S. 2020: Scalable solution for delivery of diabetes self-management education in Thailand (DSME-T): a cluster randomised trial study protocol. Bmj Open 10(10): E036963
Khadke, S.; Roces, C.B.; Donaghey, R.; Giacobbo, V.; Su, Y.; Perrie, Y. 2020: Scalable solvent-free production of liposomes. Journal of Pharmacy and Pharmacology 72(10): 1328-1340
Liu, X.; Chang, Q.; Yan, M.; Wang, X.; Zhang, H.; Zhou, H.; Fan, T. 2020: Scalable spectrally selective mid-infrared meta-absorbers for advanced radiative thermal engineering. Physical Chemistry Chemical Physics: Pccp 22(25): 13965-13974
He, Y-Qiu.; Ding, D.; Yan, F-Li.; Gao, T. 2017: Scalable symmetry detector and its applications by using beam splitters and weak nonlinearities. Scientific Reports 7(1): 15356
Leonard, D.J.; Zieleniewski, F.; Wellhöfer, I.; Baker, E.G.; Ward, J.W.; Woolfson, D.N.; Clayden, J. 2021: Scalable synthesis and coupling of quaternary α-arylated amino acids: α-aryl substituents are tolerated in α-helical peptides. Chemical Science 12(27): 9386-9390
Wang, T.C.; Vermeulen, N.A.; Kim, I.Soo.; Martinson, A.B.F.; Stoddart, J.Fraser.; Hupp, J.T.; Farha, O.K. 2016: Scalable synthesis and post-modification of a mesoporous metal-organic framework called NU-1000. Nature Protocols 11(1): 149-162
Alqahtani, T.; Khan, M.Dilshad.; Lewis, D.J.; Zhong, X.Li.; O'Brien, P. 2021: Scalable synthesis of Cu-Sb-S phases from reactive melts of metal xanthates and effect of cationic manipulation on structural and optical properties. Scientific Reports 11(1): 1887
An, W.; Gao, B.; Mei, S.; Xiang, B.; Fu, J.; Wang, L.; Zhang, Q.; Chu, P.K.; Huo, K. 2019: Scalable synthesis of ant-nest-like bulk porous silicon for high-performance lithium-ion battery anodes. Nature Communications 10(1): 1447
Yu, D.; Goh, K.; Wang, H.; Wei, L.; Jiang, W.; Zhang, Q.; Dai, L.; Chen, Y. 2014: Scalable synthesis of hierarchically structured carbon nanotube-graphene fibres for capacitive energy storage. Nature Nanotechnology 9(7): 555-562
Zhang, Y.; Chen, K.; Gong, B.; Yin, Y.; Zhou, S.; Xiao, K. 2021: Scalable synthesis of monodisperse and recyclable sulfonated polystyrene microspheres for sustainable elimination of heavy metals in wastewater. Environmental Technology 2021: 1-34
Favors, Z.; Wang, W.; Bay, H.Hosseini.; Mutlu, Z.; Ahmed, K.; Liu, C.; Ozkan, M.; Ozkan, C.S. 2014: Scalable synthesis of nano-silicon from beach sand for long cycle life Li-ion batteries. Scientific Reports 4: 5623
Goymer, P. 2021: Scalable targets for Asia. Nature Ecology and Evolution 5(10): 1332
Sprinkle, M.; Ruan, M.; Hu, Y.; Hankinson, J.; Rubio-Roy, M.; Zhang, B.; Wu, X.; Berger, C.; de Heer, W.A. 2010: Scalable templated growth of graphene nanoribbons on SiC. Nature Nanotechnology 5(10): 727-731
Ding, T.; Chan, K.Hoe.; Zhou, Y.; Wang, X-Qiao.; Cheng, Y.; Li, T.; Ho, G.Wei. 2020: Scalable thermoelectric fibers for multifunctional textile-electronics. Nature Communications 11(1): 6006
Nikou, A.; Heshmati-Alamdari, S.; Dimarogonas, D.V. 2020: Scalable time-constrained planning of multi-robot systems. Autonomous Robots 44(8): 1451-1467
Reimer, A.; Vasilevich, A.; Hulshof, F.; Viswanathan, P.; van Blitterswijk, C.A.; de Boer, J.; Watt, F.M. 2016: Scalable topographies to support proliferation and Oct4 expression by human induced pluripotent stem cells. Scientific Reports 6: 18948
Mocanu, D.Constantin.; Mocanu, E.; Stone, P.; Nguyen, P.H.; Gibescu, M.; Liotta, A. 2018: Scalable training of artificial neural networks with adaptive sparse connectivity inspired by network science. Nature Communications 9(1): 2383
Colegrove, E.; Albin, D.S.; Moutinho, H.R.; Amarasinghe, M.; Burst, J.M.; Metzger, W.K. 2020: Scalable ultrafast epitaxy of large-grain and single-crystal II-VI semiconductors. Scientific Reports 10(1): 2426
Zhao, Y.; You, S.Sean.; Zhang, A.; Lee, J-Hyun.; Huang, J.; Lieber, C.M. 2019: Scalable ultrasmall three-dimensional nanowire transistor probes for intracellular recording. Nature Nanotechnology 14(8): 783-790
Shin, D.; Kim, J.; Kim, C.; Bae, K.; Baek, S.; Kang, G.; Urzhumov, Y.; Smith, D.R.; Kim, K. 2017: Scalable variable-index elasto-optic metamaterials for macroscopic optical components and devices. Nature Communications 8: 16090
Wang, H.; Zhu, Q.; Ding, L.; Shen, Y.; Yang, C.-Y.; Xu, F.; Shu, C.; Guo, Y.; Xiong, Z.; Shan, Q.; Jia, F.; Su, P.; Yang, Q.-R.; Li, B.; Cheng, Y.; He, X.; Chen, X.; Wu, F.; Zhou, J.-N.; Xu, F.; Han, H.; Lau, P.-M.; Bi, G.-Q. 2019: Scalable volumetric imaging for ultrahigh-speed brain mapping at synaptic resolution. National Science Review 6(5): 982-992
