Section 72

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Adefisan, A.O.; Owumi, S.E.; Soetan, K.O.; Adaramoye, O.A. 2021: Chloroform extract of Calliandra portoricensis inhibits tumourigenic effect of N -methyl- N -nitrosourea and benzo(a)pyrene in breast experimental cancer. Drug and Chemical Toxicology 2021: 1-15
Majumder, I.; Paul, S.; Nag, A.; Kundu, R. 2020: Chloroform fraction of Chaetomorpha brachygona, a marine green alga from Indian Sundarbans inducing autophagy in cervical cancer cells in vitro. Scientific Reports 10(1): 21784
Simpson, J.Y. 1848: Chloroform, as a New Anæsthetic Agent. Dental Register 1(2): 85-93
Ney, L.J.; Felmingham, K.L.; Bruno, R.; Matthews, A.; Nichols, D.S. 2021: Chloroform-based liquid-liquid extraction and LC-MS/MS quantification of endocannabinoids, cortisol and progesterone in human hair. Journal of Pharmaceutical and Biomedical Analysis 201: 114103
Newcombe, H.B.; Rhynas, P.O. 1958: Chloroform-induced loss of a host range mutant phenotype in virulent coliphage lambda. Virology 5(1): 1-6
Tan, Y-Zhi.; Li, J.; Zhu, F.; Han, X.; Jiang, W-Sheng.; Huang, R-Bin.; Zheng, Z.; Qian, Z-Zhen.; Chen, R-Ting.; Liao, Z-Jiang.; Xie, S-Yuan.; Lu, X.; Zheng, L-Sun. 2010: Chlorofullerenes featuring triple sequentially fused pentagons. Nature Chemistry 2(4): 269-273
Dong, F.; Tan, J.; Zheng, Y. 2020: Chlorogenic Acid Alleviates Allergic Inflammatory Responses Through Regulating Th1/Th2 Balance in Ovalbumin-Induced Allergic Rhinitis Mice. Medical Science Monitor: International Medical Journal of Experimental and Clinical Research 26: E923358
Gao, L.; Li, X.; Meng, S.; Ma, T.; Wan, L.; Xu, S. 2020: Chlorogenic Acid Alleviates Aβ25-35-Induced Autophagy and Cognitive Impairment via the mTOR/TFEB Signaling Pathway. Drug Design Development and Therapy 14: 1705-1716
Xie, M.G.; Fei, Y.Q.; Wang, Y.; Wang, W.Y.; Wang, Z. 2021: Chlorogenic Acid Alleviates Colon Mucosal Damage Induced by a High-Fat Diet via Gut Microflora Adjustment to Increase Short-Chain Fatty Acid Accumulation in Rats. Oxidative Medicine and Cellular Longevity 2021: 3456542
Qin, L.; Zang, M.; Xu, Y.; Zhao, R.; Wang, Y.; Mi, Y.; Mei, Y. 2021: Chlorogenic Acid Alleviates Hyperglycemia-Induced Cardiac Fibrosis through Activation of the NO/cGMP/PKG Pathway in Cardiac Fibroblasts. Molecular Nutrition and Food Research 65(2): E2000810
Zhang, S.; Sun, B.; Wang, D.; Liu, Y.; Li, J.; Qi, J.; Zhang, Y.; Bai, C.; Liang, S. 2021: Chlorogenic Acid Ameliorates Damage Induced by Fluorene-9-Bisphenol in Porcine Sertoli Cells. Frontiers in Pharmacology 12: 678772
Bhattacharyya, S.; Kumar, R.; Sengupta, G.; Hazra, A.K.; Sur, T.K. 2020: Chlorogenic Acid Enriched Green Coffee Ameliorated Renal Injury in Rats. Mymensingh Medical Journal: Mmj 29(4): 991-1000
Zhou, J.; Zhang, F.; Chen, J.; Zhang, S.; Wang, H. 2021: Chlorogenic Acid Inhibits Human Glioma U373 Cell Progression via Regulating the SRC/MAPKs Signal Pathway: Based on Network Pharmacology Analysis. Drug Design Development and Therapy 15: 1369-1383
Tan, S.; Yan, F.; Li, Q.; Liang, Y.; Yu, J.; Li, Z.; He, F.; Li, R.; Li, M. 2020: Chlorogenic Acid Promotes Autophagy and Alleviates Salmonella Typhimurium Infection Through the lncRNAGAS5/miR-23a/PTEN Axis and the p38 MAPK Pathway. Frontiers in Cell and Developmental Biology 8: 552020
Zeng, J.; Zhang, D.; Wan, X.; Bai, Y.; Yuan, C.; Wang, T.; Yuan, D.; Zhang, C.; Liu, C. 2020: Chlorogenic Acid Suppresses miR-155 and Ameliorates Ulcerative Colitis through the NF-κB/NLRP3 Inflammasome Pathway. Molecular Nutrition and Food Research 2020: E2000452
Zhou, H.; Chen, D.; Gong, T.; He, Q.; Guo, C.; Zhang, P.; Song, X.; Ruan, J.; Gong, T. 2021: Chlorogenic acid sustained-release gel for treatment of glioma and hepatocellular carcinoma. European Journal of Pharmaceutics and Biopharmaceutics: Official Journal of Arbeitsgemeinschaft für Pharmazeutische Verfahrenstechnik E.V 166: 103-110
Ge, Q.; Ying, J.; Shi, Z.; Mao, Q.; Jin, H.; Wang, P.-E.; Chen, J.; Yuan, W.; Tong, P.; Li, J. 2021: Chlorogenic Acid retards cartilaginous endplate degeneration and ameliorates intervertebral disc degeneration via suppressing NF-κB signaling. Life Sciences 274: 119324
El-Khadragy, M.F.; Al-Megrin, W.A.; Alomar, S.; Alkhuriji, A.F.; Metwally, D.M.; Mahgoub, S.; Amin, H.K.; Habotta, O.A.; Abdel Moneim, A.E.; Albeltagy, R.S. 2020: Chlorogenic acid abates male reproductive dysfunction in arsenic-exposed mice via attenuation of testicular oxido-inflammatory stress and apoptotic responses. Chemico-BiologicalInteractions 333: 109333
E Owumi, S.; K Olusola, J.; O Arunsi, U.; K Oyelere, A. 2021: Chlorogenic acid abates oxido-inflammatory and apoptotic responses in the liver and kidney of Tamoxifen-treated rats. Toxicology Research 10(2): 345-353
Shah, M.-A.; Kang, J.-B.; Park, D.-J.; Kim, M.-O.; Koh, P.-O. 2021: Chlorogenic acid alleviates neurobehavioral disorders and brain damage in focal ischemia animal models. Neuroscience Letters 760: 136085
Ding, X.; Zhang, D.; Liu, H.; Wang, Z.; Hui, T. 2022: Chlorogenic acid and Epicatechin: An efficient inhibitor of heterocyclic amines in charcoal roasted lamb meats. Food Chemistry 368: 130865
Kong, L.; Xu, M.; Qiu, Y.; Liao, M.; Zhang, Q.; Yang, L.; Zheng, G. 2021: Chlorogenic acid and caffeine combination attenuates adipogenesis by regulating fat metabolism and inhibiting adipocyte differentiation in 3T3-L1 cells. Journal of Food Biochemistry 45(7): E13795
Yunus, J.; Salman, M.; Lintin, G.B.R.; Muchtar, M.; Sari, D.C.R.; Arfian, N.; Romi, M.M. 2020: Chlorogenic acid attenuates kidney fibrosis via antifibrotic action of BMP-7 and HGF. Medical Journal of Malaysia 75(Suppl 1): 5-9
Owumi, S.E.; Anaikor, R.A.; Arunsi, U.O.; Adaramoye, O.A.; Oyelere, A.K. 2021: Chlorogenic acid co-administration abates tamoxifen-mediated reproductive toxicities in male rats: An experimental approach. Journal of Food Biochemistry 45(2): E13615
Gao, L.-J.; Dai, Y.; Li, X.-Q.; Meng, S.; Zhong, Z.-Q.; Xu, S.-J. 2021: Chlorogenic acid enhances autophagy by upregulating lysosomal function to protect against SH-SY5Y cell injury induced by H2O2. Experimental and Therapeutic Medicine 21(5): 426
Changizi, Z.; Moslehi, A.; Rohani, A.H.; Eidi, A. 2021: Chlorogenic acid induces 4T1 breast cancer tumor's apoptosis via p53, Bax, Bcl-2, and caspase-3 signaling pathways in BALB/c mice. Journal of Biochemical and Molecular Toxicology 35(2): E22642
Kai, K.; Wang, R.; Bi, W.; Ma, Z.; Shi, W.; Ye, Y.; Zhang, D. 2021: Chlorogenic acid induces ROS-dependent apoptosis in Fusarium fujikuroi and decreases the postharvest rot of cherry tomato. World Journal of Microbiology and Biotechnology 37(6): 93
Wang, Y.; Peng, S.; Mei, Z.; Jin, C.; Kang, J.; Xiang, M.; Wang, Z.; Hu, Y. 2020: Chlorogenic acid inhibits forming of diabetes mellitus in rats induced by high-fat high-sucrose and streptozotocin. Pakistan Journal of Pharmaceutical Sciences 33(3): 1063-1072
Xue, N.; Zhou, Q.; Ji, M.; Jin, J.; Lai, F.; Chen, J.; Zhang, M.; Jia, J.; Yang, H.; Zhang, J.; Li, W.; Jiang, J.; Chen, X. 2017: Chlorogenic acid inhibits glioblastoma growth through repolarizating macrophage from M2 to M1 phenotype. Scientific Reports 7: 39011
Changizi, Z.; Moslehi, A.; Rohani, A.H.; Eidi, A. 2020: Chlorogenic acid inhibits growth of 4T1 breast cancer cells through involvement in Bax/Bcl2 pathway. Journal of Cancer Research and Therapeutics 16(6): 1435-1442
Abaidullah, M.; Peng, S.; Song, X.; Zou, Y.; Li, L.; Jia, R.; Yin, Z. 2021: Chlorogenic acid is a positive regulator of MDA5, TLR7 and NF-κB signaling pathways mediated antiviral responses against Gammacoronavirus infection. International Immunopharmacology 96: 107671
Zada, S.; Pham, T.M.; Hwang, J.S.; Ahmed, M.; Lai, T.H.; Elashkar, O.; Kim, J.-H.; Kim, D.H.; Kim, D.R. 2021: Chlorogenic acid protects human chondrocyte C28/I2 cells from oxidative stress-induced cell death through activation of autophagy. Life Sciences 285: 119968
Wang, W-Xiang.; Zhang, Y-Rui.; Luo, S-Ying.; Zhang, Y-Sen.; Zhang, Y.; Tang, C. 2021: Chlorogenic acid, a natural product as potential inhibitor of COVID-19: virtual screening experiment based on network pharmacology and molecular docking. Natural Product Research 2021: 1-6
Hussein, R.M.; Sawy, D.M.; Kandeil, M.A.; Farghaly, H.S. 2021: Chlorogenic acid, quercetin, coenzyme Q10 and silymarin modulate Keap1-Nrf2/heme oxygenase-1 signaling in thioacetamide-induced acute liver toxicity. Life Sciences 277: 119460
Lu, H.; Tian, Z.; Cui, Y.; Liu, Z.; Ma, X. 2020: Chlorogenic acid: a comprehensive review of the dietary sources, processing effects, bioavailability, beneficial properties, mechanisms of action, and future directions. Comprehensive Reviews in Food Science and Food Safety 19(6): 3130-3158
Bariana, D.S.; Krupey, J.; Scarpati, L.M.; Freedman, S.O.; Sehon, A.H. 1965: Chlorogenic acid: further evidence for its antigenic and allergenic activity. Nature 207(5002): 1155-1157
Vilas-Boas, A.A.; Oliveira, A.; Jesus, D.; Rodrigues, C.; Figueira, C.áu.; Gomes, A.; Pintado, M. 2020: Chlorogenic acids composition and the impact of in vitro gastrointestinal digestion on espresso coffee from single-dose capsule. Food Research International 134: 109223
Gueissaz, E. 1947: Chloroma of the uterus. Schweizerische Medizinische Wochenschrift 77(7): 245
Rytömaa, T.; Kiviniemi, K. 1969: Chloroma regression induced by the granulocytic chalone. Nature 222(5197): 995-996
Runti, C.S. 1950: Chloromycetin. Athena; Rassegna Mensile di Biologia Clinica e Terapia 16(3-4): 51-55
Farinaud, E. 1949: Chloromycetin. La Presse Medicale 57(24): 329
De Angelis, P. 1949: Chloromycetin. A Pediatria; Revista Mensal de Clinica Patologia e Higiene Infantil 57(5-6): 411-415
Alzati, A. 1948: Chloromycetin. Il Farmaco Scienza e Tecnica 3(4): 457-459
Altemeier, W.A.; McMURRIN, J.A.; Alt, L.P. 1950: Chloromycetin and aureomycin in experimental gas gangrene. Journal International de Chirurgie 10(2): 100-105
Picard, J. 1950: Chloromycetin and typhoid fever. Vie Medicale 31(10): 43-51
Hermosilla, M.; Retamales, L.; Yanine, C.; Valenzuela, E.; Dussert, E.; Castillo, A. 1951: Chloromycetin and typhoid fever. Revista Medica de Chile 79(5): 304-306
Rossi Garbino, N.E.; Clemenceau, H.L. 1949: Chloromycetin and typhoid fever. El Dia Medico 21(58): 2194
Rosselli, J.; Blanco, C.; Sabbione, R.M. 1951: Chloromycetin and whooping cough. Prensa Medica Argentina 38(16): 976-981
Vialtel, M. 1949: Chloromycetin in the child's typhoid fever. Pediatrie 4(7): 735-737
Benhamou, E.; Albou, A. 1949: Chloromycetin in the encephalitic forms of typhoid fever. La Presse Medicale 57(60): 833-835
Smadel, J.E.; Woodward, T.E. 1948: Chloromycetin in the treatment of scrub typhus. JOURNAL. Bowman Gray School of Medicine 6(3): 108-110
Schobel, E. 1950: Chloromycetin in the treatment of typhoid fever. Osterreichische Zeitschrift für Kinderheilkunde und Kinderfursorge 5(3): 284-293
Fu, C.K. 1950: Chloromycetin in the treatment of typhoid fever. Chinese Medical Journal 68(9-10): 297-302
Guido, I. 1950: Chloromycetin in the treatment of typhoid fever. Atti Della Accademia Dei Fisiocritici in Siena. Sezione Medico-Fisica 18(1): 5-7
Fornara, P.; Sala Ginabreda, J.M. 1950: Chloromycetin in the treatment of typhoid fever. Revista Espanola de Pediatria 6(2): 226-234
Mozer, J.J.; Audeoud, R.; Deletra, J. 1949: Chloromycetin in the treatment of typhoid fever. Revue Medicale de la Suisse Romande 69(9): 653-659
Bugiardini, G.; Venturi, R. 1950: Chloromycetin in typhoid fever. Rivista Italiana d'Igiene 10(5-6): 197-208
Venkatesan, T.V.; Vijayaramachari, V.S. 1951: Chloromycetin in typhoid fever. Antiseptic 48(9): 756-757
Sanghvi, L.M. 1951: Chloromycetin in typhoid fever. Indian Medical Gazette 86(7): 296-300
Vallejo De Simon, A.M. 1951: Chloromycetin in typhoid fever. Anales de la Real Academia Nacional de Medicina 68(3): 446-487
Rao, U.S. 1949: Chloromycetin in typhoid fever. Antiseptic 46(10): 730-736
Solsona, S. 1950: Chloromycetin in typhoid fever. Medicina y Cirugia de Guerra 12(5): 273-275
Martinez, P.D.; Madero, F.; Torroella, J.M. 1950: Chloromycetin in typhoid fever. Boletin Medico del Hospital Infantil de Mexico 7(3): 346-352
Blanco Otero, M. 1949: Chloromycetin in typhoid fever. Acta Pediatrica Espanola 7(79): 987-993
Bradley, W.H. 1949: Chloromycetin in typhoid fever (transl.). La Medicina Colonial 14(2): 163-165
Tavat, S.; Yeginsu, N. 1950: Chloromycetin in typhoid fever therapy. Turk Tip Cemiyeti Mecmuasi 16(6): 297-308
Drexler, K. 1951: Chloromycetin in typhoid therapy. Wiener Klinische Wochenschrift 63(23): 424-426
Canevari, M.F. 1951: Chloromycetin in whooping cough. Pediatria de Las Americas 9(4): 179-185
Bercovitz, Z.T. 1950: Chloromycetin therapy in chronic ulcerative colitis. New York State Journal of Medicine 50(17: 1): 2057-2060
Terzani, A. 1950: Chloromycetin therapy of typhoid. Lo Sperimentale 100(3-6): 273-274
Farbrot, E. 1952: Chloromycetin therapy of typhoid fever. Tidsskrift for den Norske Laegeforening: Tidsskrift for Praktisk Medicin Ny Raekke 72(18): 592-593
Broglie, M. 1950: Chloromycetin therapy of typhoid fever. Arztliche Wochenschrift 5(42): 823-826
Gabinus, O. 1950: Chloromycetin therapy of typhoid fever. Nordisk Medicin 44(33): 1317-1318
Naussac, H.; Blanc, R.; Reboul, J. 1950: Chloromycetin therapy of typhoid fever. Journal de Medecine de Lyon 31(728): 383-393
Rolfsen, R. 1950: Chloromycetin therapy of typhoid fever. Tidsskrift for den Norske Laegeforening: Tidsskrift for Praktisk Medicin Ny Raekke 70(13): 446-447
Prior, J.A.; Kasmersky, C.T.; Hummel, G. 1950: Chloromycetin treatment of typhoid fever. Ohio State Medical Journal 46(8): 773-778
Raistrick, H. 1949: Chloromycetin; its structure and synthesis. Nature 163(4145): 553
Neiva De Oliveira; Machado Vaz, J. 1949: Chloromycin in a case of typhoid fever. Revista Portuguesa de Pediatria e Puericultura 12(6): 273-275
Chiriac, A.E.; Chiriac, A.; Wollina, U. 2021: Chloronychia in Healthcare Workers in COVID-19 Times. Skin Appendage Disorders 7(1): 80-81
Wrobel, M.H.; Mlynarczuk, J. 2021: Chloroorganic (DDT) and organophosphate (malathion) insecticides impair the motor function of the bovine cervix. Toxicology and Applied Pharmacology 427: 115667
He, Q.; Song, J.; Li, H.; Zhao, B.; Zhang, Y.; Wang, N.; Liu, B.; Chen, J.; Nie, Z.; Liang, T.; Zhong, W. 2021: Chloroperoxidase-catalyzed oxidative degradation of sulfur mustard. Ecotoxicology and Environmental Safety 225: 112715
Nakamura, S.; Izumi, M. 2020: Chlorophagy does not require PLANT U-BOX4-mediated ubiquitination. Plant Signaling and Behavior 2020: 1861769
Chen, X.; Ning, X.-A.; Lai, X.; Wang, Y.; Zhang, Y.; He, Y. 2021: Chlorophenols in textile dyeing sludge: Pollution characteristics and environmental risk control. Journal of Hazardous Materials 416: 125721
Nielsen, H. 1955: Chlorophyll. Ugeskrift for Laeger 117(6): 167-170
Xu, G.; Dong, C.; Liu, Y.; Gaube, P.; Yang, J. 2019: Chlorophyll Rings around Ocean Eddies in the North Pacific. Scientific Reports 9(1): 2056
Liu, X.; Georgakakos, A.P. 2021: Chlorophyll a estimation in lakes using multi-parameter sonde data. Water Research 205: 117661
Mishra, K.B.; Vítek, P.; Mishra, A.; Hájek, J.; Barták, M.š 2020: Chlorophyll a fluorescence and Raman spectroscopy can monitor activation/deactivation of photosynthesis and carotenoids in Antarctic lichens. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 239: 118458
Kumar, D.; Singh, H.; Raj, S.; Soni, V. 2020: Chlorophyll a fluorescence kinetics of mung bean (Vigna radiata L.) grown under artificial continuous light. Biochemistry and Biophysics Reports 24: 100813
Orzeł, Łu.; Rutkowska-Zbik, D.; van Eldik, R.; Fiedor, L.; Stochel, G.ży. 2021: Chlorophyll a π-Cation Radical as Redox Mediator in Superoxide Dismutase (SOD) Mimetics. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 22(4): 344-348
Palm, D.M.; Agostini, A.; Averesch, V.; Girr, P.; Werwie, M.; Takahashi, S.; Satoh, H.; Jaenicke, E.; Paulsen, H. 2018: Chlorophyll a/b binding-specificity in water-soluble chlorophyll protein. Nature Plants 4(11): 920-929
Houskeeper, H.F.; Draper, D.; Kudela, R.M.; Boss, E. 2020: Chlorophyll absorption and phytoplankton size information inferred from hyperspectral particulate beam attenuation. Applied Optics 59(22): 6765-6773
Yemm, E.W.; Willis, A.J. 1954: Chlorophyll and photosynthesis in stomatal guard cells. Nature 173(4407): 726