Wang, Q.; Hisatomi, T.; Jia, Q.; Tokudome, H.; Zhong, M.; Wang, C.; Pan, Z.; Takata, T.; Nakabayashi, M.; Shibata, N.; Li, Y.; Sharp, I.D.; Kudo, A.; Yamada, T.; Domen, K. 2016: Scalable water splitting on particulate photocatalyst sheets with a solar-to-hydrogen energy conversion efficiency exceeding 1. Nature Materials 15(6): 611-615
Adalsteinsson, V.A.; Ha, G.; Freeman, S.S.; Choudhury, A.D.; Stover, D.G.; Parsons, H.A.; Gydush, G.; Reed, S.C.; Rotem, D.; Rhoades, J.; Loginov, D.; Livitz, D.; Rosebrock, D.; Leshchiner, I.; Kim, J.; Stewart, C.; Rosenberg, M.; Francis, J.M.; Zhang, C-Zhong.; Cohen, O.; Oh, C.; Ding, H.; Polak, P.; Lloyd, M.; Mahmud, S.; Helvie, K.; Merrill, M.S.; Santiago, R.A.; O'Connor, E.P.; Jeong, S.H.; Leeson, R.; Barry, R.M.; Kramkowski, J.F.; Zhang, Z.; Polacek, L.; Lohr, J.G.; Schleicher, M.; Lipscomb, E.; Saltzman, A.; Oliver, N.M.; Marini, L.; Waks, A.G. 2017: Scalable whole-exome sequencing of cell-free DNA reveals high concordance with metastatic tumors. Nature Communications 8(1): 1324
Zhang, Y.-Y.; Yang, G.-W.; Xie, R.; Yang, L.; Li, B.; Wu, G.-P. 2020: Scalable, Durable, and Recyclable Metal-Free Catalysts for Highly Efficient Conversion of CO2 to Cyclic Carbonates. Angewandte Chemie 59(51): 23291-23298
Bennett, R.S.; Postnikova, E.N.; Liang, J.; Gross, R.; Mazur, S.; Dixit, S.; Lukin, V.V.; Kocher, G.; Yu, S.; Georgia-Clark, S.; Gerhardt, D.; Cai, Y.; Marron, L.; Holbrook, M.R. 2021: Scalable, Micro-Neutralization Assay for Qualitative Assessment of SARS-CoV-2 (COVID-19) Virus-Neutralizing Antibodies in Human Clinical Samples. Biorxiv: the Preprint Server for Biology 2021
Rathnasinghe, R.; Karlicek, R.F.; Schotsaert, M.; Koffas, M.A.; Arduini, B.; Jangra, S.; Wang, B.; Davis, J.L.; Alnaggar, M.; Costa, A.; Vincent, R.; Garcia-Sastre, A.; Vashishth, D.; Balchandani, P. 2020: Scalable, effective, and rapid decontamination of SARS-CoV-2 contaminated N95 respirators using germicidal ultra-violet C (UVC) irradiation device. Medrxiv: the Preprint Server for Health Sciences 2020
Rathnasinghe, R.; Karlicek, R.F.; Schotsaert, M.; Koffas, M.; Arduini, B.L.; Jangra, S.; Wang, B.; Davis, J.L.; Alnaggar, M.; Costa, A.; Vincent, R.; García-Sastre, A.; Vashishth, D.; Balchandani, P. 2021: Scalable, effective, and rapid decontamination of SARS-CoV-2 contaminated N95 respirators using germicidal ultraviolet C (UVC) irradiation device. Scientific Reports 11(1): 19970
Xue, J.; Zhou, Z-Kai.; Wei, Z.; Su, R.; Lai, J.; Li, J.; Li, C.; Zhang, T.; Wang, X-Hua. 2015: Scalable, full-colour and controllable chromotropic plasmonic printing. Nature Communications 6: 8906
Lee, S.; Ji, L.; De Palma, A.C.; Yu, E.T. 2021: Scalable, highly stable Si-based metal-insulator-semiconductor photoanodes for water oxidation fabricated using thin-film reactions and electrodeposition. Nature Communications 12(1): 3982
Dalvie, N.C.; Biedermann, A.M.; Rodriguez-Aponte, S.A.; Naranjo, C.A.; Rao, H.D.; Rajurkar, M.P.; Lothe, R.R.; Shaligram, U.S.; Johnston, R.S.; Crowell, L.E.; Castelino, S.; Tracey, M.K.; Whittaker, C.A.; Love, J.C. 2021: Scalable, methanol-free manufacturing of the SARS-CoV-2 receptor binding domain in engineered Komagataella phaffii. Biorxiv: the Preprint Server for Biology 2021
Menacho-Melgar, R.; Ye, Z.; Moreb, E.A.; Yang, T.; Efromson, J.P.; Decker, J.S.; Wang, R.; Lynch, M.D. 2020: Scalable, two-stage, autoinduction of recombinant protein expression in E. coli utilizing phosphate depletion. Biotechnology and Bioengineering 117(9): 2715-2727
Galinski, H.; Favraud, G.; Dong, H.; Gongora, J.S.Totero.; Favaro, Gégory.; Döbeli, M.; Spolenak, R.; Fratalocchi, A.; Capasso, F. 2017: Scalable, ultra-resistant structural colors based on network metamaterials. Light Science and Applications 6(5): E16233
Wang, S.; Wang, Y.; Zou, Y.; Chen, G.; Ouyang, J.; Jia, D.; Zhou, Y. 2020: Scalable-Manufactured Superhydrophobic Multilayer Nanocomposite Coating with Mechanochemical Robustness and High-Temperature Endurance. Acs Applied Materials and Interfaces 12(31): 35502-35512
Foppolo, F.; Mazzaggio, G.; Panzeri, F.; Surian, L. 2021: Scalar and ad-hoc pragmatic inferences in children: guess which one is easier. Journal of Child Language 48(2): 350-372
Foppolo, F.; Mazzaggio, G.; Panzeri, F.; Surian, L. 2021: Scalar and ad-hoc pragmatic inferences in children: guess which one is easier. Journal of Child Language 48(2): 350-372
Ramaniuk, A.; Trippenbach, M.; Jung, P.S.; Christodoulides, D.N.; Krolikowski, W.; Assanto, G. 2021: Scalar and vector supermode solitons owing to competing nonlocal nonlinearities. Optics Express 29(6): 8015-8023
Thierry-Mieg, J. 2020: Scalar anomaly cancellation reveals the hidden superalgebraic structure of the quantum chiral SU(2/1) model of leptons and quarks. Journal of High Energy Physics: Jhep 2020(10)
Zhao, M.; Liu, X.; Dai, X.; Dong, S.; Han, Z. 2021: Scalar implicature is not a default process: An ERP study of the scalar implicature processing under the effect of focus factor. Brain Research 1765: 147499
Taloni, A.; Benassi, A.; Sandfeld, S.; Zapperi, S. 2015: Scalar model for frictional precursors dynamics. Scientific Reports 5: 8086
Lenardon, M.D.; Sood, P.; Dorfmueller, H.C.; Brown, A.J.P.; Gow, N.A.R. 2020: Scalar nanostructure of the Candida albicans cell wall; a molecular, cellular and ultrastructural analysis and interpretation. Cell Surface 6: 100047
Hook, A.; Marques-Tavares, G.; Tsai, Y. 2020: Scalars Gliding through an Expanding Universe. Physical Review Letters 124(21): 211801
Beckmann, N.; Huber, F.; Hanschen, M.; St Pierre Schneider, B.; Nomellini, V.; Caldwell, C.C. 2020: Scald Injury-Induced T Cell Dysfunction can be Mitigated by Gr1+ Cell Depletion and Blockage of CD47/CD172a Signaling. Frontiers in Immunology 11: 876
Feuerstahler, L.; Wilson, M. 2021: Scale Alignment in the Between-Item Multidimensional Partial Credit Model. Applied Psychological Measurement 45(4): 268-282
Genkova, P.; Schaefer, C.D.; Schreiber, H.; Rašticová, M.; Poor, J.; Veresné, K.V.; Suhajda, C.; Viszetenvelt, A.; Bjekic, J. 2021: Scale Characteristics of Intercultural Competence Measures and the Effects of Intercultural Competence on Prejudice. Frontiers in Psychology 12: 686597
Tiryaki, O.; Cinar, N. 2021: Scale Development Study: Readiness for Discharge from the Neonatal Intensive Care Unit and Home Care of Premature Infants by Parents. Journal of the College of Physicians and Surgeons--Pakistan: Jcpsp 31(2): 171-176
Suthakorn, W.; Songkham, W.; Tantranont, K.; Srisuphan, W.; Sakarinkhul, P.; Dhatsuwan, J. 2020: Scale Development and Validation to Measure Occupational Health Literacy Among Thai Informal Workers. Safety and Health at Work 11(4): 526-532
Ho, R.; Au, W.T. 2020: Scale Development for Environmental Perception of Public Space. Frontiers in Psychology 11: 596790
Domingos, J.A.; Shen, X.; Terence, C.; Senapin, S.; Dong, H.T.; Tan, M.R.; Gibson-Kueh, S.; Jerry, D.R. 2021: Scale Drop Disease Virus (SDDV) and Lates calcarifer Herpes Virus (LCHV) Coinfection Downregulate Immune-Relevant Pathways and Cause Splenic and Kidney Necrosis in Barramundi Under Commercial Farming Conditions. Frontiers in Genetics 12: 666897
Hossain, J.A.; Kim, B. 2021: Scale Effect on Simple Liquid Transport through a Nanoporous Graphene Membrane. Langmuir: the Acs Journal of Surfaces and Colloids 37(21): 6498-6509
Masuduzzaman, M.; Kim, B. 2020: Scale Effects in Nanoscale Heat Transfer for Fourier's Law in a Dissimilar Molecular Interface. Acs Omega 5(41): 26527-26536
Bizao, R.A.; Machado, L.D.; de Sousa, J.M.; Pugno, N.M.; Galvao, D.S. 2018: Scale Effects on the Ballistic Penetration of Graphene Sheets. Scientific Reports 8(1): 6750
Wasserstrom, L.W.; Miller, S.A.; Triantafyllidou, S.; DeSANTIS, M.K.; Schock, M.R. 2017: Scale Formation Under Blended Phosphate Treatment for a Utility with Lead Pipes. Journal - American Water Works Association 109(11): E464-E478
Gastelum, M. 2020: Scale Matters: Temporality in the Perception of Affordances. Frontiers in Psychology 11: 1188
Fabian, M. 2022: Scale Norming Undermines the use of Life Satisfaction Scale Data for Welfare Analysis. Journal of Happiness Studies 23(4): 1509-1541
Minicozzi, M.R.; Perez, J.; Kimball, D.S.; Gibb, A.C. 2019: Scale Thickness Predicts Skin Puncture-Force Resistance in Three Pleuronectiform Fishes. Integrative Organismal Biology 1(1): Obz005
Serarslan, G.; Makbule Kaya, Öz.; Dirican, E. 2021: Scale and Pustule on Dermoscopy of Rosacea: a Diagnostic Clue for Demodex Species. Dermatology Practical and Conceptual 11(1): E2021139
Shin, J.; Price, M.Holton.; Wolpert, D.H.; Shimao, H.; Tracey, B.; Kohler, T.A. 2020: Scale and information-processing thresholds in Holocene social evolution. Nature Communications 11(1): 2394
Deane, G.B.; Stokes, M.Dale. 2002: Scale dependence of bubble creation mechanisms in breaking waves. Nature 418(6900): 839-844
Yamashita, F.; Fukuyama, E.; Mizoguchi, K.; Takizawa, S.; Xu, S.; Kawakata, H. 2015: Scale dependence of rock friction at high work rate. Nature 528(7581): 254-257
Sun, M.; Kik, P.G. 2020: Scale dependent performance of metallic light-trapping transparent electrodes. Optics Express 28(12): 18112-18121
Holwill, M.E. 1970: Scale effect and model microorganisms. Nature 226(5250): 1046-1047
Nagayama, G.; Matsumoto, T.; Fukushima, K.; Tsuruta, T. 2017: Scale effect of slip boundary condition at solid-liquid interface. Scientific Reports 7: 43125
Nogués-Bravo, D.; Araújo, M.B.; Romdal, T.; Rahbek, C. 2008: Scale effects and human impact on the elevational species richness gradients. Nature 453(7192): 216-219