Dijkstra, B.K.S. 1951: Chlorophyll as a deodorant. Nederlands Tijdschrift Voor Geneeskunde 95(3): 208-212
Tomitani, A.; Okada, K.; Miyashita, H.; Matthijs, H.C.; Ohno, T.; Tanaka, A. 1999: Chlorophyll b and phycobilins in the common ancestor of cyanobacteria and chloroplasts. Nature 400(6740): 159-162
Wietrzynski, W.; Engel, B.D. 2021: Chlorophyll biogenesis sees the light. Nature Plants 7(4): 380-381
Hörtensteiner, S.; Vicentini, F.; Matile, P. 1995: Chlorophyll breakdown in senescent cotyledons of rape, Brassica napus L.: Enzymatic cleavage of phaeophorbide a in vitro. References 129(2): 237-246
Vicentini, F.; Hörtensteiner, S.; Schellenberg, M.; Thomas, H.; Matile, P. 1995: Chlorophyll breakdown in senescent leaves identification of the biochemical lesion in a stay-green genotype of Festuca pratensis Huds. New Phytologist 129(2): 247-252
Luo, L.; Lai, X.; Chen, B.; Lin, L.; Fang, L.; Tam, N.F.Y.; Luan, T. 2015: Chlorophyll catalyse the photo-transformation of carcinogenic benzo[a]pyrene in water. Scientific Reports 5: 12776
Amri, M.; Abbes, Z.; Trabelsi, I.; Ghanem, M.E.; Mentag, R.; Kharrat, M. 2021: Chlorophyll content and fluorescence as physiological parameters for monitoring Orobanche foetida Poir. infection in faba bean. Plos one 16(5): E0241527
Wolf, F.T.; Haber, A.H. 1960: Chlorophyll content of gibberellintreated wheat seedlings. Nature 186: 217-218
Lin, Y.-P.; Charng, Y.-Y. 2021: Chlorophyll dephytylation in chlorophyll metabolism: a simple reaction catalyzed by various enzymes. Plant Science: An International Journal of Experimental Plant Biology 302: 110682
Degl'Innocenti, A.; Rossi, L.; Salvetti, A.; Marino, A.; Meloni, G.; Mazzolai, B.; Ciofani, G. 2017: Chlorophyll derivatives enhance invertebrate red-light and ultraviolet phototaxis. Scientific Reports 7(1): 3374
Armstrong, J.; Armstrong, W. 1994: Chlorophyll development in mature lysigenous and schizogenous root aerenchymas provides evidence of continuing cortical cell viability. New Phytologist 126(3): 493-497
Trinugroho, J.P.; Bečková, M.; Shao, S.; Yu, J.; Zhao, Z.; Murray, J.W.; Sobotka, R.; Komenda, J.; Nixon, P.J. 2020: Chlorophyll f synthesis by a super-rogue photosystem II complex. Nature Plants 6(3): 238-244
Behrendt, L.; Brejnrod, A.; Schliep, M.; Sørensen, Søren.J.; Larkum, A.W.D.; Kühl, M. 2015: Chlorophyll f-driven photosynthesis in a cavernous cyanobacterium. Isme Journal 9(9): 2108-2111
Bhagooli, R.; Mattan-Moorgawa, S.; Kaullysing, D.; Louis, Y.D.; Gopeechund, A.; Ramah, S.; Soondur, M.; Pilly, S.S.; Beesoo, R.; Wijayanti, D.P.; Bachok, Z.B.; Monrás, V.íc.C.; Casareto, B.E.; Suzuki, Y.; Baker, A.C. 2021: Chlorophyll fluorescence - a tool to assess photosynthetic performance and stress photophysiology in symbiotic marine invertebrates and seaplants. Marine Pollution Bulletin 165: 112059
Kautsky, H. 1948: Chlorophyll fluorescence and carbonic acid assimilation. KlinischeWochenschrift 26(23-24): 383
Evans, E.H.; Brown, R.G.; Wellburn, A.R. 1992: Chlorophyll fluorescence decay profiles of O3 -exposed spruce needles as measured by time-correlated single photon counting. New Phytologist 122(3): 501-506
Scholes, J.D.; Rolfe, S.A. 2009: Chlorophyll fluorescence imaging as tool for understanding the impact of fungal diseases on plant performance: a phenomics perspective. Functional Plant Biology: Fpb 36(11): 880-892
Lysenko, V.; Kosolapov, A.; Usova, E.; Tatosyan, M.; Varduny, T.; Dmitriev, P.; Rajput, V.; Krasnov, V.; Kunitsina, A. 2021: Chlorophyll fluorescence kinetics and oxygen evolution in Chlorella vulgaris cells: Blue vs. red light. Journal of Plant Physiology: 258-259: 153392
Woitke, M.; Hartung, W.; Gimmler, H.; Heilmeier, H. 2004: Chlorophyll fluorescence of submerged and floating leaves of the aquatic resurrection plant Chamaegigas intrepidus. Functional Plant Biology: Fpb 31(1): 53-62
Ajigboye, O.O.; Bousquet, L.; Murchie, E.H.; Ray, R.V. 2016: Chlorophyll fluorescence parameters allow the rapid detection and differentiation of plant responses in three different wheat pathosystems. Functional Plant Biology: Fpb 43(4): 356-369
Badger, M.R.; Fallahi, H.; Kaines, S.; Takahashi, S. 2009: Chlorophyll fluorescence screening of Arabidopsis thaliana for CO2 sensitive photorespiration and photoinhibition mutants. Functional Plant Biology: Fpb 36(11): 867-873
Danaraj, J.; Ayyappan, S.; Mariasingarayan, Y.; Packiyavathy, I.A.S.V.; Sweetly Dharmadhas, J. 2021: Chlorophyll fluorescence, dark respiration and metabolomic analysis of Halodule pinifolia reveal potential heat responsive metabolites and biochemical pathways under ocean warming. Marine Environmental Research 164: 105248
Schoch-Bodmer, H.; Huger, P.; Steinmann, E. 1949: Chlorophyll in the Bast Fibers of Linum Usitatissimum L. Experientia 5(4): 157
Alamercery, J.; Hamner, C.L.; Latus, M. 1951: Chlorophyll inhibition and growth regulation by several tetronic acid derivatives. Nature 168(4263): 85
Goedheer, J.C. 1955: Chlorophyll spectra and molecular structure. Nature 176(4489): 928-929
Roy, K.; Ghosh, D.; Sarkar, K.; Devi, P.; Kumar, P. 2020: Chlorophyll(a)/Carbon Quantum Dot Bio-Nanocomposite Activated Nano-Structured Silicon as an Efficient Photocathode for Photoelectrochemical Water Splitting. Acs Applied Materials and Interfaces 12(33): 37218-37226
Chen, Z.-L.; Yu, Z.-L.; Zhou, M.-M.; Zhang, S.; Zhang, B.; Liu, Y.; Zhao, Y.-F.; Cao, H.-M.; Lin, Y.; Zhang, Z.-L.; Pang, D.-W. 2020: Chlorophyll-Based Near-Infrared Fluorescent Nanocomposites: Preparation and Optical Properties. Acs Omega 5(24): 14261-14266
Lopes Dos Santos, A.; Pollina, T.; Gourvil, P.; Corre, E.; Marie, D.; Garrido, Jé.Luis.; Rodríguez, F.; Noël, M-Hélène.; Vaulot, D.; Eikrem, W. 2017: Chloropicophyceae, a new class of picophytoplanktonic prasinophytes. Scientific Reports 7(1): 14019
Li, Q.; Zhang, D.; Cheng, H.; Song, Z.; Ren, L.; Hao, B.; Zhu, J.; Fang, W.; Yan, D.; Li, Y.; Wang, Q.; Cao, A. 2021: Chloropicrin alternated with dazomet improved the soil's physicochemical properties, changed microbial communities and increased strawberry yield. Ecotoxicology and Environmental Safety 220: 112362
Sekiguchi, T.; Yoshida, K.; Okegawa, Y.; Motohashi, K.; Wakabayashi, K.-I.; Hisabori, T. 2020: Chloroplast ATP synthase is reduced by both f-type and m-type thioredoxins. Biochimica et Biophysica Acta. Bioenergetics 1861(11): 148261
Kikuchi, Y.; Nakamura, S.; Woodson, J.D.; Ishida, H.; Ling, Q.; Hidema, J.; Jarvis, R.P.; Hagihara, S.; Izumi, M. 2020: Chloroplast Autophagy and Ubiquitination Combine to Manage Oxidative Damage and Starvation Responses. Plant Physiology 183(4): 1531-1544
Kikuchi, Y.; Nakamura, S.; Woodson, J.D.; Ishida, H.; Ling, Q.; Hidema, J.; Jarvis, R.Paul.; Hagihara, S.; Izumi, M. 2020: Chloroplast Autophagy and Ubiquitination Combine to Manage Oxidative Damage and Starvation Responses. Plant Physiology 183(4): 1531-1544
Klasek, L.; Inoue, K.; Theg, S.M. 2020: Chloroplast Chaperonin-Mediated Targeting of a Thylakoid Membrane Protein. Plant Cell 32(12): 3884-3901
Kurose, D.; Pollard, K.M.; Ellison, C.A. 2020: Chloroplast DNA analysis of the invasive weed, Himalayan balsam (Impatiens glandulifera), in the British Isles. Scientific Reports 10(1): 10966
Kolodner, R.D.; Tewari, K.K. 1975: Chloroplast DNA from higher plants replicates by both the Cairns and the rolling circle mechanism. Nature 256(5520): 708-711
Seo, H.-S.; Kim, S.-H.; Kim, S.-C. 2020: Chloroplast DNA insights into the phylogenetic position and anagenetic speciation of Phedimus takesimensis (Crassulaceae) on Ulleung and Dokdo Islands, Korea. Plos one 15(9): E0239734
Oliver, C.; Hollingsworth, P.M.; Gornall, R.J. 2006: Chloroplast DNA phylogeography of the arctic-montane species Saxifraga hirculus (Saxifragaceae). Heredity 96(3): 222-231
Golenberg, E.M.; Giannasi, D.E.; Clegg, M.T.; Smiley, C.J.; Durbin, M.; Henderson, D.; Zurawski, G. 1990: Chloroplast DNA sequence from a miocene Magnolia species. Nature 344(6267): 656-658
Yoshida, Y.; Mogi, Y.; TerBush, A.D.; Osteryoung, K.W. 2016: Chloroplast FtsZ assembles into a contractible ring via tubulin-like heteropolymerization. Nature Plants 2: 16095
Wang, K.; Cui, Y.; Wang, Y.; Gao, Z.; Liu, T.; Meng, C.; Qin, S. 2020: Chloroplast Genetic Engineering of a Unicellular Green Alga Haematococcus pluvialis with Expression of an Antimicrobial Peptide. Marine Biotechnology 22(4): 572-580
Guo, Y.-Y.; Yang, J.-X.; Li, H.-K.; Zhao, H.-S. 2021: Chloroplast Genomes of two Species of Cypripedium: Expanded Genome Size and Proliferation of AT-Biased Repeat Sequences. Frontiers in Plant Science 12: 609729
Song, Y.; Wang, S.; Ding, Y.; Xu, J.; Li, M.Fu.; Zhu, S.; Chen, N. 2017: Chloroplast Genomic Resource of Paris for Species Discrimination. Scientific Reports 7(1): 3427
Hernández, M.L.; Cejudo, F.J. 2021: Chloroplast Lipids Metabolism and Function. a Redox Perspective. Frontiers in Plant Science 12: 712022
Day, P.M.; Inoue, K.; Theg, S.M. 2019: Chloroplast Outer Membrane β-Barrel Proteins Use Components of the General Import Apparatus. Plant Cell 31(8): 1845-1855
Sun, L.; Fang, L.; Zhang, Z.; Chang, X.; Penny, D.; Zhong, B. 2016: Chloroplast Phylogenomic Inference of Green Algae Relationships. Scientific Reports 6: 20528
Nussaume, L. 2008: Chloroplast SRP takes another road. Nature Chemical Biology 4(9): 529-531
García-Cerdán, J.é G.; Schmid, E.M.; Takeuchi, T.; McRae, I.; McDonald, K.L.; Yordduangjun, N.; Hassan, A.M.; Grob, P.; Xu, C.S.; Hess, H.F.; Fletcher, D.A.; Nogales, E.; Niyogi, K.K. 2020: Chloroplast Sec14-like 1 (CPSFL1) is essential for normal chloroplast development and affects carotenoid accumulation in Chlamydomonas. Proceedings of the National Academy of Sciences of the United States of America 117(22): 12452-12463
Ruf, S.; Kroop, X.; Bock, R. 2021: Chloroplast Transformation in Arabidopsis. Current Protocols 1(4): E103
Schmidt, S.B.; Eisenhut, M.; Schneider, A. 2020: Chloroplast Transition Metal Regulation for Efficient Photosynthesis. Trends in Plant Science 25(8): 817-828
Kasahara, M.; Kagawa, T.; Oikawa, K.; Suetsugu, N.; Miyao, M.; Wada, M. 2002: Chloroplast avoidance movement reduces photodamage in plants. Nature 420(6917): 829-832
López-Juez, E. 2015: Chloroplast biology: Cost-benefit analysis. Nature Plants 1: 15191
Grattieri, M.; Chen, H.; Minteer, S.D. 2020: Chloroplast biosolar cell and self-powered herbicide monitoring. Chemical Communications 56(86): 13161-13164
Stael, S. 2019: Chloroplast calcium signalling quenches a thirst. Nature Plants 5(6): 559-560
Pollastri, S.; Sukiran, N.A.; Jacobs, B.C.I.C.; Knight, M.R. 2021: Chloroplast calcium signalling regulates thermomemory. Journal of Plant Physiology 264: 153470
Wang, L.; Leister, D.; Kleine, T. 2020: Chloroplast development and genomes uncoupled signaling are independent of the RNA-directed DNA methylation pathway. Scientific Reports 10(1): 15412
Jamison 2001: Chloroplast engineering with operons. Nature Biotechnology 19(1): 9
Mengoni, A.; Gonnelli, C.; Brocchini, E.; Galardi, F.; Pucci, S.; Gabbrielli, R.; Bazzicalupo, M. 2003: Chloroplast genetic diversity and biogeography in the serpentine endemic Ni-hyperaccumulator Alyssum bertolonii. New Phytologist 157(2): 349-356
Paudel, Y.P.; Hu, Z.; Khatiwada, J.R.; Fan, L.; Pradhan, S.; Liu, B.; Qin, W. 2021: Chloroplast genome analysis of Chrysotila dentata. Gene 804: 145871
He, S-Lian.; Tian, Y.; Yang, Y.; Shi, C-Ying. 2020: Chloroplast genome and phylogenetic analyses of Morus alba (Moraceae). Mitochondrial Dna. Part B Resources 5(3): 2203-2204
He, S-Lian.; Tian, Y.; Yang, Y.; Shi, C-Ying. 2020: Chloroplast genome and phylogenetic analyses of Poncirus trifoliata (Rutaceae). Mitochondrial Dna. Part B Resources 5(3): 2205-2206
Xu, D.; Liu, M.; Ren, H.; Zhang, B.; Liu, Z.; Wang, H. 2021: Chloroplast genome and phylogenetic analysis of Grewia biloba. Mitochondrial Dna. Part B Resources 6(6): 1775-1776
Sobreiro, M.B.; Vieira, L.D.; Nunes, R.; Novaes, E.; Coissac, E.; Silva-Junior, O.B.; Grattapaglia, D.; Collevatti, R.G. 2020: Chloroplast genome assembly of Handroanthus impetiginosus: comparative analysis and molecular evolution in Bignoniaceae. Planta 252(5): 91
Yundaeng, C.; Nawae, W.; Naktang, C.; Shearman, J.R.; Sonthirod, C.; Sangsrakru, D.; Yoocha, T.; Jomchai, N.; Sheedy, J.R.; Mekiyanon, S.; Tuntaisong, M.; Pootakham, W.; Tangphatsornruang, S. 2020: Chloroplast genome data of Luffa acutangula and Luffa aegyptiaca and their phylogenetic relationships. Data in Brief 33: 106470
Liu, D.; Xie, X-Man.; Lu, Y-Zeng.; Li, F.; Zheng, J.; Yang, H-Ping.; Liu, K.; Zhang, X-Bo.; Li, W-Qing. 2021: Chloroplast genome features and phylogenomic placement of Sorbus hupehensis var. paucijuga (Rosaceae). Mitochondrial Dna. Part B Resources 6(3): 1068-1070
Zhu, B.; Hu, L.; Qian, F.; Gao, Z.; Gan, C.; Liu, Z.; Du, X.; Wang, H. 2021: Chloroplast genome features of Moricandia arvensis (Brassicaceae), a C3-C4 intermediate photosynthetic species. Plos one 16(7): E0254109
Zhang, B.; Wu, R.; Liu, M.; Cai, X.; Cheng, Y. 2021: Chloroplast genome of Gaura parviflora Douglas and its comparative analysis. Mitochondrial Dna. Part B Resources 6(3): 760-761
Chávez-Galarza, J.César.; Cardenas-Ninasivincha, S.; Contreras, R.; Ferro-Mauricio, Rén.; Huanca-Mamani, W. 2021: Chloroplast genome of Tillandsia marconae till & Vitek (Bromeliaceae), a hyperarid desert endangered species. Mitochondrial Dna. Part B Resources 6(9): 2562-2564
Lin, L.; Wang, J.; Zhao, Y-Xue.; Ma, L.; Gu, C-Hua.; Wu, Z-Qiang. 2021: Chloroplast genome of Trapa bispinosa Roxb. (Trapa, Lythraceae). Mitochondrial Dna. Part B Resources 6(2): 333-334
Huaizhu, L.; Xue, H. 2021: Chloroplast genome of a pair of Triticum aestivum L. recombinant inbred lines with significant difference in seed size. Mitochondrial Dna. Part B Resources 6(7): 1886-1887
Yang, J.Young.; Pak, J-Hong.; Kim, S-Chul. 2019: Chloroplast genome of critically endangered Cotoneaster wilsonii (Rosaceae) endemic to Ulleung Island, Korea. Mitochondrial Dna. Part B Resources 4(2): 3892-3893
Cho, K-Soo.; Choi, J-Gyu.; Cho, J-Hong.; Im, J-Sung.; Park, Y-Eun.; Hong, S-Young.; Park, T-Ho. 2017: Chloroplast genome of the wild tuber-bearing diploid potato relative Solanum chacoense. Mitochondrial Dna. Part B Resources 2(2): 915-917
Bautista, M.Ann.C.; Tao, W.; Zheng, Y.; Deng, Y.; Chen, T.; Miao, S. 2021: Chloroplast genome organization and phylogeny of Gynochthodes cochinchinensis (DC.) Razafim. & B. Bremer (Rubiaceae). Mitochondrial Dna. Part B Resources 6(1): 261-262
Tian, S.; Lu, P.; Zhang, Z.; Wu, J.Q.; Zhang, H.; Shen, H. 2021: Chloroplast genome sequence of Chongming lima bean (Phaseolus lunatus L.) and comparative analyses with other legume chloroplast genomes. Bmc Genomics 22(1): 194
Fan, J.; Zhu, W-You.; Li, Z-Fang.; Zhang, X-Fen. 2020: Chloroplast genome sequence of a yellow colored rice ( Oryza sativa L.): insight into the genome structure and phylogeny. Mitochondrial Dna. Part B Resources 5(3): 3650-3652
Kim, J-Bo.; Yang, H-Rae.; Lee, S-Hee.; Kim, Y-Jin.; Park, T-Ho. 2020: Chloroplast genome sequence of the hybrid variety 'Gagsi', one of the colored calla lilies ( Zantedeschia spp.). Mitochondrial Dna. Part B Resources 5(3): 3478-3480
Zhang, Y.; Hu, G.; Mao, W.; Dong, N.; Chen, B.; Pan, Q. 2021: Chloroplast genome sequence of the wild Ziziphus jujuba Mill. var . spinosa from North China. Mitochondrial Dna. Part B Resources 6(2): 666-667
Miao, L-Yuan.; Hu, C.; Huang, W-Chang.; Jiang, K. 2019: Chloroplast genome structure and phylogenetic position of Calanthe sylvatica (Thou.) Lindl. (Orchidaceae). Mitochondrial Dna. Part B Resources 4(2): 2625-2626
Zhou, C.; Zhou, X.; Dai, T.; Wen, Z.; Guo, X.; Song, Y.; Long, L.; Li, Y.; Mei, X. 2021: Chloroplast genome structure and phylogenetic position of Lophatherum gracile. Mitochondrial Dna. Part B Resources 6(1): 26-28
Yu, S.; Shi, M-Miao.; Jiang, K. 2019: Chloroplast genome structure and phylogenetic position of Ruppia sinensis Shuo Yu & den Hartog. Mitochondrial Dna. Part B Resources 4(2): 2916-2917
Yao, X.; Tan, Y-Hong.; Liu, Y-Ying.; Song, Y.; Yang, J-Bo.; Corlett, R.T. 2016: Chloroplast genome structure in Ilex (Aquifoliaceae). Scientific Reports 6: 28559
Zhou, J.; Zhang, S.; Wang, J.; Shen, H.; Ai, B.; Gao, W.; Zhang, C.; Fei, Q.; Yuan, D.; Wu, Z.; Tembrock, L.R.; Li, S.; Gu, C.; Liao, X. 2021: Chloroplast genomes in Populus (Salicaceae): comparisons from an intensively sampled genus reveal dynamic patterns of evolution. Scientific Reports 11(1): 9471