Huang, C.-L.; Chen, S.-Y.; Hsu, H.-C.; Wang, R.-H. 2020: Scale for Measuring Role Strain in Women with Diabetes: Development and Psychometric Testing of the Chinese Version. Journal of Cardiovascular Nursing 35(5): 483-490
Pereira-Caldeira, N.ál.M.V.; Santos, C.áu.B.D.; Pereira-Ávila, F.M.V.; Quintana, S.M.; Gir, E. 2021: Scale for assessing the quality of life of women with Human Papillomavirus infection. Revista Brasileira de Enfermagem 74(6): E20200698
Cuenca Zaldivar, J.Nicolás.; Caballero Nahúm, Mía.; Alcalá-Zamora Marcó, I.; Conde Rodríguez, Río.; Díaz López, M.; Manzano Carvajal, A.; Olmedo Carrillejo, A.María.; Monge Pereira, E.; Monroy Acevedo, Álvaro. 2021: Scale for contraversive pushing in stroke patients: pusher behavior vs Thalamic astasia differential diagnosis and psychometric properties. Topics in Stroke Rehabilitation 2021: 1-9
Bassôa, A.; Costa, A.C.; Toazza, R.; Buchweitz, A. 2021: Scale for developmental dyslexia screening: evidence of validity and reliability. Codas 33(2): E20200042
Bilgin, Zümrüt.; Ecevit Alpar, Şule. 2020: Scale for maternity role perceptions. Health Care for Women International 2020: 1-18
Bálint, Z.; Parker, A.; Ingram, A.; Kertész, K.án.; Piszter, G.áb.; Horváth, Z.E.; Illés, L.; Biró, L.ás.ó P.ét. 2021: Scale granules and colours: Sexual dimorphism in Trichonis (Lepidoptera: Lycaenidae, Theclinae). Arthropod Structure and Development 65: 101113
Ostojic, S.; Somfai, Eák.; Nienhuis, B. 2006: Scale invariance and universality of force networks in static granular matter. Nature 439(7078): 828-830
Torres-Vargas, G.; Fossion, R.; Donado, F.; López-González, F.; Tapia-Ignacio, C. 2020: Scale invariance in a nonvibrating magnetic granular system. Scientific Reports 10(1): 11474
Huang, Y.; Umulis, D.M. 2019: Scale invariance of BMP signaling gradients in zebrafish. Scientific Reports 9(1): 5440
Chen, A.Y.; Zhu, L.L.; Sun, L.G.; Liu, J.B.; Wang, H.T.; Wang, X.Y.; Yang, J.H.; Lu, J. 2019: Scale law of complex deformation transitions of nanotwins in stainless steel. Nature Communications 10(1): 1403
Cui, X.; Qiao, T.; Zhu, M. 2019: Scale morphology and squamation pattern of Guiyu oneiros provide new insights into early osteichthyan body plan. Scientific Reports 9(1): 4411
Lira, M.N.; Sousa, C.N.; Wanderley, M.C.M.; Pessoa, N.ál.R.C.; Lemos, K.C.R.; Manzini, C.S.S.; Nicole, A.G.; Morais, S.C.R.V.; Frazão, C.íl.M.F.d.Q.; Ramos, V.ân.P.; Teles, P.; Ribeiro, O.M.P.L.; Dias, V.F.F.; de Souza, L.H.; Ribeiro, R.C.ás.H.ú M.ça.; Magalhães, A.L.P.; de Sá Basílio Lins, S.M.; Pressi, M.M.T.; Dourado, P.B.M.ça.; Delgado, M.F.; Mendonça, A.E.O.; Pinheiro, J.A.A.új.; Ozen, N. 2021: Scale of Assessment of Self-Care Behaviors with Arteriovenous Fistula in Hemodialysis: a Psychometric Study in Brazil. Clinical Nursing Research 30(6): 875-882
Cooke, J. 1981: Scale of body pattern adjusts to available cell number in amphibian embryos. Nature 290(5809): 775-778
Sterkenburg, P.S.; Kempelmann, G.E.M.; Hentrich, J.; Vonk, J.; Zaal, S.; Erlewein, R.; Hudson, M. 2021: Scale of emotional development-short: Reliability and validity in two samples of children with an intellectual disability. Research in Developmental Disabilities 108: 103821
Blicharska, M. 2013: Scale of global road map is impractical. Nature 496(7445): 300
Aditya, V.; Goswami, R.; Mendis, A.; Roopa, R. 2021: Scale of the issue: Mapping the impact of the COVID-19 lockdown on pangolin trade across India. Biological Conservation 257: 109136
Gulati, A.; Isbister, G.K.; Duffull, S.B. 2014: Scale reduction of a systems coagulation model with an application to modeling pharmacokinetic-pharmacodynamic data. Cpt: Pharmacometrics and Systems Pharmacology 3: E90
Sheyko, A.; Finlay, C.; Favre, J.; Jackson, A. 2018: Scale separated low viscosity dynamos and dissipation within the Earth's core. Scientific Reports 8(1): 12566
Yang, F.; Li, S.; Chen, H.; Jiang, R.; Wang, X.; Wang, W.; Shi, Y.; Liu, L.; Guo, H.; Ye, M.; Tu, S.; Wang, Q.; Wang, H. 2021: Scale ultrasound-guided radial artery cannulation in infant: a randomized controlled trial. Journal of Vascular Access 2021: 11297298211024053
Raigani, M.; Rouini, M-Reza.; Golabchifar, A-Akbar.; Mirabzadeh, E.; Vaziri, B.; Barkhordari, F.; Davami, F.; Mahboudi, F. 2017: Scale up and pharmacokinetic study of a novel mutated chimeric tissue plasminogen activator (mt-PA) in rats. Scientific Reports 7: 43028
Khavari, M.; Priyadarshi, A.; Subroto, T.; Beckwith, C.; Pericleous, K.; Eskin, D.G.; Tzanakis, I. 2021: Scale up design study on process vessel dimensions for ultrasonic processing of water and liquid aluminium. Ultrasonics Sonochemistry 76: 105647