Asaf, S.; Khan, A.Latif.; Khan, M.Aaqil.; Waqas, M.; Kang, S-Mo.; Yun, B-Wook.; Lee, I-Jung. 2017: Chloroplast genomes of Arabidopsis halleri ssp. gemmifera and Arabidopsis lyrata ssp. petraea: Structures and comparative analysis. Scientific Reports 7(1): 7556
Menezes, A.P.A.; Resende-Moreira, L.C.; Buzatti, R.S.O.; Nazareno, A.G.; Carlsen, M.; Lobo, F.P.; Kalapothakis, E.; Lovato, M.Bernadete. 2018: Chloroplast genomes of Byrsonima species (Malpighiaceae): comparative analysis and screening of high divergence sequences. Scientific Reports 8(1): 2210
Xiong, Q.; Hu, Y.; Lv, W.; Wang, Q.; Liu, G.; Hu, Z. 2021: Chloroplast genomes of five Oedogonium species: genome structure, phylogenetic analysis and adaptive evolution. Bmc Genomics 22(1): 707
Huang, R.; Xie, X.; Li, F.; Tian, E.; Chao, Z. 2021: Chloroplast genomes of two Mediterranean Bupleurum species and the phylogenetic relationship inferred from combined analysis with East Asian species. Planta 253(4): 81
Pinevich, A.V. 2020: Chloroplast history clarified by the criterion of light-harvesting complex. Bio Systems 196: 104173
Yu, L.; Fan, J.; Zhou, C.; Xu, C. 2021: Chloroplast lipid biosynthesis is fine-tuned to thylakoid membrane remodeling during light acclimation. Plant Physiology 185(1): 94-107
Meade, M.J.; Proulex, G.C.R.; Manoylov, K.M.; Cahoon, A.B. 2020: Chloroplast mRNAs are 3' polyuridylylated in the Green Alga Pithophora roettleri (Cladophorales). Journal of Phycology 56(5): 1124-1134
Bandyopadhyay, S.; Gama, F.; Molina-Navarro, M.Micaela.; Gualberto, Jé.Manuel.; Claxton, R.; Naik, S.G.; Huynh, B.Hanh.; Herrero, E.; Jacquot, J.Pierre.; Johnson, M.K.; Rouhier, N. 2008: Chloroplast monothiol glutaredoxins as scaffold proteins for the assembly and delivery of [2Fe-2S] clusters. EMBO Journal 27(7): 1122-1133
Kamimura, Y.; Tanaka, H.; Kobayashi, Y.; Shikanai, T.; Nishimura, Y. 2018: Chloroplast nucleoids as a transformable network revealed by live imaging with a microfluidic device. Communications Biology 1: 47
Leliaert, F.; Tronholm, A.; Lemieux, C.; Turmel, M.; DePriest, M.S.; Bhattacharya, D.; Karol, K.G.; Fredericq, S.; Zechman, F.W.; Lopez-Bautista, J.M. 2016: Chloroplast phylogenomic analyses reveal the deepest-branching lineage of the Chlorophyta, Palmophyllophyceae class. nov. Scientific Reports 6: 25367
Guan, X.; Yang, Q.; Wang, S.; Zhang, H.; Xia, C. 2021: Chloroplast phylogenomic analysis provides insights into the evolution of Paris liiana sp. nov. Mitochondrial Dna. Part B Resources 6(2): 346-348
Dong, W.; Liu, Y.; Xu, C.; Gao, Y.; Yuan, Q.; Suo, Z.; Zhang, Z.; Sun, J. 2021: Chloroplast phylogenomic insights into the evolution of Distylium (Hamamelidaceae). Bmc Genomics 22(1): 293
Su, C.; Duan, L.; Liu, P.; Liu, J.; Chang, Z.; Wen, J. 2021: Chloroplast phylogenomics and character evolution of eastern Asian Astragalus (Leguminosae): Tackling the phylogenetic structure of the largest genus of flowering plants in Asia. Molecular Phylogenetics and Evolution 156: 107025
Dong, W.; Xu, C.; Liu, Y.; Shi, J.; Li, W.; Suo, Z. 2021: Chloroplast phylogenomics and divergence times of Lagerstroemia (Lythraceae). Bmc Genomics 22(1): 434
Yu, Y.; Yang, J.-B.; Ma, W.-Z.; Pressel, S.; Liu, H.-M.; Wu, Y.-H.; Schneider, H. 2020: Chloroplast phylogenomics of liverworts: a reappraisal of the backbone phylogeny of liverworts with emphasis on Ptilidiales. Cladistics: the International Journal of the Willi Hennig Society 36(2): 184-193
Lei, L. 2017: Chloroplast proteins: Fight drought. Nature Plants 3: 16214
Meena, R.K.; Negi, N.; Uniyal, N.; Shamoon, A.; Bhandari, M.S.; Pandey, S.; Negi, R.K.; Sharma, R.; Ginwal, H.S. 2020: Chloroplast-based DNA barcode analysis indicates high discriminatory potential of matK locus in Himalayan temperate bamboos. 3 Biotech 10(12): 534
Nomura, H.; Komori, T.; Uemura, S.; Kanda, Y.; Shimotani, K.; Nakai, K.; Furuichi, T.; Takebayashi, K.; Sugimoto, T.; Sano, S.; Suwastika, I.Nengah.; Fukusaki, E.; Yoshioka, H.; Nakahira, Y.; Shiina, T. 2012: Chloroplast-mediated activation of plant immune signalling in Arabidopsis. Nature Communications 3: 926
Kwak, S-Yeong.; Lew, T.Thomas.Salim.; Sweeney, C.J.; Koman, V.B.; Wong, M.Hao.; Bohmert-Tatarev, K.; Snell, K.D.; Seo, J.Sung.; Chua, N-Hai.; Strano, M.S. 2019: Chloroplast-selective gene delivery and expression in planta using chitosan-complexed single-walled carbon nanotube carriers. Nature Nanotechnology 14(5): 447-455
Stewart, C.N.; Prakash, C.S. 1998: Chloroplast-transgenic plants are not a gene flow panacea. Nature Biotechnology 16(5): 401
Cummins, J.E. 1998: Chloroplast-transgenic plants are not a gene flow panacea. Nature Biotechnology 16(5): 401
Daniell, H.; Varma, S. 1998: Chloroplast-transgenic plants: panacea--no! Gene containment--yes!. Nature Biotechnology 16(7): 602
Yang, F.; Xiao, K.; Pan, H.; Liu, J. 2021: Chloroplast: the Emerging Battlefield in Plant-Microbe Interactions. Frontiers in Plant Science 12: 637853
Kebeish, R.; Niessen, M.; Thiruveedhi, K.; Bari, R.; Hirsch, H-Josef.; Rosenkranz, R.; Stäbler, N.; Schönfeld, B.; Kreuzaler, F.; Peterhänsel, C. 2007: Chloroplastic photorespiratory bypass increases photosynthesis and biomass production in Arabidopsis thaliana. Nature Biotechnology 25(5): 593-599
de Torres Zabala, M.; Littlejohn, G.; Jayaraman, S.; Studholme, D.; Bailey, T.; Lawson, T.; Tillich, M.; Licht, D.; Bölter, B.; Delfino, L.; Truman, W.; Mansfield, J.; Smirnoff, N.; Grant, M. 2015: Chloroplasts play a central role in plant defence and are targeted by pathogen effectors. Nature Plants 1: 15074
Zapata, J.M.; Guéra, A.; Esteban-Carrasco, A.; Martín, M.; Sabater, B. 2005: Chloroplasts regulate leaf senescence: delayed senescence in transgenic ndhF-defective tobacco. Cell Death and Differentiation 12(10): 1277-1284
McFadden, G. 1999: Chloroplasts. Ever decreasing circles. Nature 400(6740): 119-120
Korte, R.; Schulz, S.; Brauer, B. 2021: Chloropropanols (3-MCPD, 1,3-DCP) from food contact materials: GC-MS method improvement, market survey and investigations on the effect of hot water extraction. Food Additives and Contaminants. Part A Chemistry Analysis Control Exposure and Risk Assessment 2021: 1-9
Willkens, R.F. 1972: Chloroquine. Arthritis and Rheumatism 15(2): 228-229
Patrick-Ferife, G. 2001: Chloroquine. Community Eye Health 14(38): 29
Earle, D.P.; Berliner, R.W. 1948: Chloroquine. ABSTRACTS. International Congress on Tropical Medicine and Malaria 56(4th Congr): 57
Pishnamazi, M.; Hosseini, S.; Zabihi, S.; Borousan, F.; Zeinolabedini Hezave, A.; Marjani, A.; Shirazian, S. 2021: Chloroquine (antimalaria medication with anti SARS-CoV activity) solubility in supercritical carbon dioxide. Journal of Molecular Liquids 322: 114539
Alder, M.; Gupta, R.; Davogustto, G.E.; Kapp, M.E.; Lindenfeld, J. 2020: Chloroquine Cardiotoxicity Leading to Cardiogenic Shock. JACC. Case Reports 2(15): 2381-2386
Liao, S.; Tang, S.; Tan, B.; Li, J.; Qi, M.; Cui, Z.; Zha, A.; Wang, Y.; Yin, Y.; Sun, P.; Tang, Y. 2020: Chloroquine Improves Deoxynivalenol-Induced Inflammatory Response and Intestinal Mucosal Damage in Piglets. Oxidative Medicine and Cellular Longevity 2020: 9834813
Alam, I.; Gerard-O'Riley, R.L.; Acton, D.; Hardman, S.L.; Hong, J.M.; Bruzzaniti, A.; Econs, M.J. 2021: Chloroquine increases osteoclast activity in vitro but does not improve the osteopetrotic bone phenotype of ADO2 mice. Bone 153: 116160
Truong, A.; Yoo, J.H.; Scherzer, M.T.; Sanchez, J.M.S.; Dale, K.J.; Kinsey, C.G.; Richards, J.R.; Shin, D.; Ghazi, P.C.; Onken, M.D.; Blumer, K.J.; Odelberg, S.J.; McMahon, M. 2020: Chloroquine Sensitizes GNAQ/11-mutated Melanoma to MEK1/2 Inhibition. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research 26(23): 6374-6386
Choi, M.R.; Xu, J.; Lee, S.; Yeon, S.H.; Park, S.K.; Rha, K.S.; Kim, Y.M. 2020: Chloroquine Treatment Suppresses Mucosal Inflammation in a Mouse Model of Eosinophilic Chronic Rhinosinusitis. Allergy Asthma and Immunology Research 12(6): 994-1011
Eloranta, K.; Cairo, S.; Liljeström, E.; Soini, T.; Kyrönlahti, A.; Judde, J.-G.; Wilson, D.B.; Heikinheimo, M.; Pihlajoki, M. 2020: Chloroquine Triggers Cell Death and Inhibits PARPs in Cell Models of Aggressive Hepatoblastoma. Frontiers in Oncology 10: 1138
Chen, T-Y.; Syu, J-S.; Lin, T-C.; Cheng, H-L.; Lu, F-L.; Wang, C-Y. 2015: Chloroquine alleviates etoposide-induced centrosome amplification by inhibiting CDK2 in adrenocortical tumor cells. Oncogenesis 4: E180
Mahmoud, M.A.A.; Saleh, D.O.; Safar, M.M.; Agha, A.M.; Khattab, M.M. 2021: Chloroquine ameliorates bone loss induced by d-galactose in male rats via inhibition of ERK associated osteoclastogenesis and antioxidant effect. Toxicology Reports 8: 366-375
Dai, C.; Xiao, X.; Li, D.; Tun, S.; Wang, Y.; Velkov, T.; Tang, S. 2018: Chloroquine ameliorates carbon tetrachloride-induced acute liver injury in mice via the concomitant inhibition of inflammation and induction of apoptosis. Cell Death and Disease 9(12): 1164
Million, M.; Roussel, Y.; Raoult, D. 2020: Chloroquine and COVID-19: a western medical and scientific drift?. European Journal of Internal Medicine 78: 4-5
Monteiro, E.M.R.; Nascimento, M.F.L.; Brito, T.R.C.; Lima, M.C.; Sefair, L.R.; Pedrosa, M.M. 2020: Chloroquine and COVID-19: Should we Care about Ototoxicity?. International Archives of Otorhinolaryngology 24(3): E359-E363
Bouazza, B.; Ramdani, I.; Chahed, R. 2021: Chloroquine and COVID-19: role as a bitter taste receptor agonist?. New Microbes and new Infections 40: 100843
Naddaf, E.; Paul, P.; AbouEzzeddine, O.F. 2020: Chloroquine and Hydroxychloroquine Myopathy: Clinical Spectrum and Treatment Outcomes. Frontiers in Neurology 11: 616075
Bérard, A.; Sheehy, O.; Zhao, J.-P.; Vinet, E.; Quach, C.; Bernatsky, S. 2021: Chloroquine and Hydroxychloroquine use During Pregnancy and the Risk of Adverse Pregnancy Outcomes Using Real-World Evidence. Frontiers in Pharmacology 12: 722511
Powell-Young, Y.M.; Alzaghari, O.; Reyes-Miranda, C.; Coleman, B.; Strickland, O.L.; Gordon, Y.; Aroke, E.; Lewis Iii, H.; Giger, J.N. 2020: Chloroquine and Hydroxychloroquine for the Treatment of COVID-19: Review and Appraisal of Current Evidence. Journal of National Black Nurses' Association: Jnbna 31(2): 1-14
Elavarasi, A.; Prasad, M.; Seth, T.; Sahoo, R.K.; Madan, K.; Nischal, N.; Soneja, M.; Sharma, A.; Maulik, S.K.; Shalimar; Garg, P. 2020: Chloroquine and Hydroxychloroquine for the Treatment of COVID-19: a Systematic Review and Meta-analysis. Journal of General Internal Medicine 35(11): 3308-3314
Islam, M. 2020: Chloroquine and Hydroxychloroquine in COVID-19: Challenges and the Need for Caution in Low-Resource Settings. JournaloftheCollegeofPhysiciansandSurgeons--Pakistan:Jcpsp 30(6): 78
Mallhi, T.H.; Ahmad, A.; Butt, M.H.; Misbah, S.; Khan, Y.H.; Alotaibi, N.H. 2020: Chloroquine and Hydroxychloroquine in COVID-19: Practice Implications for Healthcare Professionals. Journal of the College of Physicians and Surgeons--Pakistan: Jcpsp 30(10): 124-128
Roux, A.T.; Maharaj, L.; Oyegoke, O.; Akoniyon, O.P.; Adeleke, M.A.; Maharaj, R.; Okpeku, M. 2021: Chloroquine and Sulfadoxine-Pyrimethamine Resistance in Sub-Saharan Africa-A Review. Frontiers in Genetics 12: 668574
Basnuevo, J.G.; Sotolongo, F. 1947: Chloroquine and aceto-xiphenyl, in the treatment of childhood giardiasis. Revista Kuba de Medicina Tropical y Parasitologia 3(10): 245-249
Jeong, H.Yun.; Kang, J.Mo.; Jun, H.Hoon.; Kim, D-Jin.; Park, S.Hwa.; Sung, M.Ji.; Heo, J.Hyung.; Yang, D.Ho.; Lee, S.Ho.; Lee, S-Young. 2018: Chloroquine and amodiaquine enhance AMPK phosphorylation and improve mitochondrial fragmentation in diabetic tubulopathy. Scientific Reports 8(1): 8774
Wolfert, M.A.; Seymour, L.W. 1998: Chloroquine and amphipathic peptide helices show synergistic transfection in vitro. Gene Therapy 5(3): 409-414
Majewski, D.; Majewska, K.A.; Naskręcka, M.; Grygiel-Górniak, B. 2021: Chloroquine and hydroxychloroquine - safety profile of potential COVID-19 drugs from the rheumatologist's perspective. Annals of Agricultural and Environmental Medicine: Aaem 28(1): 122-126
Wang, N.; Han, S.; Liu, R.; Meng, L.; He, H.; Zhang, Y.; Wang, C.; Lv, Y.; Wang, J.; Li, X.; Ding, Y.; Fu, J.; Hou, Y.; Lu, W.; Ma, W.; Zhan, Y.; Dai, B.; Zhang, J.; Pan, X.; Hu, S.; Gao, J.; Jia, Q.; Zhang, L.; Ge, S.; Wang, S.; Liang, P.; Hu, T.; Lu, J.; Wang, X.; Zhou, H.; Ta, W.; Wang, Y.; Lu, S.; He, L. 2020: Chloroquine and hydroxychloroquine as ACE2 blockers to inhibit viropexis of 2019-nCoV Spike pseudotyped virus. Phytomedicine: International Journal of PhytoTherapy and Phytopharmacology 79: 153333
Acharya, Y.; Sayed, A. 2020: Chloroquine and hydroxychloroquine as a repurposed agent against COVID-19: a narrative review. Therapeutic Advances in Infectious Disease 7: 2049936120947517
Lacroix, I.; Bénévent, J.; Damase-Michel, C. 2020: Chloroquine and hydroxychloroquine during pregnancy: what do we know?. Therapie 75(4): 384-385
Hathout, R.M.; Abdelhamid, S.G.; Metwally, A.A. 2020: Chloroquine and hydroxychloroquine for combating COVID-19: Investigating efficacy and hypothesizing new formulations using Bio/chemoinformatics tools. Informatics in Medicine Unlocked 21: 100446
Ferreira, P.M.P.; Sousa, R.W.R.d.; Ferreira, J.é R.d.O.; Militão, G.C.G.; Bezerra, D.P. 2021: Chloroquine and hydroxychloroquine in antitumor therapies based on autophagy-related mechanisms. Pharmacological Research 168: 105582
Khuroo, M.S. 2020: Chloroquine and hydroxychloroquine in coronavirus disease 2019 (COVID-19). Facts, fiction and the hype: a critical appraisal. International Journal of Antimicrobial Agents 56(3): 106101
Roustit, M.; Guilhaumou, R.; Molimard, M.; Drici, M.-D.; Laporte, S.; Montastruc, J.-L. 2020: Chloroquine and hydroxychloroquine in the management of COVID-19: Much kerfuffle but little evidence. Therapie 75(4): 363-370
Lei, Z.-N.; Wu, Z.-X.; Dong, S.; Yang, D.-H.; Zhang, L.; Ke, Z.; Zou, C.; Chen, Z.-S. 2020: Chloroquine and hydroxychloroquine in the treatment of malaria and repurposing in treating COVID-19. Pharmacology and Therapeutics 216: 107672
Altalhi, T.A.; Alswat, K.; Alsanie, W.F.; Ibrahim, M.M.; Aldalbahi, A.; El-Sheshtawy, H.S. 2021: Chloroquine and hydroxychloroquine inhibitors for COVID-19 sialic acid cellular receptor: Structure, hirshfeld atomic charge analysis and solvent effect. Journal of Molecular Structure 1228: 129459
Paumgartten, F.J.é R.; Delgado, I.F.; Pitta, L.d.R.; Oliveira, A.C.A.X.d. 2020: Chloroquine and hydroxychloroquine repositioning in times of COVID-19 pandemics, all that glitters is not gold. Cadernos de Saude Publica 36(5): E00088520
Pimentel, J.; Andersson, N. 2020: Chloroquine and its derivatives in the management of COVID-19: a scoping review. Biomedica: Revista del Instituto Nacional de Salud 40(Supl. 2): 80-95
Behrens, R.H. 1992: Chloroquine and proguanil prophylaxis in travellers to Kenya. Lancet 339(8784): 63
Churchill, D.; Davidson, R.; O'Flynn, K.; Kox, W. 1992: Chloroquine and proguanil prophylaxis in travellers to Kenya. Lancet 339(8784): 63
de Almeida Júnior, R.Ferreira.; de Souza, K.Simone.Costa.; Galdino, O.Araujo.; da Silva Junior, Aóbio.Antônio.; Arrais, R.Fernando.; Machado, P.Renata.Lima.; Farias, K.Juvenal.Silva.; de Rezende, A.Augusto. 2020: Chloroquine as a promising adjuvant therapy for type 1 Diabetes Mellitus. Scientific Reports 10(1): 12098
Han, N.-R.; Ko, S.-G.; Moon, P.-D.; Park, H.-J. 2021: Chloroquine attenuates thymic stromal lymphopoietin production via suppressing caspase-1 signaling in mast cells. Biomedicine and PharmacoTherapy 141: 111835
Compter, I.; Eekers, D.B.P.; Hoeben, A.; Rouschop, K.M.A.; Reymen, B.; Ackermans, L.; Beckervordersantforth, J.; Bauer, N.J.C.; Anten, M.M.; Wesseling, P.; Postma, A.A.; De Ruysscher, D.; Lambin, P. 2020: Chloroquine combined with concurrent radiotherapy and temozolomide for newly diagnosed glioblastoma: a phase IB trial. Autophagy 2020: 1-9
Calabrese, E.J.; Hanekamp, J.C.; Hanekamp, Y.N.; Kapoor, R.; Dhawan, G.; Agathokleous, E. 2021: Chloroquine commonly induces hormetic dose responses. Science of the Total Environment 755(Part 1): 142436
Hao, X.; Li, W. 2021: Chloroquine diphosphate suppresses liver cancer via inducing apoptosis in Wistar rats using interventional therapy. Oncology Letters 21(3): 233