Paul, M.E.; Castillo, M.é; Emmanuel, P.; Bauermeister, J.A.; Mena, L.A.; Sullivan, P.S.; Hightow-Weidman, L.B. 2021: Scale up mHealth HIV interventions: site and public health perspectives and lessons learned from P3. Mhealth 7: 38
Rawlings, S.A.; Chaillon, A.; Smith, D.; Gianella, S. 2021: Scale up rapid research autopsies for tissue immunology. Nature 595(7867): 352
Brady, O. 2014: Scale up the supply of experimental Ebola drugs. Nature 512(7514): 233
Dima, A.L. 2018: Scale validation in applied health research: tutorial for a 6-step R-based psychometrics protocol. Health Psychology and Behavioral Medicine 6(1): 136-161
Sarkar, A.; Howard, M.W. 2021: Scale-Dependent Relationships in Natural Language. Computational Brain and Behavior 4: 164-177
Puthirath, A.B.; Shirodkar, S.N.; Gao, G.; Hernandez, F.C.R.; Deng, L.; Dahal, R.; Apte, A.; Costin, G.; Chakingal, N.; Balan, A.P.; Sassi, L.M.; Tiwary, C.S.; Vajtai, R.; Chu, C.-W.; Yakobson, B.I.; Ajayan, P.M. 2020: Scale-Enhanced Magnetism in Exfoliated Atomically Thin Magnetite Sheets. Small 16(45): E2004208
Ghinda, D.C.; Lambert, B.; Lu, J.; Jiang, N.; Tsai, E.; Sachs, A.; Wu, J.-S.; Northoff, G. 2020: Scale-Free Analysis of Intraoperative ECoG During Awake Craniotomy for Glioma. Frontiers in Oncology 10: 625474
Fields, C.; Levin, M. 2020: Scale-Free Biology: Integrating Evolutionary and Developmental Thinking. Bioessays: News and Reviews in Molecular Cellular and Developmental Biology 42(8): E1900228
Ribeiro, T.L.; Chialvo, D.R.; Plenz, D. 2020: Scale-Free Dynamics in Animal Groups and Brain Networks. Frontiers in Systems Neuroscience 14: 591210
Lina, J.-M.; O'Callaghan, E.K.; Mongrain, V.ér. 2019: Scale-Free Dynamics of the Mouse Wakefulness and Sleep Electroencephalogram Quantified Using Wavelet-Leaders. Clocks and Sleep 1(1): 50-64
Yaginuma, K.; Tanabe, S.; Miyano, T.; Nakagawa, H.; Suzuki, S.; Ando, S.; Kano, M. 2020: Scale-Free Soft Sensor for Monitoring of Water Content in Fluid Bed Granulation Process. Chemical and Pharmaceutical Bulletin 68(9): 855-863
Orlovich, Y.; Kukharenko, K.; Kaibel, V.; Skums, P. 2021: Scale-Free Spanning Trees and their Application in Genomic Epidemiology. Journal of Computational Biology: a Journal of Computational Molecular Cell Biology 28(10): 945-960
Zhang, R.; Azimi, G. 2020: Scale-Phobic Surfaces Made of Rare Earth Oxide Ceramics. Acs Applied Materials and Interfaces 12(37): 42339-42347
Suleman, A.ón.; Mootz, J.J.; Feliciano, P.; Nicholson, T.; O'Grady, M.A.; Wall, M.; Mandell, D.S.; Stockton, M.; Teodoro, E.én.; Anube, A.; Novela, A.; Mocumbi, A.O.; Gouveia, L.; Wainberg, M.L. 2021: Scale-Up Study Protocol of the Implementation of a Mobile Health SBIRT Approach for Alcohol use Reduction in Mozambique. Psychiatric Services 72(10): 1199-1208
Bellani, C.F.; Ajeian, J.; Duffy, L.; Miotto, M.; Groenewegen, L.; Connon, C.J. 2020: Scale-Up Technologies for the Manufacture of Adherent Cells. Frontiers in Nutrition 7: 575146
Cuadrado Osorio, P.D.; Castillo-Saldarriaga, C.R.; Gómez Alvárez, M.I.; Bautista, E.J. 2020: Scale-Up of Duddingtonia flagrans Chlamydospores Production from Laboratory to Pilot-Scale Using a Solid-State Fermentation System. Applied Biochemistry and Biotechnology 192(3): 1044-1059
Černigoj, U.; Štrancar, A.š 2021: Scale-Up of Plasmid DNA Downstream Process Based on Chromatographic Monoliths. Methods in Molecular Biology 2197: 167-192
Bresseleers, J.; Bagheri, M.; Storm, G.; Metselaar, J.M.; Hennink, W.E.; Meeuwissen, S.A.; van Hest, J.C.M. 2019: Scale-Up of the Manufacturing Process to Produce Docetaxel-Loaded mPEG-b-p(HPMA-Bz) Block Copolymer Micelles for Pharmaceutical Applications. Organic Process Research and Development 23(12): 2707-2715
Lin, Y.; Franzke, C.L.E. 2015: Scale-dependency of the global mean surface temperature trend and its implication for the recent hiatus of global warming. Scientific Reports 5: 12971
Fu, H.; Zhong, J.; Fang, S.; Hu, J.; Guo, C.; Lou, Q.; Yuan, G.; Dai, T.; Li, Z.; Zhang, M.; Li, W.; Xu, J.; Cao, T. 2017: Scale-dependent changes in the functional diversity of macrophytes in subtropical freshwater lakes in south China. Scientific Reports 7(1): 8294
Luo, F.; Meng, L-Zeng.; Aluthwattha, S.Tharanga.; Lin, M-Ying.; Weigel, A.; Zhang, W-Fu.; Qi, J-Hua.; Chen, J. 2021: Scale-dependent contribution of host-specificity and environmental factors to wood-boring longhorn beetle community assemblage in SW China. Scientific Reports 11(1): 5100
Kondrashova, D.; Lauerer, A.; Mehlhorn, D.; Jobic, Hé.; Feldhoff, A.; Thommes, M.; Chakraborty, D.; Gommes, C.; Zecevic, J.; de Jongh, P.; Bunde, A.; Kärger, Jörg.; Valiullin, R. 2017: Scale-dependent diffusion anisotropy in nanoporous silicon. Scientific Reports 7: 40207