Moore, H.P.; Gumbiner, B.; Kelly, R.B. 1983: Chloroquine diverts ACTH from a regulated to a constitutive secretory pathway in AtT-20 cells. Nature 302(5907): 434-436
Hoffmann, M.; Mösbauer, K.; Hofmann-Winkler, H.; Kaul, A.; Kleine-Weber, H.; Krüger, N.; Gassen, N.C.; Müller, M.A.; Drosten, C.; Pöhlmann, S. 2020: Chloroquine does not inhibit infection of human lung cells with SARS-CoV-2. Nature 585(7826): 588-590
Karalis, V.; Ismailos, G.; Karatza, E. 2020: Chloroquine dosage regimens in patients with COVID-19: Safety risks and optimization using simulations. Safety Science 129: 104842
Zhang, X.; Xu, Q.; Zhang, Z.; Cheng, W.; Cao, W.; Jiang, C.; Han, C.; Li, J.; Hua, Z. 2016: Chloroquine enhanced the anticancer capacity of VNP20009 by inhibiting autophagy. Scientific Reports 6: 29774
Karmali, R.A.; Horrobin, D.F.; Menezes, J.; Patel, P.; Musto, J. 1978: Chloroquine enhances Epstein-Barr virus expression. Nature 275(5679): 444-445
Park, E.Jung.; Min, K-jin.; Choi, K.Sook.; Kubatka, P.; Kruzliak, P.; Kim, D.Eun.; Kwon, T.Kyu. 2016: Chloroquine enhances TRAIL-mediated apoptosis through up-regulation of DR5 by stabilization of mRNA and protein in cancer cells. Scientific Reports 6: 22921
Sun, F.; Wang, Z.; Wang, X. 2021: Chloroquine enhances catalpol's ability to promote apoptosis by inhibiting catalpol's autophagy-promoting effect on gastric cancer. Journal of Buon: Official Journal of the Balkan Union of Oncology 26(3): 924-931
Reiling, S.J.; Krohne, G.; Friedrich, O.; Geary, T.G.; Rohrbach, P. 2018: Chloroquine exposure triggers distinct cellular responses in sensitive versus resistant Plasmodium falciparum parasites. Scientific Reports 8(1): 11137
Koren, G.; Korn, L. 2020: Chloroquine for Covid 19: introducing drug repurposing to medical students. International Journal of Medical Education 11: 155-157
Chang, Y.-J.; Liu, K.-S.; Wang, J.-J.; Hung, C.-H.; Chen, Y.-W. 2020: Chloroquine for prolonged skin analgesia in rats. Neuroscience Letters 735: 135233
Beus, M.; Savijoki, K.; Patel, J.Z.; Yli-Kauhaluoma, J.; Fallarero, A.; Zorc, B. 2020: Chloroquine fumardiamides as novel quorum sensing inhibitors. Bioorganic and Medicinal Chemistry Letters 30(16): 127336
Ledford, H. 2020: Chloroquine hype is derailing the search for coronavirus treatments. Nature 580(7805): 573
Płusa, T.; Lengier-Krajewska, M.; Baranowska, A.; Krawczyk, J.Ła. 2020: Chloroquine in controlling biological infections. Polski Merkuriusz Lekarski: Organ Polskiego Towarzystwa Lekarskiego 48(285): 199-203
Tang, D.; Li, J.; Zhang, R.; Kang, R.; Klionsky, D.J. 2020: Chloroquine in fighting COVID-19: good, bad, or both?. Autophagy 2020: 1-3
Kalliomaki, J.L. 1958: Chloroquine in rheumatoid arthritis. Nordisk Medicin 59(21): 726-727
Basnuevo, J.G. 1948: Chloroquine in the treatment of amebiasis. RevistaKubadeMedicinaTropicalyParasitologia 4(4-5): 101
Basnuevo, J.G.; Cowley Chavez, O.; Rabassa, E.B. 1951: Chloroquine in the treatment of intestinal ulcerations from Endamoeba histolytica. ARCHIVOS. Hospital Universitario General Calixto Garcia 3(4): 355-383
Lopez Fernandez, F.; Perez Sora, E. 1947: Chloroquine in the treatment of malaria. Revista Medica Cubana 58(4): 268-275
Aparico Garrido, J.; Benitez Calvo, L.A. 1949: Chloroquine in the treatment of malaria; action of the drug on the symptoms and parasitaemia. La Medicina Colonial 13(2): 66-82
Liang, A.-L.; Zhang, J.; Du, S.-L.; Zhang, B.; Ma, X.; Wu, C.-Y.; Liu, Y.-J. 2020: Chloroquine increases the anti-cancer activity of epirubicin in A549 lung cancer cells. Oncology Letters 20(1): 53-60
Schmidt, R.L.J.; Jutz, S.; Goldhahn, K.; Witzeneder, N.; Gerner, M.C.; Trapin, D.; Greiner, G.; Hoermann, G.; Steiner, G.; Pickl, W.F.; Burgmann, H.; Steinberger, P.; Ratzinger, F.; Schmetterer, K.G. 2017: Chloroquine inhibits human CD4 + T-cell activation by AP-1 signaling modulation. Scientific Reports 7: 42191
Davis, S.N.; Wu, P.; Camci, E.D.; Simon, J.A.; Rubel, E.W.; Raible, D.W. 2020: Chloroquine kills hair cells in zebrafish lateral line and murine cochlear cultures: Implications for ototoxicity. Hearing Research 395: 108019
Chen, D.; Xie, J.; Fiskesund, R.; Dong, W.; Liang, X.; Lv, J.; Jin, X.; Liu, J.; Mo, S.; Zhang, T.; Cheng, F.; Zhou, Y.; Zhang, H.; Tang, K.; Ma, J.; Liu, Y.; Huang, B. 2018: Chloroquine modulates antitumor immune response by resetting tumor-associated macrophages toward M1 phenotype. Nature Communications 9(1): 873
Park, T-Yoon.; Jang, Y.; Kim, W.; Shin, J.; Toh, H.Ting.; Kim, C-Hyung.; Yoon, H.Sup.; Leblanc, P.; Kim, K-Soo. 2019: Chloroquine modulates inflammatory autoimmune responses through Nurr1 in autoimmune diseases. Scientific Reports 9(1): 15559
Thakar, A.; Panda, S.; Sakthivel, P.; Brijwal, M.; Dhakad, S.; Choudekar, A.; Kanodia, A.; Bhatnagar, S.; Mohan, A.; Maulik, S.K.; Dar, L. 2021: Chloroquine nasal drops in asymptomatic and mild COVID-19: An exploratory randomized clinical trial. Indian Journal of Medical Research 153(1; 2: 151-158
Kamp, T.J.; Hamdan, M.H.; January, C.T. 2020: Chloroquine or Hydroxychloroquine for COVID-19: Is Cardiotoxicity a Concern?. Journal of the American Heart Association 9(12): E016887
Schluenz, L.A.; Ramos-Otero, G.P.; Nawarskas, J.J. 2020: Chloroquine or Hydroxychloroquine for Management of Coronavirus Disease 2019: Friend or Foe?. Cardiology in Review 28(5): 266-271
McIntosh, H.M. 2001: Chloroquine or amodiaquine combined with sulfadoxine-pyrimethamine for treating uncomplicated malaria. Cochrane Database of Systematic Reviews 4: Cd000386
Mo, L.; Zheng, P. 2020: Chloroquine phosphate: therapeutic drug for COVID-19. Nan Fang Yi Ke da Xue Xue Bao 40(4): 586-594
Liu, F.; Shang, Y.; Chen, S-zhen. 2014: Chloroquine potentiates the anti-cancer effect of lidamycin on non-small cell lung cancer cells in vitro. Acta Pharmacologica Sinica 35(5): 645-652
Lakhter, A.J.; Sahu, R.P.; Sun, Y.; Kaufmann, W.K.; Androphy, E.J.; Travers, J.B.; Naidu, S.R. 2013: Chloroquine promotes apoptosis in melanoma cells by inhibiting BH3 domain-mediated PUMA degradation. Journal of Investigative Dermatology 133(9): 2247-2254
Sherman, I.W.; Mudd, J.B.; Trager, W. 1965: Chloroquine resistance and the nature of malarial pigment. Nature 208(5011): 691-693
Wellems, T.E.; Panton, L.J.; Gluzman, I.Y.; do Rosario, V.E.; Gwadz, R.W.; Walker-Jonah, A.; Krogstad, D.J. 1990: Chloroquine resistance not linked to mdr-like genes in a Plasmodium falciparum cross. Nature 345(6272): 253-255
Chin, W. 1981: Chloroquine resistant malaria in Africa. Journal of Tropical Medicine and Hygiene 84(3): 137
Magulike, N.O.; Ihenacho, H.N.; Ike, V.O. 1993: Chloroquine retinopathy in Nigerian patients with heart block. Eye 7: 591-593
Hwang, J.Ryoung.; Kim, W.Young.; Cho, Y-Jae.; Ryu, J-Yoon.; Choi, J-Joo.; Jeong, S.Young.; Kim, M-Sun.; Kim, J.Hye.; Paik, E.Sun.; Lee, Y-Young.; Han, H-Dong.; Lee, J-Won. 2020: Chloroquine reverses chemoresistance via upregulation of p21 WAF1/CIP1 and autophagy inhibition in ovarian cancer. Cell Death and Disease 11(12): 1034
Rinehart, R.E. 1955: Chloroquine therapy in rheumatoid arthritis. Northwest Medicine 54(7): 713-715
Zhan, X.; Dowell, S.; Shen, Y.; Lee, D.L. 2020: Chloroquine to fight COVID-19: a consideration of mechanisms and adverse effects?. Heliyon 6(9): E04900
Wiwanitkit, V. 2020: Chloroquine, Hydroxychloroquine, Retinal Toxicity, and COVID-19. Asia-PacificJournalofOphthalmology 9(4): 374
Erickson, T.B.; Chai, P.R.; Boyer, E.W. 2020: Chloroquine, hydroxychloroquine and COVID-19. Toxicology Communications 4(1): 40-42
Takla, M.; Jeevaratnam, K. 2020: Chloroquine, hydroxychloroquine, and COVID-19: Systematic review and narrative synthesis of efficacy and safety. Saudi Pharmaceutical Journal: Spj: the Official Publication of the Saudi Pharmaceutical Society 28(12): 1760-1776
Pedrioli, G.; Patani, R.; Paganetti, P. 2020: Chloroquine, the Coronavirus Crisis, and Neurodegeneration: a Perspective. Frontiers in Neurology 11: 596528
van den Broek, M.P.H.; Möhlmann, J.E.; Abeln, B.G.S.; Liebregts, M.; van Dijk, V.F.; van de Garde, E.M.W. 2020: Chloroquine-induced QTc prolongation in COVID-19 patients. Netherlands Heart Journal: Monthly Journal of the Netherlands Society of Cardiology and the Netherlands Heart Foundation 2020: 1-4
Ratliff, N.B.; Estes, M.L.; McMahon, J.T.; Myles, J.L. 1988: Chloroquine-induced cardiomyopathy. Archives of Pathology and Laboratory Medicine 112(6): 578
Albay, D.; Adler, S.G.; Philipose, J.; Calescibetta, C.C.; Romansky, S.G.; Cohen, A.H. 2005: Chloroquine-induced lipidosis mimicking Fabry disease. Modern Pathology: An Official Journal of the United States and Canadian Academy of Pathology Inc 18(5): 733-738
Whitelaw, D.; Jessop, S. 2005: Chloroquine-induced retinal toxicity. South African Medical Journal 95(2): 72
Canessa, A.; Mazzarello, G.; Cruciani, M.; Bassetti, D. 1992: Chloroquine-resistant Plasmodium vivax in Brazil. Transactions of the Royal Society of Tropical Medicine and Hygiene 86(5): 570-571
Hanna, J. 1993: Chloroquine-resistant Plasmodium vivax: how common?. Medical Journal of Australia 158(7): 502-503
De Glanville, H. 1979: Chloroquine-resistant falciparum malaria. Medical Journal of Australia 1(1): 24
Bennett, N.M.; Stanley, P.; Yung, A.P.; Rankin, D.W.; Parkinson, A.D. 1979: Chloroquine-resistant falciparum malaria. Medical Journal of Australia 1(13): 618-619
Cooke, R. 1979: Chloroquine-resistant falciparum malaria. Medical Journal of Australia 2(1): 36
Shookhoff, H.B. 1967: Chloroquine-resistant falciparum malaria. JAMA 202(10): 989
Black, R.H. 1980: Chloroquine-resistant falciparum malaria. Medical Journal of Australia 1(10): 493-494
Sharma, P.; McAlinden, K.D.; Ghavami, S.; Deshpande, D.A. 2021: Chloroquine: Autophagy inhibitor, antimalarial, bitter taste receptor agonist in fight against COVID-19, a reality check?. European Journal of Pharmacology 897: 173928
Pampana, E.J. 1947: Chloroquine; o Rendered O S N 7618. Rivista di Malariologia 26(1): 36-42
Tan, Y.; Zhang, Q.S.; Zhao, W.; Liu, Z.; Ma, M.Y.; Zhong, M.Y.; Wang, M.X.; Xu, B. 2020: Chlororespiration Serves as Photoprotection for the Photo-Inactivated Oxygen-Evolving Complex in Zostera marina, a Marine Angiosperm. Plant and Cell Physiology 61(8): 1517-1529
Zhang, J.-Q.; Han, L.-B. 2020: Chlorosilane-Catalyzed Coupling of Hydrogen Phosphine Oxides with Acyl Chlorides Generating Acylphosphine Oxides. Organic Letters 22(12): 4633-4637
Huizinga, E. 1948: Chlorosis tarda with dysphagia and carcinoma. Nederlands Tijdschrift Voor Geneeskunde 92(1): 4-9
Lee, J.; Yoon, S.; Chang, R. 2021: Chlorosulfolipid (Danicalipin A) Membrane Structure: Hybrid Molecular Dynamics Simulation Studies. Journal of Physical Chemistry Letters 12(19): 4537-4542
Da Silva Barreto, J.; de Melo Tarouco, F.; da Rosa, C.E. 2020: Chlorothalonil causes redox state change leading to oxidative stress generation in Danio rerio. Aquatic Toxicology 225: 105527
Kiefer, K.; Bader, T.; Minas, N.; Salhi, E.; Janssen, E.M.-L.; von Gunten, U.; Hollender, J. 2020: Chlorothalonil transformation products in drinking water resources: Widespread and challenging to abate. Water Research 183: 116066
Crawford, J.D.; Kennedy, G.C. 1959: Chlorothiazid in diabetes insipidus. Nature 183(4665): 891-892
Burch, G.E. 1958: Chlorothiazide. Bulletin of the Tulane Medical Faculty 17(3): 155-156
Cairella, M.; Ricci, G. 1958: Chlorothiazide. La Clinica Terapeutica 15(1): 71-78
Crawford, J.D. 1958: Chlorothiazide. Pediatrics 22(2): 236-237
Laroche, C.; Nenna, A. 1959: Chlorothiazide. La Presse Medicale 67(14): 549-551
Penna, M. 1959: Chlorothiazide. Revista Medica de Chile 87(2): 136-139
Huerta, J.A.; Pujol, A.; Palacios, M.J. 1960: Chlorothiazide. Anales de Farmacia Hospitalaria 3: 39-43
Dustan, H.P. 1960: Chlorothiazide in the treatment of hypertension. Seminar International 9(3): 15-21
Romeo Orbegozo, J.M. 1958: Chlorothiazide, a new oral diuretic. Revista Clinica Espanola 69(5): 312-317
Maertens, C.; Wei, L.; Tytgat, J.; Droogmans, G.; Nilius, B. 2000: Chlorotoxin does not inhibit volume-regulated, calcium-activated and cyclic AMP-activated chloride channels. British Journal of Pharmacology 129(4): 791-801
Yuan, Z.; Zhang, B.; Zhuang, J.; Yang, X.; Yu, J.; Xu, Q.; Azam, N.; Ur Rahman, K.; Feng, B. 2020: Chlorotoxin fusion protein regulates miR-374a and TNFAIP8 expression and inhibits glioma cell proliferation and promotes apoptosis. Cytotechnology 72(5): 685-694
Li, M.; Shao, X.; Wu, C.; Lu, D.; Liu, K.; Wang, W.; Liu, J.; Li, H.; Su, W.; Fang, L. 2020: Chlorotoxin-derived bicyclic peptides for targeted imaging of glioblastomas. Chemical Communications 56(66): 9537-9540
Wang, N.; Jia, Y.; Qin, H.; Jiang, Z.-X.; Yang, Z. 2020: Chlorotrifluoromethylthiolation of Sulfur Ylides for the Formation of Tetrasubstituted Trifluoromethylthiolated Alkenes. Organic Letters 22(18): 7378-7382
Tsai, S.-E.; Li, S.-M.; Tseng, C.-C.; Chung, C.-Y.; Zeng, Y.-H.; Chieh Lin, C.; Fuh, M.-T.; Yang, L.-C.; Yang, Y.-C.; Wong, F.-F. 2020: Chlorotrimethylsilane promoted one-flask heterocyclic synthesis of 1,2,4-triazoles from nitrilimines: Modeling studies and bioactivity evaluation of LH-21 and Rimonabant analogues. Bioorganic Chemistry 104: 104299
Göbel, M.; Tchitchanov, B.H.; Murray, J.S.; Politzer, P.; Klapötke, T.M. 2009: Chlorotrinitromethane and its exceptionally short carbon-chlorine bond. Nature Chemistry 1(3): 229-235
Speciale, I.; Laugieri, M.E.; Noel, E.; Lin, S.; Lowary, T.L.; Molinaro, A.; Duncan, G.A.; Agarkova, I.V.; Garozzo, D.; Tonetti, M.G.; Van Etten, J.L.; De Castro, C. 2020: Chlorovirus PBCV-1 protein A064R has three of the transferase activities necessary to synthesize its capsid protein N-linked glycans. Proceedings of the National Academy of Sciences of the United States of America 117(46): 28735-28742
Silva, V.L.; Saxena, J.; Nicolini, F.; Hoare, J.I.; Metcalf, S.; Martin, S.A.; Lockley, M. 2021: Chloroxine overrides DNA damage tolerance to restore platinum sensitivity in high-grade serous ovarian cancer. Cell Death and Disease 12(4): 395
Lear, J.C.; Maillard, J-Y.; Dettmar, P.W.; Goddard, P.A.; Russell, A.D. 2002: Chloroxylenol- and triclosan-tolerant bacteria from industrial sources. Journal of Industrial Microbiology and Biotechnology 29(5): 238-242
Spinner, J.R. 1949: Chlorphenol and the Walkhoff preparations in the light of pharmacological and toxicological protein research. Blatter für Zahnheilkunde. Bulletin Dentaire 9(12): 163; Passim
Spinner, J.R. 1949: Chlorphenol and the Walkhoff preparations in the light of pharmacological and toxicological protein research. Blatter für Zahnheilkunde. Bulletin Dentaire 10(5): 72 Passim
Spinner, J.R. 1949: Chlorphenol and the Walkhoff preparations in the light of pharmacological and toxicological protein research. Blatter für Zahnheilkunde. Bulletin Dentaire 10(3): 35; Passim
Spinner, J.R. 1949: Chlorphenol and the Walkhoff preparations in the light of pharmacological and toxicological protein research. Blatter für Zahnheilkunde. Bulletin Dentaire 10(4): 56; Passim
Andermann, K.; Lindsay, J.S. 1955: Chlorpromazine. Medical Journal of Australia 42(2 Part 3): 80-82
Nance, M.R. 1956: Chlorpromazine. American Journal of Nursing 56(5): 609-612
Riesenman, F.R. 1956: Chlorpromazine. Medical Annals of the District of Columbia 25(5): 258-260
Hunter, A.R. 1956: Chlorpromazine. Medicine Illustrated 10(4): 217-221
Skałbania, J.; Pałasz, A.; Błaszczyk, I.; Suszka-Świtek, A.; Krzystanek, M.; Tulcanaz, K.P.; Worthington, J.J.; Mordecka-Chamera, K. 2021: Chlorpromazine affects the numbers of Sox-2, Musashi1 and DCX-expressing cells in the rat brain subventricular zone. Pharmacological Reports: Pr 73(4): 1164-1169
Donnet, V.; Zwirn, P.; Ardisson, J.L. 1954: Chlorpromazine and adreno-creator centers. Comptes Rendus des Seances de la Societe de Biologie et de ses Filiales 148: 2033-2035
Begoin, J.; Schweich, M.; Sivadon, P. 1956: Chlorpromazine and ergotherapy activities. L'Encephale 45(4): 449-455
Popovic, V. 1954: Chlorpromazine and experimental poikilothermia. Comptes Rendus des Seances de la Societe de Biologie et de ses Filiales 148(9-10): 845-846
Cier, J.F.; Tanche, M. 1956: Chlorpromazine and hypothermia in experimental traumatic shock. Lyon Chirurgical 51(4): 435-447
Jiang, Q.; Wills, Mélissa.; Geng, X.; Ding, Y. 2021: Chlorpromazine and promethazine reduces Brain injury through RIP1-RIP3 regulated activation of NLRP3 inflammasome following ischemic stroke. Neurological Research 2021: 1-9
Deshaies, G.; Richardeau, N.; Dechosal, F. 1957: Chlorpromazine and reserpine in psychiatry. Annales Medico-Psychologiques 115(3): 417-476
Benda, P.; David, M.; Deligne, P. 1956: Chlorpromazine and state of epilepticus. L'Encephale 45(4): 730-735
Malmejac, J.; Plane, P. 1955: Chlorpromazine and superior nervous activity. Comptes Rendus des Seances de la Societe de Biologie et de ses Filiales 149(7-8): 677-679
Muric, N.N.; Arsenijevic, N.N.; Borovcanin, M.M. 2020: Chlorpromazine as a Potential Antipsychotic Choice in COVID-19 Treatment. Frontiers in Psychiatry 11: 612347
Rai, S.; Tanaka, H.; Suzuki, M.; Espinoza, J.Luis.; Kumode, T.; Tanimura, A.; Yokota, T.; Oritani, K.; Watanabe, T.; Kanakura, Y.; Matsumura, I. 2020: Chlorpromazine eliminates acute myeloid leukemia cells by perturbing subcellular localization of FLT3-ITD and KIT-D816V. Nature Communications 11(1): 4147
Liang, Z.; Zang, Y.Q.; Lu, Y.; Dong, Q.P.; Dong, K.T.; Zhou, H.F. 2021: Chlorpromazine hydrochloride plays a tumor suppressive role in diffuse large B lymphoma by promoting the expression of S1PR2. Zhonghua Lao Dong Wei Sheng Zhi Ye Bing Za Zhi 39(6): 418-423
Garcia, J.S.; Jeri, P.; Sal Y Rosas, F. 1956: Chlorpromazine in Peruvian Mentally Ill Patients. L'Encephale 45(4): 599-604
Feldthusen, U. 1956: Chlorpromazine in hyperemesis gravidarum. Ugeskrift for Laeger 118(16): 450
Furtado, D. 1956: Chlorpromazine in hypertensive depression. L'Encephale 45(4): 572-575
Sutter, J.M. 1956: Chlorpromazine in neuro-psychiatric therapy. Algerie Medicale 60(2): 199-208
Choi, S.Y.; Kim, Y.H.; Lee, Y.K.; Kim, K.T. 2001: Chlorpromazine inhibits store-operated calcium entry and subsequent noradrenaline secretion in PC12 cells. British Journal of Pharmacology 132(2): 411-418
Peak, M.J.; Pfaff, M.; Peraino, C. 1989: Chlorpromazine reduces UV-induced squamous cell carcinogenesis in hairless mice and enhances UV-induced DNA damage in cultured cells. British Journal of Cancer 60(2): 220-222
Baruk, H.; Launay, J.; Berges, J. 1955: Chlorpromazine therapy; experimental physiology; clinical physiology; therapeutic results and progress in psychiatric Therapy. Annales Medico-Psychologiques 113 1(5): 705-772
Thornley, B.; Rathbone, J.; Adams, C.E.; Awad, G. 2003: Chlorpromazine versus placebo for schizophrenia. Cochrane Database of Systematic Reviews 2: Cd000284
Espelin, D.E.; Done, A.K. 1968: Chlorpromazine vs. amphetamine. New England Journal of Medicine 279(6): 329
Jhou, A.-J.; Chang, H.-C.; Hung, C.-C.; Lin, H.-C.; Lee, Y.-C.; Liu, W.-T.; Han, K.-F.; Lai, Y.-W.; Lin, M.-Y.; Lee, C.-H. 2021: Chlorpromazine, an antipsychotic agent, induces G2/M phase arrest and apoptosis via regulation of the PI3K/AKT/mTOR-mediated autophagy pathways in human oral cancer. Biochemical Pharmacology 184: 114403
Maqsood, A.; Akram, S.; Akram, F. 2020: Chlorpromazine-Induced Relapse of Tourette Syndrome in a Patient with Intellectual Disability, Attention Deficit Hyperactivity Disorder, and Schizophrenia. Cureus 12(9): E10732
Ananth, J. 1973: Chlorpromazine-induced SLE. Canadian Medical Association Journal 109(1): 17
Srinivasan, K.; Gopalakrishna, M. 2020: Chlorpromazine-induced lenticular opacity. Indian Journal of Pharmacology 52(4): 339-340
Uhlich, E.; Loeschke, K. 1973: Chlorpropamide in diabetes insipidus. Minerva Medica 64(31): 1702-1704
Frey, H. 1970: Chlorpropamide in diabetes insipidus. Tidsskrift for den Norske Laegeforening: Tidsskrift for Praktisk Medicin Ny Raekke 90(22): 2098
Ziviani, N. 1960: Chlorpropamide in the treatment of diabetes. Hospital 57: 777-782
Drury, M.I.; Keelan, D. 1962: Chlorpropamide in the treatment of diabetes mellitus. Journal of the Irish Medical Association 51: 3-6
De Miguel, E. 1962: Chlorpropamide in the treatment of diabetes mellitus. Medicina 30: 403-410
Liberti, R.; Migliore, A. 1961: Chlorpropamide in the treatment of diabetes mellitus. Minerva Medica 52: 4029-4036
Polosa, P. 1962: Chlorpropamide in the treatment of diabetes mellitus. La Riforma Medica 76: 124-129
Mayer, G.A. 1991: Chlorpropamide or chlorpromazine?. Cmaj: Canadian Medical Association Journal 144(2): 119
Toft, H. 1969: Chlorpropamide therapy of diabetes insipidus. Ugeskrift for Laeger 131(10): 423-425
Trunchenkova, E.S.; Bryzgalina, S.M.; Margatskaia, E.V. 1974: Chlorpropamide treatment of diabetes insipidus. Problemy Endokrinologii 20(2): 18-21
Katzenelson, D.; Sack, J. 1971: Chlorpropamide treatment of diabetes insipidus. Harefuah 80(11): 601-603
Miller, D.R.; McClain, E.S.; Dodds, J.N.; Balinski, A.; May, J.C.; McLean, J.A.; Cliffel, D.E. 2021: Chlorpyrifos Disrupts Acetylcholine Metabolism Across Model Blood-Brain Barrier. Frontiers in Bioengineering and Biotechnology 9: 622175
Sawicki, K.; Czajka, M.; Matysiak-Kucharek, M.; Kurzepa, J.; Wojtyła-Buciora, P.; Zygo, K.; Kruszewski, M.; Kapka-Skrzypczak, L. 2021: Chlorpyrifos alters expression of enzymes involved in vitamin D3 synthesis in skin cells. Pesticide Biochemistry and Physiology 174: 104812
Juntarawijit, Y.; Chaichanawirote, U.; Rakmeesri, P.; Chairattanasakda, P.; Pumyim, V.; Juntarawijit, C. 2020: Chlorpyrifos and other pesticide exposure and suspected developmental delay in children aged under 5 years: a case-control study in Phitsanulok, Thailand. F1000research 9: 1501
Quadri-Adrogué, A.; Seco Pon, J.P.; García, G.án.O.; Castano, M.V.; Copello, S.; Favero, M.; Beatriz Miglioranza, K.S. 2021: Chlorpyrifos and persistent organic pollutants in feathers of the near threatened Olrog's Gull in southeastern Buenos Aires Province, Argentina. Environmental Pollution 272: 115918
Silva, M.H. 2021: Chlorpyrifos and Δ9 Tetrahydrocannabinol exposure and effects on parameters associated with the endocannabinoid system and risk factors for obesity. Current Research in Toxicology 2: 296-308
Chen, J.; Shao, B.; Wang, J.; Shen, Z.; Liu, H.; Li, S. 2021: Chlorpyrifos caused necroptosis via MAPK/NF-κB/TNF-α pathway in common carp (Cyprinus carpio L.) gills. Comparative Biochemistry and Physiology. Toxicology and Pharmacology: Cbp 249: 109126
Gheibi, P.; Eftekhari, Z.; Doroud, D.; Parivar, K. 2020: Chlorpyrifos effects on integrin alpha v and beta 3 in implantation window phase. Environmental Science and Pollution Research International 27(23): 29530-29538
Alexander, B.H.; Burns, C.J.; Bartels, M.J.; Acquavella, J.F.; Mandel, J.S.; Gustin, C.; Baker, B.A. 2006: Chlorpyrifos exposure in farm families: results from the farm family exposure study. Journal of Exposure Science and Environmental Epidemiology 16(5): 447-456
Nandhini, A.R.; Harshiny, M.; Gummadi, S.N. 2021: Chlorpyrifos in environment and food: a critical review of detection methods and degradation pathways. Environmental Science. Processes and Impacts 23(9): 1255-1277
Moyano, P.; García, J.é M.; García, J.; Pelayo, A.; Muñoz-Calero, P.; Frejo, M.ía.T.; Anadon, M.J.; Naval, M.V.; Flores, A.; Mirat, V.A.; Del Pino, J. 2021: Chlorpyrifos induces cell proliferation in MCF-7 and MDA-MB-231 cells, through cholinergic and Wnt/β-catenin signaling disruption, AChE-R upregulation and oxidative stress generation after single and repeated treatment. Food and Chemical Toxicology: An International Journal Published for the British Industrial Biological Research Association 152: 112241
Wang, L.; Wang, L.; Shi, X.; Xu, S. 2020: Chlorpyrifos induces the apoptosis and necroptosis of L8824 cells through the ROS/PTEN/PI3K/AKT axis. Journal of Hazardous Materials 398: 122905
Yamada, S.; Kubo, Y.; Yamazaki, D.; Sekino, Y.; Kanda, Y. 2017: Chlorpyrifos inhibits neural induction via Mfn1-mediated mitochondrial dysfunction in human induced pluripotent stem cells. Scientific Reports 7: 40925
Zhang, X.; Cui, W.; Wang, K.; Chen, R.; Chen, M.; Lan, K.; Wei, Y.; Pan, C.; Lan, X. 2020: Chlorpyrifos inhibits sperm maturation and induces a decrease in mouse male fertility. Environmental Research 188: 109785
Weis, G.C.C.; Assmann, C.E.; Mostardeiro, V.B.; Alves, A.d.O.; da Rosa, J.és.R.; Pillat, M.M.; de Andrade, C.M.; Schetinger, M.R.C.; Morsch, V.M.M.; da Cruz, I.B.M.ân.; Costabeber, I.H. 2021: Chlorpyrifos pesticide promotes oxidative stress and increases inflammatory states in BV-2 microglial cells: a role in neuroinflammation. Chemosphere 278: 130417
Tasca, A.L.; Clematis, D.; Panizza, M.; Vitolo, S.; Puccini, M. 2020: Chlorpyrifos removal: Nb/boron-doped diamond anode coupled with solid polymer electrolyte and ultrasound irradiation. Journal of Environmental Health Science and Engineering 18(2): 1391-1399
Lasagna, M.; Hielpos, M.S.; Ventura, C.; Mardirosian, M.N.; Martín, G.; Miret, N.; Randi, A.; Núñez, M.; Cocca, C. 2020: Chlorpyrifos subthreshold exposure induces epithelial-mesenchymal transition in breast cancer cells. Ecotoxicology and Environmental Safety 205: 111312
Gu, J.; Xu, S.; Liu, Y.; Chen, X. 2020: Chlorpyrifos-induced toxicity has no gender selectivity in the early fetal brain. Journal of Environmental Science and Health. Part. B Pesticides Food Contaminants and Agricultural Wastes 55(9): 803-812
Wang, L.; Deng, K.; Gong, L.; Zhou, L.; Sayed, S.; Li, H.; Sun, Q.; Su, Z.; Wang, Z.; Liu, S.; Zhu, H.; Song, J.; Lu, D. 2020: Chlorquinaldol targets the β-catenin and T-cell factor 4 complex and exerts anti-colorectal cancer activity. Pharmacological Research 159: 104955
Ma, X.; Yang, Z.; Xu, T.; Qian, M.; Jiang, X.; Zhan, X.; Han, X. 2021: Chlortetracycline alters microbiota of gut or faeces in pigs and leads to accumulation and migration of antibiotic resistance genes. Science of the Total Environment 796: 148976
Rosen, H.; Einheber, A.; Brown, N.D.; Wren, R.E. 1967: Chlortetracycline and mouse intestinal wall. Nature 214(5089): 671-674
Zhao, N.; Liu, K.; Yan, B.; Zhu, L.; Zhao, C.; Gao, J.; Ruan, J.; Zhang, W.; Qiu, R. 2021: Chlortetracycline hydrochloride removal by different biochar/Fe composites: a comparative study. Journal of Hazardous Materials 403: 123889
Messerli, F.H.; Roush, G.C.; Oparil, S. 2020: Chlorthalidone and Hydrochlorothiazide for Treatment of Patients with Hypertension. JAMA Internal Medicine 180(8): 1133
Moran, A.E.; Whelton, P.K.; Frieden, T.R. 2020: Chlorthalidone and Hydrochlorothiazide for Treatment of Patients with Hypertension. JAMA Internal Medicine 180(8): 1132-1133
Mancilla-Simbro, C.; López, A.; Martinez-Morales, E.; Soto-Perez-de-Celis, E.; Millan-PerezPeña, L.; Tsushima, R.; Salinas-Stefanon, E.M. 2008: Chlorthalidone inhibits the KvLQT1 potassium current in guinea-pig ventricular myocytes and oocytes from Xenopus laevis. British Journal of Pharmacology 153(3): 448-458
Coe, F.L.; Parks, J.H.; Bushinsky, D.A.; Langman, C.B.; Favus, M.J. 1988: Chlorthalidone promotes mineral retention in patients with idiopathic hypercalciuria. Kidney International 33(6): 1140-1146
Bai, Y.; Ma, X. 2020: Chlorzoxazone exhibits neuroprotection against Alzheimer's disease by attenuating neuroinflammation and neurodegeneration in vitro and in vivo. International Immunopharmacology 88: 106790
Deng, L.; Li, H.; Su, X.; Zhang, Y.; Xu, H.; Fan, L.; Fan, J.; Han, Q.; Bai, X.; Zhao, R.Chunhua. 2020: Chlorzoxazone, a small molecule drug, augments immunosuppressive capacity of mesenchymal stem cells via modulation of FOXO3 phosphorylation. Cell Death and Disease 11(3): 158
Khalifa, M.; Few, L.L.; See Too, W.C. 2020: ChoK-ing the Pathogenic Bacteria: Potential of Human Choline Kinase Inhibitors as Antimicrobial Agents. Biomed Research International 2020: 1823485
Göhde, R.; Naumann, B.; Laundon, D.; Imig, C.; McDonald, K.; Cooper, B.H.; Varoqueaux, F.éd.ér.; Fasshauer, D.; Burkhardt, P. 2021: Choanoflagellates and the ancestry of neurosecretory vesicles. Philosophical Transactions of the Royal Society of London. Series B Biological Sciences 376(1821): 20190759
Golomb, B.A.; Berg, B.K. 2021: Chocolate Consumption and Sex-Interest. Cureus 13(2): E13310
Southgate 2000: Chocolate and cocoa: health and nutrition. European Journal of Clinical Nutrition 54(4): 364-365
Meneses Hoyos, J. 1949: Chocolate and heart patients. Revista de Medicina y Ciencias Afines 7(78): 391-393
Devos, N.; Reyman, D.; Sanchez-Cortés, S. 2021: Chocolate composition and its crystallization process: a multidisciplinary analysis. Food Chemistry 342: 128301
Loffredo, L.; Ben, M.D.; Bartimoccia, S.; Castellani, V.; Mancinella, M.; Ciacci, P.; Orlando, F.; Paraninfi, A.; Angelico, F.; Ferro, D.; Cammisotto, V.; Carnevale, R. 2021: Chocolate enriched by extra virgin olive oil improves endothelial function and oxidative stress in patients with diabetes. Nutrition 90: 111270
Toker, O.Said.; Pirouzian, H.Rasouli.; Palabiyik, I.; Konar, N. 2021: Chocolate flow behavior: Composition and process effects. Critical Reviews in Food Science and Nutrition 2021: 1-15
Sonnenschein, K.; Tongers, J.ör. 2020: Chocolate for therapeutic use in PAD?. VASA. Zeitschrift für Gefasskrankheiten 49(4): 338-339
Huang-Brown, K.M.; Guhad, F.A. 2002: Chocolate, an effective means of oral drug delivery in rats. Lab Animal 31(10): 34-36
Strandberg, T.E.; Strandberg, A.Y.; Pitkälä, K.; Salomaa, V.V.; Tilvis, R.S.; Miettinen, T.A. 2008: Chocolate, well-being and health among elderly men. European Journal of Clinical Nutrition 62(2): 247-253
Karyappa, R.; Hashimoto, M. 2019: Chocolate-based Ink Three-dimensional Printing (Ci3DP). Scientific Reports 9(1): 14178
van der Veldt, A.A.M.; Meijerink, M.R.; van den Eertwegh, A.J.M.; Haanen, J.B.A.G.; Boven, E. 2010: Choi response criteria for early prediction of clinical outcome in patients with metastatic renal cell cancer treated with sunitinib. British Journal of Cancer 102(5): 803-809
Bruch, E.; Swait, J. 2019: Choice Set Formation in Residential Mobility and Its Implications for Segregation Dynamics. Demography 56(5): 1665-1692
Gu, S.; Shi, L.; Shao, H.; Wang, X.; Hu, X.; Gu, Y.; Dong, H. 2020: Choice across 10 pharmacologic combination strategies for type 2 diabetes: a cost-effectiveness analysis. Bmc Medicine 18(1): 378
Hrincu, V.; McDonald, P.J.; Connolly, M.B.; Harrison, M.J.; Ibrahim, G.M.; Naftel, R.P.; Chiong, W.; Alam, A.; Ribary, U.; Illes, J. 2021: Choice and Trade-offs: Parent Decision Making for Neurotechnologies for Pediatric Drug-Resistant Epilepsy. Journal of Child Neurology 36(11): 943-949
Simmons, D.; McKenzie, A.; Eaton, S.; Cox, N.; Khan, M.A.; Shaw, J.; Zimmet, P. 2005: Choice and availability of takeaway and restaurant food is not related to the prevalence of adult obesity in rural communities in Australia. International Journal of Obesity 29(6): 703-710
Shortland, N.; Alison, L.; Thompson, L.; Barrett-Pink, C.; Swan, L. 2020: Choice and consequence: a naturalistic analysis of least-worst decision-making in critical incidents. Memory and Cognition 48(8): 1334-1345
Vailati, D.; Montrucchio, G.; Cerotto, V.; Capozzoli, G.; Gori, F.; Petrini, F.; Brazzi, L. 2022: Choice and management of vascular access in the context of COVID-19 outbreak in Italy: Recommendations from clinical practice. Journal of Vascular Access 23(1): 18-23
Ghoniem, A.; van Dillen, L.F.; Hofmann, W. 2020: Choice architecture meets motivation science: how stimulus availability interacts with internal factors in shaping the desire for food. Appetite 155: 104815
Kokkoris, M.D. 2020: Choice as a Meaning-Making Device for Maximizers: Evidence from Reactance to Restrictions of Choice Freedom During Lockdown. Frontiers in Psychology 11: 571462
Bradshaw, C.M. 2020: Choice between different concentrations of sucrose in an adjusting-magnitude schedule: Evidence for reinforcer-specific value maxima. Behavioural Processes 181: 104275
Marques, E.M.R.; Dennis, J.; Beswick, A.D.; Higgins, J.; Thom, H.; Welton, N.; Burston, A.; Hunt, L.; Whitehouse, M.R.; Blom, A.W. 2021: Choice between implants in knee replacement: protocol for a Bayesian network meta-analysis, analysis of joint registries and economic decision model to determine the effectiveness and cost-effectiveness of knee implants for NHS patients-The KNee Implant Prostheses Study (KNIPS). Bmj Open 11(1): E040205
Lang, Z.-P.; Bao, M.-W. 2020: Choice between video-assisted thoracic surgery and thoracotomy: importance of required operative time and blood transfusion. European Review for Medical and Pharmacological Sciences 24(19): 9844-9851