Bolnick, D.I.; Resetarits, E.J.; Ballare, K.; Stuart, Y.E.; Stutz, W.E. 2020: Scale-dependent effects of host patch traits on species composition in a stickleback parasite metacommunity. Ecology 101(12): E03181
Fan, C.; Tan, L.; Zhang, C.; Zhao, X.; Gao, L.; von Gadow, K. 2020: Scale-dependent effects of neighborhood biodiversity on individual tree productivity in a coniferous and broad-leaved mixed forest in China. Ecology and Evolution 10(15): 8225-8234
Slabbert, E.L.; Schweiger, O.; Wubet, T.; Kautzner, A.; Baessler, C.; Auge, H.; Roscher, C.; Knight, T.M. 2020: Scale-dependent impact of land management on above- and belowground biodiversity. Ecology and Evolution 10(18): 10139-10149
Paul, K.; Herwig, C. 2020: Scale-down simulators for mammalian cell culture as tools to access the impact of inhomogeneities occurring in large-scale bioreactors. Engineering in Life Sciences 20(5-6): 197-204
Farrow, T.; Vedral, V. 2014: Scale-estimation of quantum coherent energy transport in multiple-minima systems. Scientific Reports 4: 5520
Lee, H.-J.; Lee, M.; Lee, K.; Jo, J.; Yang, H.; Kim, Y.; Chae, S.C.; Waghmare, U.; Lee, J.H. 2020: Scale-free ferroelectricity induced by flat phonon bands in HfO2. Science 369(6509): 1343-1347
Broido, A.D.; Clauset, A. 2019: Scale-free networks are rare. Nature Communications 10(1): 1017
Fratini, M.; Poccia, N.; Ricci, A.; Campi, G.; Burghammer, M.; Aeppli, G.; Bianconi, A. 2010: Scale-free structural organization of oxygen interstitials in La(2)CuO(4+y). Nature 466(7308): 841-844
Krishnamurthy, D.; Li, H.; Benoit du Rey, Fçois.; Cambournac, P.; Larson, A.G.; Li, E.; Prakash, M. 2020: Scale-free vertical tracking microscopy. Nature Methods 17(10): 1040-1051
Kwon, H.; Choi, Y-Ho.; Seo, S.Won.; Lee, J-Min. 2017: Scale-integrated Network Hubs of the White Matter Structural Network. Scientific Reports 7(1): 2449
Dixon, E.; Shapiro, A.; Lu, Z-Lin. 2014: Scale-invariance in brightness illusions implicates object-level visual processing. Scientific Reports 4: 3900
Ribeiro, Mário.; Power, S.R.; Roche, S.; Hueso, L.E.; Casanova, Fèlix. 2017: Scale-invariant large nonlocality in polycrystalline graphene. Nature Communications 8(1): 2198
Li, J.; Pelliciari, J.; Mazzoli, C.; Catalano, S.; Simmons, F.; Sadowski, J.T.; Levitan, A.; Gibert, M.; Carlson, E.; Triscone, J-Marc.; Wilkins, S.; Comin, R. 2019: Scale-invariant magnetic textures in the strongly correlated oxide NdNiO 3. Nature Communications 10(1): 4568
Almuedo-Castillo, Mía.; Bläßle, A.; Mörsdorf, D.; Marcon, L.; Soh, G.H.; Rogers, K.W.; Schier, A.F.; Müller, P. 2018: Scale-invariant patterning by size-dependent inhibition of Nodal signalling. Nature Cell Biology 20(9): 1032-1042
Bansal, K.; Garcia, J.O.; Lauharatanahirun, N.; Muldoon, S.F.; Sajda, P.; Vettel, J.M. 2021: Scale-specific dynamics of high-amplitude bursts in EEG capture behaviorally meaningful variability. Neuroimage 241: 118425
He, C.; Lian, B.; Ma, J.; Zhang, C.; Wang, Y.; Mo, H.; Waite, T.D. 2021: Scale-up and Modelling of Flow-electrode Cdi Using Tubular Electrodes. Water Research 203: 117498
Prasad, J.; Tripathi, R.K. 2021: Scale-up and control the voltage of sediment microbial fuel cell for charging a cell phone. Biosensors and Bioelectronics 172: 112767
Khushvakhtov, S.; Davtyan, H.; Alaverdyan, S.; Harries, A.; Kabirov, O.; Azamova, S.; Sharipova, F.; Sattorov, S.; Rajabov, A. 2021: Scale-up and impact of digital and molecular diagnostic technologies on TB diagnosis and timely linkage to care in Tajikistan. Journal of Infection in Developing Countries 15(9.1): 58s-65s
Pereira, H.; Páramo, J.; Silva, J.; Marques, A.; Barros, A.; Maurício, D.; Santos, Tára.; Schulze, P.; Barros, Rúl.; Gouveia, Lísa.; Barreira, Lísa.; Varela, Jão. 2018: Scale-up and large-scale production of Tetraselmis sp. CTP4 (Chlorophyta) for CO 2 mitigation: from an agar plate to 100-m 3 industrial photobioreactors. Scientific Reports 8(1): 5112
van der Loo, J.C.M.; Swaney, W.P.; Grassman, E.; Terwilliger, A.; Higashimoto, T.; Schambach, A.; Baum, C.; Thrasher, A.J.; Williams, D.A.; Nordling, D.L.; Reeves, L.; Malik, P. 2012: Scale-up and manufacturing of clinical-grade self-inactivating γ-retroviral vectors by transient transfection. Gene Therapy 19(3): 246-254
Takaoka, A.; Tam, B.; Vanstone, M.; Clarke, F.J.; Hoad, N.; Swinton, M.; Toledo, F.; Boyle, A.; Woods, A.; Duan, E.H.; Heels-Ansdell, D.; Waugh, L.; Soth, M.; Rudkowski, J.; Alhazzani, W.; Perri, D.; Ligori, T.; Jaeschke, R.; Zytaruk, N.; Cook, D.J. 2021: Scale-up and sustainability of a personalized end-of-life care intervention: a longitudinal mixed-methods study. Bmc Health Services Research 21(1): 218