Song, N.; Gao, M.; Tian, J.; Gao, Y. 2020: Choice for prophylactic antibiotics: Cefazolin plus metronidazole or cefoxitin alone for endometrial cancer surgical staging. Journal of Obstetrics and Gynaecology Research 46(9): 1864-1870
López-Yépez, J.S.; Martin, J.; Hulme, O.; Kvitsiani, D. 2021: Choice history effects in mice and humans improve reward harvesting efficiency. Plos Computational Biology 17(10): E1009452
Darwish, N.; Shao, J.; Schreier, L.L.; Proszkowiec-Weglarz, M. 2021: Choice of 16S ribosomal RNA primers affects the microbiome analysis in chicken ceca. Scientific Reports 11(1): 11848
January, S.E.; Progar, K.; Nesselhauf, N.M.; Hagopian, J.C.; Malone, A.F. 2020: Choice of Acid Suppressant Therapy and Long-Term Graft Outcomes After Kidney Transplantation. PharmacoTherapy 40(11): 1082-1088
Martinengo, L.; Lo, N.Y.W.; Goh, W.I.W.T.; Tudor Car, L. 2021: Choice of Behavioral Change Techniques in Health Care Conversational Agents: Protocol for a Scoping Review. Jmir Research Protocols 10(7): E30166
Van Syoc, E.; Carrillo Gaeta, N.ál.; Ganda, E. 2021: Choice of Commercial DNA Extraction Method Does not Affect 16S Sequencing Outcomes in Cloacal Swabs. Animals: An Open Access Journal from Mdpi 11(5)
Raman, L.; Bartlett, R.H.; Paden, M.L. 2020: Choice of ECMO as a Therapy in COVID-19?. Asaio Journal 66(8): E112
Min, J.-S.; Seo, K.W.; Jeong, S.-H. 2021: Choice of LECS Procedure for Benign and Malignant Gastric Tumors. Journal of Gastric Cancer 21(2): 111-121
Lou, P.-H.; Lucchinetti, E.; Wawrzyniak, P.; Morsy, Y.; Wawrzyniak, M.; Scharl, M.; Krämer, S.D.; Rogler, G.; Hersberger, M.; Zaugg, M. 2021: Choice of Lipid Emulsion Determines Inflammation of the Gut-Liver Axis, Incretin Profile, and Insulin Signaling in a Murine Model of Total Parenteral Nutrition. Molecular Nutrition and Food Research 65(5): E2000412
Kapoor, G.; Jain, S. 2020: Choice of Local Therapy in Children with Ewing Sarcoma. Indian Pediatrics 57(6): 503-504
Wang, J.; Wang, S.; Ye, T.; Li, F.; Gao, X.; Wang, Y.; Ye, P.; Qing, S.; Wang, C.; Yue, H.; Wu, J.; Wei, W.; Ma, G. 2020: Choice of Nanovaccine Delivery Mode Has Profound Impacts on the Intralymph Node Spatiotemporal Distribution and Immunotherapy Efficacy. Advanced Science 7(19): 2001108
Neef, Rüdiger.; Gruneberg, U.; Kopajtich, R.; Li, X.; Nigg, E.A.; Sillje, H.; Barr, F.A. 2007: Choice of Plk1 docking partners during mitosis and cytokinesis is controlled by the activation state of Cdk1. Nature Cell Biology 9(4): 436-444
Torvik, P.-Øy.; van den Tillaar, R.; Sandbakk, Øy. 2021: Choice of Pole and Ski Lengths Among Elite Cross-Country Skiers: the Influence of Sex and Performance Level. Frontiers in Sports and Active Living 3: 654864
Byrne, R.A.; Colleran, R.ói.ín. 2021: Choice of Primary Endpoint for Trials Comparing Balloon Angioplasty and Stenting. JACC. Cardiovascular Interventions 14(6): 709
Redkar, R.; Raj, V. 2020: Choice of Prophylactic Antibiotic Post Kasai Portoenterostomy. Journal of Indian Association of Pediatric Surgeons 25(3): 188
Lakshminarayana, G.; Venkitachalam, S.; Mani, C.S. 2021: Choice of Regional Flaps for Oral Cancer Defects: Relevance in Current Era. Journal of Maxillofacial and Oral Surgery 20(2): 246-251
Gerashchenko, M.V. 2021: Choice of Ribonucleases for Ribosome Profiling Experiments. Methods in Molecular Biology 2252: 239-248
Cohen, A.; Awawdi, K.; Dessau, N.; Khatib, M.; Ofir Gutler, M. 2021: Choice of Transport to Hospital in Nonurban Areas in Life-Threatening Situations: a Qualitative Research. Journal of Ambulatory Care Management 44(2): 155-165
Wang, B.; Zhou, Y.; Jia, M.; Yan, Z.; Chen, J.; Lu, X.; Wu, R.; Wen, J. 2021: Choice of Treatment for Patients with Non-small-cell Lung Cancer >5 cm Between Surgery Alone and Surgery Plus Adjuvant Radiotherapy. Frontiers in Surgery 8: 649802
Guillat, J.C. 1980: Choice of a contraceptive method. Soins; la Revue de Reference Infirmiere 25(8): 13-14
Huguenard, P.; Boue, A. 1949: Choice of a vein for the intraoperative injection of an infusion liquid or an anesthetic. La Presse Medicale 57(5): 81
Ruggeri, E.; Giannantonio, M.; Ostan, R.; Agostini, F.; Sasdelli, A.S.; Valeriani, L.; Pironi, L.; Pannuti, R. 2021: Choice of access route for artificial nutrition in cancer patients: 30 y of activity in a home palliative care setting. Nutrition 90: 111264
Tuggey, J.; Hosker, H.S.R.; Chetcuti, P.; Brownlee, K.; Taylor, J.; MacGowan, C. 2001: Choice of add-on therapy in asthma - another inhaler or a tablet/syrup? A survey of 1415 UK asthmatics. Primary Care Respiratory Journal: Journal of the General Practice Airways Group 10(2): 27-30
Semitko, S.P.; Mel'nichenko, I.S.; Karpeeva, M.I.; Bolotov, P.A.; Analeev, A.I.; Azarov, A.V.; Kruk, S.V.; Klimov, V.P.; Sorokin, V.V.; Ioseliani, D.G. 2020: Choice of an alternative access in failed endovascular intervention through the right radial artery. Angiologiia i Sosudistaia Khirurgiia 26(2): 76-83
Kerr, J.Allen.; Hesselmann, G.; Räling, R.; Wartenburger, I.; Sterzer, P. 2017: Choice of analysis pathway dramatically affects statistical outcomes in breaking continuous flash suppression. Scientific Reports 7(1): 3002
Dillon, J.B. 1947: Choice of anesthesia in orthopedic surgery. Journal of the American Medical Association 133(12): 829-831
Becker, W.A. 1962: Choice of animals and sensitivity of experiments. Nature 193: 1264-1266
Chai, C.K. 1961: Choice of animals for bio-assay. Nature 190: 893-894
Denney, J.M.; Waters, T.P.; Gorman, R.; Pollock, M.; Sciscione, A.C. 2008: Choice of antenatal testing significantly effects a patient's work obligations. Journal of Perinatology: Official Journal of the California Perinatal Association 28(2): 102-106
Saito, I. 2006: Choice of antihypertensive drugs. Nihon Rinsho. Japanese Journal of Clinical Medicine 64(Suppl 6): 509-511
Velasco Suarez, C. 1947: Choice of contrast medium for cholangiography. Boletines y Trabajos de la Academia Argentina de Cirugia. Academia Argentina de Cirugia 31(6): 210-218
Nakagawa, Y.; Tatebe, M.; Yamamoto, M.; Kurimoto, S.; Iwatsuki, K.; Hirata, H. 2021: Choice of control group treatments in hand osteoarthritis trials: a systematic review and meta-analysis. Seminars in Arthritis and Rheumatism 51(4): 775-785
Xu, H-Tai.; Pan, F.; Yang, G.; Gan, W-Biao. 2007: Choice of cranial window type for in vivo imaging affects dendritic spine turnover in the cortex. Nature Neuroscience 10(5): 549-551
Medina-Aguinaga, D.; Hoey, R.F.; Munoz, A.; Altamira-Camacho, M.; Quintanar, J.L.; Hubscher, C.H. 2021: Choice of cystometric technique impacts detrusor contractile dynamics in wistar rats. Physiological Reports 9(2): E14724
Mehrotra, R. 2011: Choice of dialysis modality. Kidney International 80(9): 909-911
Heaf, J.; Heiro, M.; Petersons, A.; Vernere, B.; Povlsen, J.V.; Sørensen, A.B.; Clyne, N.; Bumblyte, I.; Zilinskiene, A.; Randers, E.; Løkkegaard, N.; Ots-Rosenberg, M.; Kjellevold, S.; Kampmann, J.D.; Rogland, B.ör.; Lagreid, I.; Heimburger, O.; Lindholm, B. 2021: Choice of dialysis modality among patients initiating dialysis: results of the Peridialysis study. Clinical Kidney Journal 14(9): 2064-2074
Finderup, J.; Lomborg, K.; Jensen, J.D.; Stacey, D. 2020: Choice of dialysis modality: patients' experiences and quality of decision after shared decision-making. Bmc Nephrology 21(1): 330
Del Favero, A.; Bucaneve, G.; Furno, P. 2004: Choice of empirical therapy and prophylaxis. Hematology Journal: the Official Journal of the European Haematology Association 5 Suppl. 3: S53-S58
Kaiser, F.; Kubaczka, C.; Graf, M.; Langer, N.; Langkabel, J.; Arévalo, L.; Schorle, H. 2020: Choice of factors and medium impinge on success of ESC to TSC conversion. Placenta 90: 128-137
Kao, H-Kai.; Abdelrahman, M.; Chang, K-Ping.; Wu, C-Min.; Hung, S-Yu.; Shyu, V.Bong-Hang. 2015: Choice of flap affects fistula rate after salvage laryngopharyngectomy. Scientific Reports 5: 9180
Bao, T.S.; Xu, J.; Zhao, G. 2021: Choice of function-preserving gastrectomy. Zhonghua Wei Chang Wai Ke Za Zhi 24(5): 387-391
Woods, L.M.; Rachet, B.; Coleman, M.P. 2005: Choice of geographic unit influences socioeconomic inequalities in breast cancer survival. British Journal of Cancer 92(7): 1279-1282
Porembka, J.H.; Baydoun, S.; Mootz, A.R.; Xi, Y.; Dogan, B.E. 2020: Choice of imaging method in the work-up of non-calcified breast lesions identified on tomosynthesis screening. European Journal of Radiology 131: 109203
Mur, T.; Sambhu, K.M.; Mahajan, A.; Payabvash, S.; Fernandez, J.; Edwards, H.A. 2020: Choice of imaging modality for pre-treatment staging of head and neck cancer impacts TNM staging. American Journal of Otolaryngology 41(6): 102662
Dunn, J.P.; Huizinga, M.M.; See, R.; Irani, W.N. 2010: Choice of imaging modality in the assessment of coronary artery disease risk in extreme obesity. Obesity 18(1): 1-6
Chen, G.; Dong, B.; Shan, G.; Zhang, X.; Tang, H.; Li, Y.; Wang, Z.; Xu, W.; Xu, G.; Yan, G.; Zhang, F.; Hu, X.; Yang, J.; Xu, Y.; Chen, M.; Wang, J. 2019: Choice of immobilization of stereotactic body radiotherapy in lung tumor patient by BMI. Bmc Cancer 19(1): 583
Pellizzon, M. 2016: Choice of laboratory animal diet influences intestinal health. Lab Animal 45(6): 238-239
Meneses Hoyos, J. 1959: Choice of liver function tests. Medicina 39(812): 21-31
Pan, I.-W.; Yen, T.W.F.; Huo, J.; Chen, C.; Smith, B.D.; Shih, Y.-C.T. 2020: Choice of local therapy for young women with early-stage breast cancer who have young-aged children. Cancer 126(21): 4761-4769
Augustus, S.; Amca, A.Mithat.; Hudson, P.E.; Smith, N. 2020: Choice of low-pass filter influences practical interpretation of ball kicking motions: the effect of a time-frequency filter method. Sports Biomechanics 2020: 1-18
Kinlin, L.M.; Helmers, A.J.; Friedman, J.N.; Beck, C.E. 2020: Choice of maintenance intravenous fluids among paediatric residents in Canada. Paediatrics and Child Health 25(8): 518-524
Vest, J.R.; Kasthurirathne, S.N.; Ge, W.; Gutta, J.; Ben-Assuli, O.; Halverson, P.K. 2021: Choice of measurement approach for area-level social determinants of health and risk prediction model performance. Informatics for Health and Social Care 2021: 1-12
Rao, D. 2006: Choice of medicine and hierarchy of resort to different health alternatives among Asian Indian migrants in a metropolitan city in the USA. Ethnicity and Health 11(2): 153-167
Grijseels, D.M.; Shaw, K.; Barry, C.; Hall, C.N. 2021: Choice of method of place cell classification determines the population of cells identified. Plos Computational Biology 17(7): E1008835
Taj, U.; Schmidtke, K.A.; Vlaev, I.; Read, D. 2022: Choice of methods can determine which behavioral determinates are identified for targeting in future behavior change interventions: Increasing antibiotic adherence in Pakistan. Journal of Health Psychology 27(4): 1006-1013
Wynne, F.J.; Puschendorf, R.; Knight, M.E.; Price, S.J. 2020: Choice of molecular assay determines ranavirus detection probability and inferences about prevalence and occurrence. Diseases of Aquatic Organisms 141: 139-147
Gromova, O.A.; Torshin, I.Y.; Putilina, M.V.; Semenov, V.A.; Rudakov, K.V. 2020: Choice of neuroprotective therapy regimens in patients with chronic cerebral ischemia, taking into account the synergy of drug interactions. Zhurnal Nevrologii i Psikhiatrii Imeni S.S. Korsakova 120(8): 42-50
Thiery, M. 1969: Choice of oral contraceptives. Ippf Medical Bulletin 3(5): 3-4
Lou, Y.-L.; Quan, R.-F.; Li, W.; Han, L. 2020: Choice of osteotomy methods for old thoracolumbar osteoporotic fracture with kyphosis. Zhongguo Gu Shang 33(5): 459-464
Shainer, I.; Stemmer, M. 2021: Choice of pre-processing pipeline influences clustering quality of scRNA-seq datasets. Bmc Genomics 22(1): 661
Amoah, A.; Chiu, S.; Quinn, S.D. 2022: Choice of primary and secondary outcomes in randomised controlled trials evaluating treatment for uterine fibroids: a systematic review. Bjog: An International Journal of Obstetrics and Gynaecology 129(3): 345-355
Kristensen, T.ør.B.; Gjertsen, J.-E. 2020: Choice of prosthesis for hip fracture. Tidsskrift for den Norske Laegeforening: Tidsskrift for Praktisk Medicin Ny Raekke 140(4)
Voisin, H. 1952: Choice of remedy and its dilution. L' Homeopathie Francaise 40(10): 590-602; Concl
Mannucci, P.M.; Giangrande, P.L. 2000: Choice of replacement therapy for hemophilia: recombinant products only?. Hematology Journal: the Official Journal of the European Haematology Association 1(2): 72-76
Grainger, P. 2003: Choice of restorative material. New Zealand Dental Journal 99(2): 49; Author Reply 49
Früh, M.; Panje, C.M.; Reck, M.; Blackhall, F.; Califano, R.; Cappuzzo, F.; Besse, B.; Novello, S.; Garrido, P.; Felip, E.; O'Brien, M.; Paz Ares, L.; de Marinis, F.; Westeel, V.; De Ruysscher, D.; Putora, P.M. 2020: Choice of second-line systemic therapy in stage IV small cell lung cancer (SCLC) - a decision-making analysis amongst European lung cancer experts. Lung Cancer 146: 6-11
Guo, C.; Fordjour, F.K.; Tsai, S.J.; Morrell, J.C.; Gould, S.J. 2021: Choice of selectable marker affects recombinant protein expression in cells and exosomes. Journal of Biological Chemistry 297(1): 100838
Dodge, L.E.; Farland, L.V.; Correia, K.F.B.; Missmer, S.A.; Seidler, E.A.; Wilkinson, J.; Modest, A.M.; Hacker, M.R. 2020: Choice of statistical model in observational studies of ART. Human Reproduction 35(7): 1499-1504
Carr, E.A. 1974: Choice of subjects for in vivo studies in generic equivalency. Annals of Clinical Research 6(Suppl 11): Unknown
Gavaskar, A.; Parthasarathy, S.; Balamurugan, J.; Raj, R.V.; Anurag, R.; Gopinath, D. 2021: Choice of surgical approach influences the combined anteversion needed for a stable and impingement-free total hip arthroplasty. European Journal of Orthopaedic Surgery and Traumatology: Orthopedie Traumatologie 31(6): 1023-1028
McCORKLE, H.J.; Silvani, H. 1945: Choice of time to graft extensive substance losses from deep thermal burns. Anales de Cirugia 4: 290-295
Renker, M.; Kim, W.-K. 2020: Choice of transcatheter heart valve: should we select the device according to each patient's characteristics or should it be "one valve fits all"?. Annals of Translational Medicine 8(15): 961
Cui, Y.-P.; Liu, Z.-J. 2020: Choice of treatment and hot issue on supracondylar fracture of humerus in childern. Zhongguo Gu Shang 33(10): 891-894
Song, Q.-F.; Cui, G.-Q. 2021: Choice of treatment for anterior instability of shoulder joint. Zhongguo Gu Shang 34(6): 489-492
Lamberg, B.A. 1983: Choice of treatment for thyrotoxicosis. Annales Chirurgiae et Gynaecologiae 72(3): 96-100
Beraud, M. 1949: Choice of tube for ringworm radiotherapy; French achievements and perspectives. JournaldeRadiologied'ElectrologieandArchivesd'ElectriciteMedicale 30(1-2): 70
Reutskaja, E.; Lindner, A.; Nagel, R.; Andersen, R.A.; Camerer, C.F. 2018: Choice overload reduces neural signatures of choice set value in dorsal striatum and anterior cingulate cortex. Nature Human Behaviour 2(12): 925-935
Barasz, K.; Kim, T. 2022: Choice perception: Making sense (and nonsense) of others' decisions. Current Opinion in Psychology 43: 176-181
Agola, J.G. 1946: Choice procedures to be followed to cure nutritional disorders in children. Sugestiones 11(129): 1-32
Chintapalli, R.; Romero-Ortuno, R. 2021: Choice reaction time and subsequent mobility decline: Prospective observational findings from the Irish Longitudinal Study on Ageing (TILDA). Eclinicalmedicine 31: 100676
Bertelson, P.; Tisseyre, F. 1966: Choice reaction time as a function of stimulus versus response relative frequency of occurrence. Nature 212(5066): 1069-1070
Caires, T.A.; Bruno, A.C.M.; Fernandes, L.F.R.M.; de Oliveira Andrade, A.; de Souza, L.A.P.S.; Luvizutto, G.J.é 2021: Choice reaction time can be influenced by intervention protocols after stroke: a systematic review. Journal of Bodywork and Movement Therapies 26: 207-213
Orellana, K.; Manthorpe, J.; Tinker, A. 2021: Choice, control and person-centredness in day centres for older people. Journal of Social Work 21(6): 1315-1338
Rushworth, M.F.S.; Behrens, T.E.J. 2008: Choice, uncertainty and value in prefrontal and cingulate cortex. Nature Neuroscience 11(4): 389-397
Frankot, M.; O'Hearn, C.; Vonder Haar, C. 2020: Choice-based assessments outperform traditional measures for chronic depressive-like behaviors in rats after brain injury. Behavioural Brain Research 395: 112879