Hassim, N.; Markom, M.; Rosli, M.Irwan.; Harun, S. 2021: Scale-up approach for supercritical fluid extraction with ethanol-water modified carbon dioxide on Phyllanthus niruri for safe enriched herbal extracts. Scientific Reports 11(1): 15818
Xu, L.; Mao, Y.; Zong, Y.; Wu, D. 2021: Scale-up desalination: Membrane-current collector assembly in flow-electrode capacitive deionization system. Water Research 190: 116782
Shahzadi, I.; Al-Ghamdi, M.A.; Nadeem, M.Shahid.; Sajjad, M.; Ali, A.; Khan, J.Azam.; Kazmi, I. 2021: Scale-up fermentation of Escherichia coli for the production of recombinant endoglucanase from Clostridium thermocellum. Scientific Reports 11(1): 7145
Gaufres, E. 2021: Scale-up for ultrathin black phosphorus. Nature Materials 20(9): 1174-1175
van Olmen, J.; Menon, S.; Poplas Susič, A.; Ir, P.; Klipstein-Grobusch, K.; Wouters, E.; Peñalvo, Jé.L.; Zavrnik, Črt.; Te, V.; Martens, M.; Danhieux, K.; Chham, S.; Stojnić, N.; Buffel, V.; Yem, S.; White, G.; Boateng, D.; Klemenc-Ketis, Z.; Prevolnik, V.Rupel.; Remmen, R.; Van Damme, W. 2020: Scale-up integrated care for diabetes and hypertension in Cambodia, Slovenia and Belgium (SCUBY): a study design for a quasi-experimental multiple case study. Global Health Action 13(1): 1824382
Gavi, E.; Dischinger, A. 2021: Scale-up of Fluid Bed Granulation Using a Scale-Independent Parameter and a Process Model. Aaps Pharmscitech 22(4): 148
Dearman, B.L.; Greenwood, J.E. 2021: Scale-up of a Composite Cultured Skin Using a Novel Bioreactor Device in a Porcine Wound Model. Journal of Burn Care and Research: Official Publication of the American Burn Association 42(6): 1199-1209
Long, Q.; Huang, F.; Huan, S.-T.; Zhao, Y.-L. 2021: Scale-up of a comprehensive model to improve tuberculosis control in China: lessons learned and the way forward. Infectious Diseases of Poverty 10(1): 41
Maldonado, S.; López-Vizcaíno, R.; Rodrigo, M.A.; Cañizares, P.; Navarro, V.; Roa, G.; Barrera, C.; Sáez, C. 2021: Scale-up of electrokinetic permeable reactive barriers for the removal of organochlorine herbicide from spiked soils. Journal of Hazardous Materials 417: 126078
Ng, J.L.; Knothe, L.E.; Whan, R.M.; Knothe, U.; Tate, M.L.Knothe. 2017: Scale-up of nature's tissue weaving algorithms to engineer advanced functional materials. Scientific Reports 7: 40396
Hulme, A.M.; Davey, C.J.; Tyrrel, S.; Pidou, M.; McAdam, E.J. 2021: Scale-up of reverse electrodialysis for energy generation from high concentration salinity gradients. Journal of Membrane Science 627: 119245
Sutherland, R.; Campbell, E.; McLaughlin, M.; Nathan, N.; Wolfenden, L.; Lubans, D.R.; Morgan, P.J.; Gillham, K.; Oldmeadow, C.; Searles, A.; Reeves, P.; Williams, M.; Kajons, N.; Bailey, A.; Boyer, J.; Lecathelinais, C.; Davies, L.; McKenzie, T.; Hollis, J.; Wiggers, J. 2020: Scale-up of the Physical Activity 4 Everyone (PA4E1) intervention in secondary schools: 12-month implementation outcomes from a cluster randomized controlled trial. International Journal of Behavioral Nutrition and Physical Activity 17(1): 100
Sutherland, R.; Campbell, E.; McLaughlin, M.; Nathan, N.; Wolfenden, L.; Lubans, D.R.; Morgan, P.J.; Gillham, K.; Oldmeadow, C.; Searles, A.; Reeves, P.; Williams, M.; Evans, N.; Bailey, A.; Boyer, J.; Lecathelinais, C.; Davies, L.; McKenzie, T.; Robertson, K.; Wiggers, J. 2021: Scale-up of the Physical Activity 4 Everyone (PA4E1) intervention in secondary schools: 24-month implementation and cost outcomes from a cluster randomised controlled trial. International Journal of Behavioral Nutrition and Physical Activity 18(1): 137
Ranade, V.V.; Prasad Sarvothaman, V.; Simpson, A.; Nagarajan, S. 2021: Scale-up of vortex based hydrodynamic cavitation devices: a case of degradation of di-chloro aniline in water. Ultrasonics Sonochemistry 70: 105295
Lyu, Y.; Sun, Z.; Meng, X.; Wu, Y.; Liu, X.; Hu, Y. 2022: Scale-up reactivation of spent S-Zorb adsorbents for gasoline desulfurization. Journal of Hazardous Materials 423(Part A): 126903
Hama, H.; Kurokawa, H.; Kawano, H.; Ando, R.; Shimogori, T.; Noda, H.; Fukami, K.; Sakaue-Sawano, A.; Miyawaki, A. 2011: Scale: a chemical approach for fluorescence imaging and reconstruction of transparent mouse brain. Nature Neuroscience 14(11): 1481-1488
Yu, R.; Yang, W. 2020: ScaleQC: a scalable lossy to lossless solution for NGS data compression. Bioinformatics 36(17): 4551-4559
Hama, H.; Hioki, H.; Namiki, K.; Hoshida, T.; Kurokawa, H.; Ishidate, F.; Kaneko, T.; Akagi, T.; Saito, T.; Saido, T.; Miyawaki, A. 2015: ScaleS: an optical clearing palette for biological imaging. Nature Neuroscience 18(10): 1518-1529
Alghazzawi, D.; Aldabbagh, G.; Saad Al-Malaise Al-Ghamdi, A. 2021: ScaleUp: middleware for intelligent environments. PEERJ. Computer Science 7: E545