Zheng, M.; Xu, J.; Keniston, L.; Wu, J.; Chang, S.; Yu, L. 2021: Choice-dependent cross-modal interaction in the medial prefrontal cortex of rats. Molecular Brain 14(1): 13
Liu, S.; Gu, Y.; DeAngelis, G.C.; Angelaki, D.E. 2013: Choice-related activity and correlated noise in subcortical vestibular neurons. Nature Neuroscience 16(1): 89-97
Maisson, D.J-N.; Cash-Padgett, T.V.; Wang, M.Z.; Hayden, B.Y.; Heilbronner, S.R.; Zimmermann, J. 2021: Choice-relevant information transformation along a ventrodorsal axis in the medial prefrontal cortex. Nature Communications 12(1): 4830
Harvey, C.D.; Coen, P.; Tank, D.W. 2012: Choice-specific sequences in parietal cortex during a virtual-navigation decision task. Nature 484(7392): 62-68
Rader, S. 2017: Choice: Don't compare shopping to foraging. Nature 543(7644): 179
Hamza, N.S.; Ghannoum, M.A.; Lazarus, H.M. 2004: Choices aplenty: antifungal prophylaxis in hematopoietic stem cell transplant recipients. Bone Marrow Transplantation 34(5): 377-389
Zakay, D.; Zakay, M.J.; Rosenfeld, R.M. 2021: Choices in deaf education and cochlear implantation: Suggesting a more inclusive approach. International Journal of Pediatric Otorhinolaryngology 140: 110419
Scialla, J.J. 2013: Choices in kidney transplantation in type 1 diabetes: are there skeletal benefits of the endocrine pancreas?. Kidney International 83(3): 356-358
Bartfai, T.; Insel, T.; Fishell, G.; Rothwell, N. 2008: Choices in neuroscience careers. Nature Reviews. Neuroscience 9(5): 401-405
Ignatavicius, P.; Oberkofler, C.E.; Chapman, W.C.; DeMatteo, R.P.; Clary, B.M.; D'Angelica, M.I.; Tanabe, K.K.; Hong, J.C.; Aloia, T.A.; Pawlik, T.M.; Hernandez-Alejandro, R.; Shah, S.A.; Vauthey, J.-N.; Torzilli, G.; Lang, H.; Line, P.ål.-D.; Soubrane, O.; Pinto-Marques, H.; Robles-Campos, R.; Boudjema, K.; Lodge, P.; Adam, R.é; Toso, C.; Serrablo, A.; Aldrighetti, L.; DeOliveira, M.L.; Dutkowski, P.; Petrowsky, H.; Linecker, M.; Reiner, C.äc.S.; Braun, J.; Alikhanov, R.; Barauskas, G.; Chan, A.C.Y.; Dong, J.; Kokudo, N.; Yamamoto, M.; Kang, K.J.; Fong, Y.; Rela, M.; De Aretxabala, X.; De Santibañes, E.; Mercado, M.Án.; Andriani, O.C.; Torres, O.J.M.; Pinna, A.D.; Clavien, P.-A. 2020: Choices of Therapeutic Strategies for Colorectal Liver Metastases Among Expert Liver Surgeons: a Throw of the Dice?. Annals of Surgery 272(5): 715-722
Chew, Y.-L.; Khor, M.-A.; Lim, Y.-Y. 2021: Choices of chromatographic methods as stability indicating assays for pharmaceutical products: a review. Heliyon 7(3): E06553
Cai, Z.; Wang, W.; Pan, B.H.; Xie, C.; Yang, P.; Wang, X.W.; Ouyang, Y.; Liu, G.Q.; Wu, K.M.; Le, T.M.; Huang, J.H. 2021: Choices of emergency treatment and surgical method for ruptured abdominal aortic aneurysms. Zhonghua Yi Xue Za Zhi 101(29): 2288-2292
Chen, C. 2020: Choices of soft tissue repairs: the need for outcomes assessments. Journal of Hand Surgery European Volume 45(7): 767-768
Russo, N.; Kaplan-Kahn, E.A.; Wilson, J.; Criss, A.; Burack, J.A. 2021: Choices, challenges, and constraints: a pragmatic examination of the limits of mental age matching in empirical research. Development and Psychopathology 33(2): 727-738
Chun, J. 2004: Choices, choices, choices. Nature Neuroscience 7(4): 323-325
Ganzoni, C.; Arslani, K.; Pfister, O.; Freese, M.; Strobel, W.; Mueller, C.; Tobler, D. 2020: Choir singing improves respiratory muscle strength and quality of life in patients with structural heart disease - HeartChoir: a randomised clinical trial. Swiss Medical Weekly 150: W20346
Gaballa, S.; Hlaing, K.M.; Bos, N.; Junko, G.; Alcharif, A. 2020: Choked Vein: Unusual Etiology of Extensive Deep Vein Thrombosis. Cureus 12(5): E8292
Brindley, P.G. 2020: Choked: Life and Breath in the Age of Pollution. Anesthesia and Analgesia 130(3): E84
Ragg, M.D. 1998: Choking after inhaling a foreign body through a Ventolin puffer. Medical Journal of Australia 168(9): 472
Curran, M.A. 1998: Choking after inhaling a foreign body through a Ventolin puffer. Medical Journal of Australia 169(3): 176
Mackay, M.J. 1998: Choking after inhaling a foreign body through a Ventolin puffer. Medical Journal of Australia 169(3): 176
Paris, G.; Friedman, N.L.; Hogue, J.S. 2021: Choking and Cyanotic Episodes in a 3-month-old Male. Pediatrics in Review 42(Suppl 1): S103-S105
Lara Cubas, H. 1949: Choking of the newborn. Pediatria de Las Americas 7(1): 27-41
Gantes, A.R. 1948: Choking of the newborn. Pediatria de Las Americas 6(7): 382-393
Gantes, A.R. 1947: Choking of the newborn. Revista Chilena de Pediatria 18(10): 715-732
Russ, J.D.; Strong, R.A. 1948: Choking on the newborn. Boletin Medico del Hospital Infantil de Mexico 5(1): 27-35
Vollenweider, H. 1948: Cholagoga and choleretics; for the therapy of gallbladder and biliary tract diseases. Suddeutsche Apotheker-Zeitung 88(10): 262-265
Götz, H.G. 1971: Cholagogues. 54. Pharmazeutische Praxis 9: 193-204 Concl
Hummel, B. 1948: Cholangio duodenogastrostomy as a useful way out. Zentralblatt für Chirurgie 73(3): 260-264
Leroy, J.P.; Charles, J.F.; Diveres, B.; Bellet, M. 1980: Cholangio-carcinoma arising in Caroli's disease. La Semaine des Hopitaux: Organe Fonde Par l'Association d'Enseignement Medical des Hopitaux de Paris 56(5-6): 272-276
Blesa, I.; Pedroza, M.A.; Arenas, S.A. 1995: Cholangiocarcinoma. G.E.N 49(1): 90-100
Marcos-Alvarez, A.; Jenkins, R.L. 1996: Cholangiocarcinoma. Surgical Oncology Clinics of North America 5(2): 301-316
Ochoa Carrillo, F.J. 1997: Cholangiocarcinoma. Revista de Gastroenterologia de Mexico 62(3): 194-201
Torok, N.; Gores, G.J. 2001: Cholangiocarcinoma. Seminars in Gastrointestinal Disease 12(2): 125-132
Patel, T. 2006: Cholangiocarcinoma. Nature Clinical Practice. Gastroenterology and Hepatology 3(1): 33-42
Sarcognato, S.; Sacchi, D.; Fassan, M.; Fabris, L.; Cadamuro, M.; Zanus, G.; Cataldo, I.; Capelli, P.; Baciorri, F.; Cacciatore, M.; Guido, M. 2021: Cholangiocarcinoma. Pathologica 113(3): 158-169
Brindley, P.J.; Bachini, M.; Ilyas, S.I.; Khan, S.A.; Loukas, A.; Sirica, A.E.; Teh, B.Tean.; Wongkham, S.; Gores, G.J. 2021: Cholangiocarcinoma. Nature Reviews. Disease Primers 7(1): 65
Rizvi, S.; Khan, S.A.; Hallemeier, C.L.; Kelley, R.K.; Gores, G.J. 2018: Cholangiocarcinoma - evolving concepts and therapeutic strategies. Nature Reviews. Clinical Oncology 15(2): 95-111
Banales, J.M.; Marin, J.J.G.; Lamarca, A.; Rodrigues, P.M.; Khan, S.A.; Roberts, L.R.; Cardinale, V.; Carpino, G.; Andersen, J.B.; Braconi, C.; Calvisi, D.F.; Perugorria, M.J.; Fabris, L.; Boulter, L.; Macias, R.I.R.; Gaudio, E.; Alvaro, D.; Gradilone, S.A.; Strazzabosco, M.; Marzioni, M.; Coulouarn, Cédric.; Fouassier, L.; Raggi, C.; Invernizzi, P.; Mertens, J.C.; Moncsek, A.; Rizvi, S.; Heimbach, J.; Koerkamp, B.Groot.; Bruix, J.; Forner, A.; Bridgewater, J.; Valle, J.W.; Gores, G.J. 2020: Cholangiocarcinoma 2020: the next horizon in mechanisms and management. Nature Reviews. Gastroenterology and Hepatology 17(9): 557-588
Yang, C.M.; Shu, J. 2021: Cholangiocarcinoma Evaluation via Imaging and Artificial Intelligence. Oncology 99(2): 72-83
Hanna, J.A.; Mathkour, M.; Gouveia, E.E.; Glynn, R.; Divagaran, A.; Lane, J.B.; Bui, C.J.; Sulaiman, O.A.; Smith, R.D. 2020: Cholangiocarcinoma Metastasis to the Spine and Cranium. Ochsner Journal 20(2): 197-203
Chagani, S.; Kwong, L.N. 2021: Cholangiocarcinoma Risk Factors Open the Floodgates for Gut Microbes and Immunosuppressive Myeloid Cells. Cancer Discovery 11(5): 1014-1015
Kumagai, S. 2015: Cholangiocarcinoma among printing workers. Nihon Rinsho. Japanese Journal of Clinical Medicine 73(Suppl 3): 827-831
Safarpour, A.R.; Askari, H.; Ejtehadi, F.; Azarnezhad, A.; Raeis-Abdollahi, E.; Tajbakhsh, A.; Abazari, M.F.; Tarkesh, F.; Shamsaeefar, A.; Niknam, R.; Sivandzadeh, G.R.; Lankarani, K.B.; Ejtehadi, F. 2021: Cholangiocarcinoma and liver transplantation: what we know so far?. World Journal of Gastrointestinal Pathophysiology 12(5): 84-105
Rosen, C.B.; Nagorney, D.M. 1991: Cholangiocarcinoma complicating primary sclerosing cholangitis. Seminars in Liver Disease 11(1): 26-30
Shiosaki, J.R.; Sempokuya, T.; Hernandez, B.Y.; Wong, L.L. 2021: Cholangiocarcinoma in Pacific Islanders Compared to Asians. Hawai'i Journal of Health and Social Welfare 80(4): 80-87
Selvadurai, S.; Mann, K.; Mithra, S.; Bridgewater, J.; Malik, H.; Khan, S.A. 2021: Cholangiocarcinoma miscoding in hepatobiliary centres. European Journal of Surgical Oncology: the Journal of the European Society of Surgical Oncology and the British Association of Surgical Oncology 47(3 Part B): 635-639
Valery, M.; Facchinetti, F.; Malka, D.; Ducreux, M.; Friboulet, L.; Hollebecque, A. 2021: Cholangiocarcinoma with STRN-ALK translocation treated with ALK inhibitors. Digestive and Liver Disease: Official Journal of the Italian Society of Gastroenterology and the Italian Association for the Study of the Liver 53(12): 1664-1665
Tsukahara, T.; Shimoyama, Y.; Ebata, T.; Yokoyama, Y.; Igami, T.; Sugawara, G.; Mizuno, T.; Yamaguchi, J.; Nakamura, S.; Nagino, M. 2016: Cholangiocarcinoma with intraductal tubular growth pattern versus intraductal papillary growth pattern. Modern Pathology: An Official Journal of the United States and Canadian Academy of Pathology Inc 29(3): 293-301
Goeppert, B. 2020: Cholangiocarcinoma-diagnosis, classification, and molecular alterations. Der Pathologe 41(5): 488-494
Buckholz, A.P.; Brown, R.S. 2020: Cholangiocarcinoma: Diagnosis and Management. Clinics in Liver Disease 24(3): 421-436
Ntanasis-Stathopoulos, I.; Tsilimigras, D.I.; Gavriatopoulou, M.; Schizas, D.; Pawlik, T.M. 2020: Cholangiocarcinoma: investigations into pathway-targeted therapies. Expert Review of Anticancer Therapy 20(9): 765-773
Aquina, C.T.; Pawlik, T.M.; Ejaz, A. 2020: Cholangiocarcinoma: three different entities based on location. Annals of Translational Medicine 8(12): 738
Shimazu, M. 2001: Cholangiocellular carcinoma (intrahepatic bile duct carcinoma). Nihon Rinsho. Japanese Journal of Clinical Medicine 59(Suppl 6): 396-400
Wickramaratne, N.; Li, R.; Tian, T.; Khoraki, J.; Kang, H.S.; Chmielewski, C.; Maitland, J.; Liebrecht, L.K.; Fyffe-Freil, R.; Lindell, S.L.; Mangino, M.J. 2021: Cholangiocyte Epithelial to Mesenchymal Transition (EMT) is a potential molecular mechanism driving ischemic cholangiopathy in liver transplantation. Plos one 16(7): E0246978
Velazquez, J.J.; Ebrahimkhani, M.R. 2021: Cholangiocyte organoids as a cell source for biliary repair. Transplant International: Official Journal of the European Society for Organ Transplantation 34(6): 999-1001
Chu, A.S.; Russo, P.A.; Wells, R.G. 2012: Cholangiocyte cilia are abnormal in syndromic and non-syndromic biliary atresia. Modern Pathology: An Official Journal of the United States and Canadian Academy of Pathology Inc 25(5): 751-757
Sampaziotis, F.; Muraro, D.; Tysoe, O.C.; Sawiak, S.; Beach, T.E.; Godfrey, E.M.; Upponi, S.S.; Brevini, T.; Wesley, B.T.; Garcia-Bernardo, J.; Mahbubani, K.; Canu, G.; Gieseck, R.; Berntsen, N.L.; Mulcahy, V.L.; Crick, K.; Fear, C.; Robinson, S.; Swift, L.; Gambardella, L.; Bargehr, J.; Ortmann, D.; Brown, S.E.; Osnato, A.; Murphy, M.P.; Corbett, G.; Gelson, W.T.H.; Mells, G.F.; Humphreys, P.; Davies, S.E.; Amin, I.; Gibbs, P.; Sinha, S.; Teichmann, S.A.; Butler, A.J.; See, T.C.; Melum, E.; Watson, C.J.E.; Saeb-Parsy, K.; Vallier, L. 2021: Cholangiocyte organoids can repair bile ducts after transplantation in the human liver. Science 371(6531): 839-846
Cazzagon, N.; Sarcognato, S.; Floreani, A.; Corrà, G.; De Martin, S.; Guzzardo, V.; Russo, F.P.; Guido, M. 2021: Cholangiocyte senescence in primary sclerosing cholangitis is associated with disease severity and prognosis. Jhep Reports: Innovation in Hepatology 3(3): 100286
Raven, A.; Lu, W-Yu.; Man, T.Yung.; Ferreira-Gonzalez, S.; O'Duibhir, E.; Dwyer, B.J.; Thomson, J.P.; Meehan, R.R.; Bogorad, R.; Koteliansky, V.; Kotelevtsev, Y.; Ffrench-Constant, C.; Boulter, L.; Forbes, S.J. 2017: Cholangiocytes act as facultative liver stem cells during impaired hepatocyte regeneration. Nature 547(7663): 350-354
Sampaziotis, F.; de Brito, M.Cardoso.; Madrigal, P.; Bertero, A.; Saeb-Parsy, K.; Soares, F.A.C.; Schrumpf, E.; Melum, E.; Karlsen, T.H.; Bradley, J.Andrew.; Gelson, W.Th.; Davies, S.; Baker, A.; Kaser, A.; Alexander, G.J.; Hannan, N.R.F.; Vallier, L. 2015: Cholangiocytes derived from human induced pluripotent stem cells for disease modeling and drug validation. Nature Biotechnology 33(8): 845-852
Pohle, T.; Foerster, E.; Schmid, K.W.; Domschke, W. 1994: Cholangiofibromatosis associated with portal hypertension. American Journal of Gastroenterology 89(11): 2081-2082
Yuniartha, R.; Yamaza, T.; Sonoda, S.; Yoshimaru, K.; Matsuura, T.; Yamaza, H.; Oda, Y.; Ohga, S.; Taguchi, T. 2021: Cholangiogenic potential of human deciduous pulp stem cell-converted hepatocyte-like cells. Stem Cell Research and Therapy 12(1): 57
George, P. 1969: Cholangiography. Proceedings of the Royal Society of Medicine 62(2): 137-139
Monro, A. 1953: Cholangiography. Medicine Illustrated 7(7): 535-537
Sister V Lesmeister 1954: Cholangiography. X-Ray Technician 25(5): 346-348 Passim
Stechyshyn, A.J. 1954: Cholangiography. X-Ray Technician 26(3): 177-179 Passim
S Doria, O.d.B. 1954: Cholangiography. Revista Brasileira de Gastroenterologia 6(5): 575-610
Stein, G.N.; Finkelstein, A. 1955: Cholangiography. Medical Radiography and Photography 31(1): 4-22
Yarnold, A.W. 1955: Cholangiography. Radiography 21(249): 196-199
Bruce, J. 1955: Cholangiography. Transactions of the Medical Society of London 71: 19-29
Wulff, H. 1955: Cholangiography. Langenbecks Archiv für Klinische Chirurgie . Vereinigt Mit Deutsche Zeitschrift für Chirurgie 282: 879-880
Van Fletcher 1956: Cholangiography. Journal of the Tennessee State Medical Association. Tennessee State Medical Association 49(6): 191-195
Coombs, W.H.J. 1949: Cholangiography. Radiography 15(177): 212
Leger, L.; Zara, M.; Arvay 1952: Cholangiography and biliary drainage by trans-hepatic puncture. La Presse Medicale 60(42): 936-937
Leger, L. 1954: Cholangiography and biliary drainage by trans-parieto-hepatic puncture. Lyon Chirurgical 49(1): 99-103
Hernandez, N.A. 1952: Cholangiography and prostigmine test. Boletines y Trabajos de la Academia Argentina de Cirugia. Academia Argentina de Cirugia 36(7): 208-221
Reboul, J.; Mas, J.P.; Delorme, G.; Tessier, J.P. 1966: Cholangiography by extraperitoneal puncture of the liver. Annales de Radiologie 9(7): 627-634
Prioton, J.B. 1960: Cholangiography by extraperitoneal puncture of the liver. La Presse Medicale 68: 2308-2311
Morin, G.; Busson, A.; Blanchet, C. 1955: Cholangiography by mixed method. Journal de Radiologie d'Electrologie and Archives d'Electricite Medicale 36(7-8): 556-557
Morin, G.; Busson, A.; Blanchet, C. 1955: Cholangiography by mixed method. Archives des Maladies de l'Appareil Digestif et des Maladies de la Nutrition 44(3): 334-340
Ducuing, J.; Grimoud, M.; Lapeyrere, J.; Malecaze, A. 1955: Cholangiography in bilio-pancreatic tumors. Toulouse Medical 56(2): 112-116
Reasbeck, P.G. 1982: Cholangiography or choledochoscopy?. Annals of the Royal College of Surgeons of England 64(5): 357
Nowicki, S. 1961: Cholangiohepatitis. Polski Przeglad Chirurgiczny 33: 1299-1308
João, M.; Silva, M.; Perdigoto, D.; Mendes, S. 2020: Cholangiohydatidosis: an uncommon cause of acute cholangitis. Revista Espanola de Enfermedades Digestivas: Organo Oficial de la Sociedad Espanola de Patologia Digestiva 112(11): 881-882
Pereira, P.; Costa-Moreira, P.; Macedo, G. 2020: Cholangiopancreatoscopy: Expanding the Diagnostic Indications of Endoscopic Retrograde Cholangiopancreatography. Journal of Gastrointestinal and Liver Diseases: Jgld 29(3): 445-454
Gonzalez-Sanchez, E.; El Mourabit, H.; Jager, M.; Clavel, M.; Moog, S.; Vaquero, J.; Ledent, T.; Cadoret, A.; Gautheron, J.ér.ém.; Fouassier, L.; Wendum, D.; Chignard, N.; Housset, C. 2021: Cholangiopathy aggravation is caused by VDR ablation and alleviated by VDR-independent vitamin D signaling in ABCB4 knockout mice. Biochimica et Biophysica Acta. Molecular Basis of Disease 1867(4): 166067
Rojas, M.; Rodríguez, Y.; Zapata, E.; Hernández, J.C.; Anaya, J.-M. 2021: Cholangiopathy as part of post-COVID syndrome. Journal of Translational Autoimmunity 4: 100116