Zuend, S.J.; Coughlin, M.P.; Lalonde, M.P.; Jacobsen, E.N. 2009: Scaleable catalytic asymmetric Strecker syntheses of unnatural alpha-amino acids. Nature 461(7266): 968-970
Carugo, D.; Browning, R.J.; Iranmanesh, I.; Messaoudi, W.; Rademeyer, P.; Stride, E. 2021: Scaleable production of microbubbles using an ultrasound-modulated microfluidic device. Journal of the Acoustical Society of America 150(2): 1577
Börger, V.; Staubach, S.; Dittrich, R.; Stambouli, O.; Giebel, B. 2020: Scaled Isolation of Mesenchymal Stem/Stromal Cell-Derived Extracellular Vesicles. Current Protocols in Stem Cell Biology 55(1): E128
Price, M. 2021: Scaled down, martian model habitat rises again in desert. Science 373(6558): 952
Li, C.K.; Tzeferacos, P.; Lamb, D.; Gregori, G.; Norreys, P.A.; Rosenberg, M.J.; Follett, R.K.; Froula, D.H.; Koenig, M.; Seguin, F.H.; Frenje, J.A.; Rinderknecht, H.G.; Sio, H.; Zylstra, A.B.; Petrasso, R.D.; Amendt, P.A.; Park, H.S.; Remington, B.A.; Ryutov, D.D.; Wilks, S.C.; Betti, R.; Frank, A.; Hu, S.X.; Sangster, T.C.; Hartigan, P.; Drake, R.P.; Kuranz, C.C.; Lebedev, S.V.; Woolsey, N.C. 2016: Scaled laboratory experiments explain the kink behaviour of the Crab Nebula jet. Nature Communications 7: 13081
Staubach, S.; Bauer, F.N.; Tertel, T.; Börger, V.; Stambouli, O.; Salzig, D.; Giebel, B. 2021: Scaled preparation of extracellular vesicles from conditioned media. Advanced Drug Delivery Reviews 177: 113940
Fritzsching, K.J.; Keeler, E.G.; He, C.; McDermott, A.E. 2020: Scaled recoupling of chemical shift anisotropies at high magnetic fields under MAS with interspersed C-elements. Journal of Chemical Physics 153(10): 104201
Moeller, J.R.; Strother, S.C.; Sidtis, J.J.; Rottenberg, D.A. 1987: Scaled subprofile model: a statistical approach to the analysis of functional patterns in positron emission tomographic data. Journal of Cerebral Blood Flow and Metabolism: Official Journal of the International Society of Cerebral Blood Flow and Metabolism 7(5): 649-658
Ahmed, S.; Zhang, Y.; Wu, B.; Zheng, Z.; Leung, C.-F.; Choy, T.-Y.; Kwok, Y.-T.; Lo, I.M.C. 2021: Scaled-up development of magnetically recyclable Fe3O4/La(OH)3 composite for river water phosphate removal: from bench-scale to pilot-scale study. Science of the Total Environment 791: 148281
Corvis, Y.; Guiblin, N.; Négrier, P.; Marenco, I.; Dembélé, O.; Espeau, P. 2021: Scalemic mixtures preparation for optimized composition of ibuprofen solid dosage forms. European Journal of Pharmaceutics and Biopharmaceutics: Official Journal of Arbeitsgemeinschaft für Pharmazeutische Verfahrenstechnik E.V 169: 91-96
Basoudan, N.; Rodrigues, A.; Gallina, A.; Garland, J.; Guenette, J.A.; Shadgan, B.; Road, J.; Reid, W.D. 2020: Scalene and sternocleidomastoid activation during normoxic and hypoxic incremental inspiratory loading. Physiological Reports 8(14): E14522
Kenney, L.J.; Mota, C. 1956: Scalene lymph node biopsy. Henry Ford Hospital Medical Bulletin 4(1): 36-41
Biancalana, L. 1948: Scalenotomie; Extrapleural and Extrafascial Pneumolysis; Surgical Extra Pneumatic Thorax. LaRiformaMedica 62(7-8): 111
Aheer, G.K.; Villella, J. 2021: Scalenus muscle and the C5 root of the brachial plexus: bilateral anatomical variation and its clinical significance. Journal of the Canadian Chiropractic Association 65(2): 229-233
Alexander, M. 2006: Scalers: review advice. British Dental Journal 200(4): 183
Kovalenko, A.P.; Kamaeva, O.V.; Poleshchuk, Y.R.; Kovlen, D.V. 2020: Scales and tests in the rehabilitation and treatment of patients with spasticity of the upper limbs. Zhurnal Nevrologii i Psikhiatrii Imeni S.S. Korsakova 120(4): 107-114
Briand, M.; De Nadaï, T.; Balardy, L.; Rolland, Y.; Nourhashemi, F.; Sourdet, S.; Vellas, B. 2020: Scales assessing geriatric dependence. La Revue du Praticien 70(3): E106-E107
Banks, C.; Priebe, S. 2020: Scales for assessing the therapeutic milieu in psychiatric inpatient settings: a systematic review. General Hospital Psychiatry 66: 44-50
Mueses-Marín, H.éc.F.; Alvarado-Llano, B.; Torres-Isasiga, J.án.; Camargo-Plazas, P.; Bolívar-Rocha, M.C.; Galindo-Orrego, X.; Martínez-Cajas, J.L. 2021: Scales to Assess Knowledge, Motivation, and Self-Efficacy for HIV PrEP in Colombian MSM: PrEP-COL Study. Aids Research and Treatment 2021: 4789971
Tagawa, M. 2020: Scales to evaluate developmental stage and professional identity formation in medical students, residents, and experienced doctors. Bmc Medical Education 20(1): 40
Qviller, A.J.; Qureishy, T.; Xu, Y.; Suo, H.; Mozhaev, P.B.; Hansen, J.B.; Vestgården, J.I.; Johansen, T.H.; Mikheenko, P. 2020: Scaling Behavior of Quasi-One-Dimensional Vortex Avalanches in Superconducting Films. Scientific Reports 10(1): 5641