Fujisawa, T.; Isayama, H.; Shibuya, T.; Tomishima, K.; Ishii, S. 2021: Cholangioscopy and double-balloon enteroscopy mediated "sandwich puncture" of a completely closed choledochojejunostomy. Videogie: An Official Video Journal of the American Society for Gastrointestinal Endoscopy 6(7): 325-328
Fung, B.M.; Fejleh, M.P.; Tejaswi, S.; Tabibian, J.H. 2020: Cholangioscopy and its Role in Primary Sclerosing Cholangitis. European Medical Journal. Hepatology 8(1): 42-53
Tejaswi, S.; Loehfelm, T.W.; Olson, K.A. 2021: Cholangioscopy in primary sclerosing cholangitis: a case series of benign features. Videogie: An Official Video Journal of the American Society for Gastrointestinal Endoscopy 6(9): 431-437
Tejaswi, S.; Olson, K.A.; Loehfelm, T.W. 2021: Cholangioscopy in primary sclerosing cholangitis: a case series of dominant strictures and cholangiocarcinoma. Videogie: An Official Video Journal of the American Society for Gastrointestinal Endoscopy 6(6): 277-281
Han, S.; Shah, R.J. 2020: Cholangioscopy-guided basket retrieval of impacted stones. Videogie: An Official Video Journal of the American Society for Gastrointestinal Endoscopy 5(9): 387-388
Bills, G.; Brown, J.; Gabr, M. 2021: Cholangioscopy-guided removal of a proximally migrated biliary stent using a modified standard polypectomy snare . Videogie: An Official Video Journal of the American Society for Gastrointestinal Endoscopy 6(7): 316-318
Thaler, H. 1972: Cholangitis. Zeitschrift für Allgemeinmedizin 48(21): 964-968
Magyar, I. 1965: Cholangitis. Deutsche Zeitschrift für Verdauungs- und Stoffwechselkrankheiten 25(4): 170-172
Schomerus, H.; Kummer, D. 1980: Cholangitis. Der Internist 21(10): 577-583
Garcia, P.M. 1949: Cholangitis. Vida Medica 17(3): 12-21
Yang, E.; Eskandari, A.; Chang, M.A.; White, R.R.; Savides, T.J. 2020: Cholangitis Caused by a Migrated Pancreatic Duct Stent into the Bile Duct After Pancreaticoduodenectomy. Acg Case Reports Journal 7(11): E00477
Booth, A.L.; Merwat, S.N.; Merwat, S.K.; Stevenson, H.L. 2020: Cholangitis Lenta: what Hepatologists Need to know. Clinical Liver Disease 15(6): 236-238
Gourjault, C.; Tarhini, H.; Rahi, M.; Thy, M.; Le Pluart, D.; Rioux, C.; Parisey, M.; Ismael, S.; Aidibi, A.A.R.; Paradis, V.; Ghosn, J.; Yazdanpanah, Y.; Lescure, F.ço.-X.; Gervais, A. 2021: Cholangitis in three critically ill patients after a severe CoVID-19 infection. Idcases 26: E01267
Bonal, M.; Mourad, M.; Bancel, B.; Hervieu, V.ér.; Lebossé, F.; Heyer, L.; Ducerf, C.; Lesurtel, M.ël.; Mabrut, J.-Y.; Mohkam, K. 2020: Cholangitis lenta: An underdiagnosed lesion associated with severe cholestasis following liver transplantation. Clinical Transplantation 34(9): E14016
Joliat, G.ët.-R.; Winiker, M.; Antonino, A.-T.; Galasso, D. 2020: Cholangitis with large common bile duct dilatation caused by choledochal macrolithiasis. Annals of Gastroenterology 33(4): 438
Sahoo, S.; Ur Rehman, J.; Shah, M.R.; De, P.; Tecilla, P. 2021: Cholate Conjugated Polymeric Amphiphiles as Efficient Artificial Ionophores. Acs Applied Polymer Materials 3(2): 588-593
Anderson, J.N.; Ammous, Z.; Eroglu, Y.; Hernandez, E.; Heubi, J.; Himes, R.; Palle, S. 2021: Cholbam® and Zellweger spectrum disorders: treatment implementation and management. Orphanet Journal of Rare Diseases 16(1): 388
Camargo, A.; Dalmagro, A.P.; Platt, N.; F Rosado, A.; B Neis, V.; B Zeni, A.L.úc.; P Kaster, M.; S Rodrigues, A.L.úc. 2020: Cholecalciferol abolishes depressive-like behavior and hippocampal glucocorticoid receptor impairment induced by chronic corticosterone administration in mice. Pharmacology Biochemistry and Behavior 196: 172971
Sala Roig, J. 1948: Cholecolithiasis; pathogenesis of calculus migration. Acta Medica Hispanica 6(46): 54-56
Campagnoni, V. 1949: Cholecysographic research in infants. Gazzetta Sanitaria 20(2): 72-75
Gray, H.K.; Sharpe, W.S. 1945: Cholecyst-Gastro-Duodenal-Cutaneous Biliary Fistula. Anales de Cirugia 4: 964
Kogo, H.; Takasaki, H.; Sakata, Y.; Nakamura, Y.; Yoshida, H. 2021: Cholecyst-jejunostomy for palliative surgery. International Journal of Surgery Case Reports 79: 178-183
Keczer, B.án.; Csuja, N.án.; Fülöp, A.ás.; Pekli, D.án.; Harsányi, L.ás.ó; Hritz, I.án.; Szijártó, A. 2020: Treatment of bile duct injuries during cholecystectomy. Magyar Sebeszet 73(2): 49-56
Koch, F.; Hohenstein, S.; Bollmann, A.; Meier-Hellmann, A.; Kuhlen, R.; Ritz, J.ör.-P. 2022: Cholecystectomies in the COVID-19 Pandemic During and After the first Lockdown in Germany: an Analysis of 8561 Patients. Journal of Gastrointestinal Surgery: Official Journal of the Society for Surgery of the Alimentary Tract 26(2): 408-413
Nishimura, M. 1969: Cholecystectomy. SHUJUTSU. Operation 23(1): 46-51
Aldis, A.S. 1965: Cholecystectomy. Nursing Times 61(51): 1715-1718
Nishimura, M. 1966: Cholecystectomy. Geka Chiryo. Surgical Therapy 14(4): 407-414
Birnstingl, M. 1967: Cholecystectomy. Nursing Times 63(41): 1368-1369
Vilaca, J.R. 1954: Cholecystectomy. Revista Brasileira de Gastroenterologia 6(1): 111-120
Carvalheira, F.; Machado, G. 1955: Cholecystectomy. Anais Paulistas de Medicina e Cirurgia 69(5): 339-345
Monteiro, A. 1955: Cholecystectomy. Revista Brasileira de Cirurgia 30(6): 469-477
Pereira, A.F. 1956: Cholecystectomy. Revista Brasileira de Cirurgia 31(5): 678-689
Drummond, M.C. 1958: Cholecystectomy. Arquivos Brasileiros de Medicina Naval 19(70): 7541-7558
De JONGH, C.L. 1950: Cholecystectomy. Nederlands Tijdschrift Voor Geneeskunde 94(20): 1406-1411
Nava, E. 1948: Cholecystectomy. L' Ospedale Maggiore 36(3): 150
Shah, P.A.; Saluja, S.; Cowles, R.A. 2021: Cholecystectomy Is Superior to Medical Management for Biliary Pain in Pediatric Patients. Journal of Gastrointestinal Surgery: Official Journal of the Society for Surgery of the Alimentary Tract 25(9): 2435-2436
Nervi, F.; Arrese, M. 2013: Cholecystectomy and NAFLD: does gallbladder removal have metabolic consequences?. American Journal of Gastroenterology 108(6): 959-961
Murray, J.M.; Gilstrap, L.C.; Massey, F.M. 1980: Cholecystectomy and abdominal hysterectomy. JAMA 244(20): 2305-2306
Sattler, M.E.; O'Donnell, K. 1987: Cholecystectomy and carcinoma of the colon. Wisconsin Medical Journal 86(12): 15-17
Linos, D.A.; Beard, M.C.; O'Fallon, W.; Dockerty, W.B.; Beart, R.W.; Kurland, L.T. 1981: Cholecystectomy and carcinoma of the colon. Current Surgery 38(6): 391-393
González San Martín, F.; Chimpen Ruiz, V.; Pascual Herrero, A.; Martín, M.I.; de Portugal Alvarez, J. 1984: Cholecystectomy and colon cancer. Medicina Clinica 82(9): 423-424
Svastits, E.; Sulyok, Z.; Besznyák, I.; Ihász, M. 1981: Cholecystectomy and colon cancer. Orvosi Hetilap 122(31): 1889-1890
Iversen, E.; Banning, A.M. 1987: Cholecystectomy and colorectal cancer. Ugeskrift for Laeger 149(42): 2865
Carstensen, B. 1987: Cholecystectomy and colorectal cancer. Ugeskrift for Laeger 149(47): 3208-3209
Neeman, A.; Kadish, U. 1983: Cholecystectomy and colorectal cancer. Harefuah 104(5): 173
Schottenfeld, D.; Winawer, S.J. 1983: Cholecystectomy and colorectal cancer. Gastroenterology 85(4): 966-967
Kune, G.A.; Kune, S.; Brough, W.; Watson, L.F. 1989: Cholecystectomy and the development of colorectal neoplasia: a prospective study. Annals of the Royal College of Surgeons of England 71(4): 269-270
Jørgensen, T. 1989: Cholecystectomy and the development of colorectal neoplasia: a prospective study. Annals of the Royal College of Surgeons of England 71(4): 270
Adami, H.O.; Meirik, O.; Gustavsson, S.; Nyrén, O.; Krusemo, U.B. 1984: Cholecystectomy and the incidence of breast cancer: a cohort study. British Journal of Cancer 49(2): 235-239
Schernhammer, E.S.; Leitzmann, M.F.; Michaud, D.S.; Speizer, F.E.; Giovannucci, E.; Colditz, G.A.; Fuchs, C.S. 2003: Cholecystectomy and the risk for developing colorectal cancer and distal colorectal adenomas. British Journal of Cancer 88(1): 79-83
Altieri, A.; Pelucchi, C.; Talamini, R.; Bosetti, C.; Franceschi, S.; La Vecchia, C. 2004: Cholecystectomy and the risk of colorectal cancer in Italy. British Journal of Cancer 90(9): 1753-1755
Rodríguez-Antonio, I.; López-Sánchez, G.N.; Garrido-Camacho, V.Y.; Uribe, M.; Chávez-Tapia, N.C.; Nuño-Lámbarri, N. 2020: Cholecystectomy as a risk factor for non-alcoholic fatty liver disease development. Hpb: the Official Journal of the International Hepato Pancreato Biliary Association 22(11): 1513-1520
Chen, Y.; Wu, S.; Tian, Y. 2018: Cholecystectomy as a risk factor of metabolic syndrome: from epidemiologic clues to biochemical mechanisms. Laboratory Investigation; a Journal of Technical Methods and Pathology 98(1): 7-14
Argiriov, Y.; Dani, M.; Tsironis, C.; Koizia, L.J. 2020: Cholecystectomy for Complicated Gallbladder and Common Biliary Duct Stones: Current Surgical Management. Frontiers in Surgery 7: 42
Schattenkerk, M.E.; Li, A.K.; Jeppsson, B.W.; Eggink, W.F.; Jamieson, C.G.; Ross, J.S.; Malt, R.A. 1980: Cholecystectomy has no influence on frequency of chemically induced colonic cancer in mice. British Journal of Cancer 42(5): 791-793
Rossello, G. 1951: Cholecystectomy in acute cholecystitis. Minerva Medica 42(12): 364-370
Manfredi, A.; Dell'Abate, P.; Rusca, M. 1983: Cholecystectomy in cirrhotic patients. Acta Bio-Medica de l'Ateneo Parmense 54(5-6): 387-391
Dry, T.J. 1958: Cholecystectomy in patients with coronary heart disease. South African Medical Journal 32(17): 449-452
Van Furth, A.M.; van den Broek, M.; Emous, M.; de Heide, L.J.M.; Kuipers, F.; van Beek, A.é P. 2020: Cholecystectomy increases the risk of dumping syndrome and postbariatric hypoglycemia after bariatric surgery. Surgery for Obesity and Related Diseases: Official Journal of the American Society for Bariatric Surgery 16(12): 1939-1947
Lee, Y.J.; Park, Y.S.; Park, J.H. 2020: Cholecystectomy is Feasible in Children with Small-Sized or Large Numbers of Gallstones and in those with Persistent Symptoms Despite Medical Treatment. Pediatric Gastroenterology Hepatology and Nutrition 23(5): 430-438
Yang, H.; Yang, Y.; Dou, J.; Cui, R.; Cheng, Z.; Han, Z.; Liu, F.; Yu, X.; Zhou, X.; Yu, J.; Liang, P. 2020: Cholecystectomy is associated with higher risk of recurrence after microwave ablation of hepatocellular carcinoma: a propensity score matching analysis. Cancer Biology and Medicine 17(2): 478-491
Xu, J.; Yang, C. 2020: Cholecystectomy outcomes after endoscopic sphincterotomy in patients with choledocholithiasis: a meta-analysis. Bmc Gastroenterology 20(1): 229
Wang, C.-C.; Tseng, M.-H.; Wu, S.-W.; Yang, T.-W.; Chen, H.-Y.; Sung, W.-W.; Su, C.-C.; Wang, Y.-T.; Lin, C.-C.; Tsai, M.-C. 2020: Cholecystectomy reduces subsequent cholangiocarcinoma risk in choledocholithiasis patients undergoing endoscopic intervention. World Journal of Gastrointestinal Oncology 12(12): 1381-1393
Saylan, S.; Akdogan, A.; Dohman, D.; Duman, E.N. 2021: Cholecystectomy with Thoracic Epidural Anesthesia in Geriatric Patients. Journal of the College of Physicians and Surgeons--Pakistan: Jcpsp 30(4): 445-449
Dar, M.S.; Babar, A.M. 1991: Cholecystectomy with and without drainage. JPMA. Journal of the Pakistan Medical Association 41(1): 6-8
Chattopadhyay, T.K.; Kapoor, V.K.; Gupta, S. 1990: Cholecystectomy with and without drainage. Indian Journal of Gastroenterology: Official Journal of the Indian Society of Gastroenterology 9(4): 322-323
Mallet-Guy, P.; Koppes, R. 1947: Cholecystectomy without drainage; about 116 interventions performed under manometric and radiological control per-operative. Lyon Chirurgical 42(5): 543-566
Mallet-Guy, P.; Koppes, R. 1947: Cholecystectomy without drainage; Conditions and results. Bulletins et Memoires. Societe de Chirurgie de Marseille 20(5-6): 191-198
Zhang, J.; Prizment, A.E.; Dhakal, I.B.; Anderson, K.E. 2014: Cholecystectomy, gallstones, tonsillectomy, and pancreatic cancer risk: a population-based case-control study in Minnesota. British Journal of Cancer 110(9): 2348-2353
Son, J.-H.; Chang, S.-J. 2021: Cholecystectomy, porta hepatis stripping, and omental bursectomy. Gland Surgery 10(3): 1230-1234
Garruti, G.; Wang, D.Q-H.; Di Ciaula, A.; Portincasa, P. 2018: Cholecystectomy: a way forward and back to metabolic syndrome?. Laboratory Investigation; a Journal of Technical Methods and Pathology 98(1): 4-6
Bristol, J.B. 1989: Cholecystectomy: ironmasters and eggheads. Journal of the Royal Society of Medicine 82(2): 123
Mellor, S.G. 1989: Cholecystectomy: ironmasters and eggheads. Journal of the Royal Society of Medicine 82(7): 446-447
Ribeiro, E.B. 1955: Cholecystendysis. Anais Paulistas de Medicina e Cirurgia 69(5): 353-357
Casasanta, M.; Mello, M.; Aghazarian, S.; Zapas, J. 2012: Cholecystenteric fistula: the spectrum of disease and treatment modalities. American Surgeon 78(5): E267-E269
Cassano, P. 1948: Cholecystitic Syndrome and Lymphoglandular Calcification Of the Hepatic Hilum. Minerva Medica 39(6): 180-182
Ibargüen Beitia, S. 1968: Cholecystitis. Revista Espanola de Las Enfermedades del Aparato Digestivo 27(8): 1161-1194
Aitkulova, A.U. 1965: Cholecystitis. Sovetskoe Zdravookhranenie Kirgizii 3: 62-64
Mashimo, K. 1966: Cholecystitis. NAIKA. Internal Medicine 18(6): 1031-1034
Young, G.E. 1953: Cholecystitis. Journal of the Maine Medical Association 44(5): 122-123
Tstronblat, A.I. 1953: Cholecystitis. Meditsinskaia Sestra 8: 19-25
Franco, E. 1955: Cholecystitis. Jornal da Sociedade das Ciencias Medicas de Lisboa 119(4): 153-180
Nelson, R.S. 1950: Cholecystitis. Medical Bulletin. United States. Army. European Command. Medical Division 7(10): 597-601
Gatch, W.D. 1950: Cholecystitis. Arizona Medicine 7(6): 19-21
Kraft, A.; Wolf, W. 1949: Cholecystitis. Illinois Medical Journal 96(4): 249-252
Margulies, G.S. 1946: Cholecystitis. University of Toronto Medical Journal 24(3): 75-80
Isabat, J.G. 1946: Cholecystitis. Sugestiones 11(128): 129-135
Isabat, J.G. 1946: Cholecystitis. Sugestiones 11(129): 36 Passim
Isabat, J.G. 1946: Cholecystitis. Sugestiones 11(127): 45-52
Kuhlmayer, R. 1953: Cholecystitis and cholelithiasis in childhood. Wiener Klinische Wochenschrift 65(27): 553-555
Rescorla, F.J.; Grosfeld, J.L. 1992: Cholecystitis and cholelithiasis in children. Seminars in Pediatric Surgery 1(2): 98-106
Gupta, S.K.; Gupta, V. 1991: Cholecystitis and cholelithiasis in children. Indian Pediatrics 28(7): 801-803
Hamant, A.; Pietra, P. 1948: Cholecystitis and gastric ulcers. Revue Medicale de Nancy 73(1-15): 328-333
Gamna, C.; Ceresa, F. 1945: Cholecystitis calcosa opérata, with residual biliary fistula and truncular angiocolitis; secondary infectious polyarthritis; sequelae and medical complications of cholecystectomy. Minerva Medica 36(1-2 Pt 1: 1-6
Bernabeu García, A.; De la Cruz Verdun, J.; Suñol Sala, X. 2021: Cholecystitis enfisematous suspected SARS-CoV-2 infection. Cirugia Espanola 99(7): 538
Graham, D.S.; Ito, T.; Lu, M.; Dinorcia, J.; Agopian, V.G.; Farmer, D.G.; Busuttil, R.W.; Kaldas, F.M. 2020: Cholecystitis in Patients Undergoing Liver Transplantation: a Five-Year Analysis of Incidence, Causes, and Impact. American Surgeon 86(10): 1254-1259
Sorribes-Santamaria, V. 1949: Cholecystitis in the Valencian region; causes that determine it and factors of its frequency. Medicina Espanola 12(123): 504-513
Chene, P.; Simon, A. 1946: Cholecystitis; Cholecystopathies. Gazette Medicale de France 53(18): 491-495
Bilgi Kırmacı, M.; Akay, T.; Özgül, E.; Yılmaz, S. 2020: Cholecysto-Hydatid Cyst Fistula: a Rare Cause of Cholangitis. American Journal of Case Reports 21: E921914
Flores Lopez, R. 1949: Cholecysto-colic fistula. Revista de Gastroenterologia de Mexico 14(83): 291-300
Albot, G.; Andre, R.C.; Lamy, R. 1949: Cholecysto-gastric fistula revealed by a pyloric stenosis. Archives des Maladies de l'Appareil Digestif et des Maladies de la Nutrition 38(5-6): 442-444
Cornejo Saravia, E. 1946: Cholecysto-umbilical fistula. Boletines y Trabajos de la Academia Argentina de Cirugia. Academia Argentina de Cirugia 30(10): 376-378
Lee, B.T.; Mahamid, A.; Ahmad, J.; Tabrizian, P. 2021: Cholecystoduodenal fistula resulting in gallstone ileus: a path paved by stone. Clinical Case Reports 9(4): 2479-2480
Wu, L-J.; Yang, D-Q.; Chen, J. 2020: Cholecystoduodenal fistula with gastric outlet obstruction. ActaGastro-EnterologicaBelgica 83(4): 677
Ramesh, H.; Jacob, G. 2001: Cholecystoduodenoplasty for high-output duodenal fistula. Indian Journal of Gastroenterology: Official Journal of the Indian Society of Gastroenterology 20(5): 208
Verma, G.R.; Bose, S.M. 2001: Cholecystoduodenoplasty for high-output duodenal fistula. Indian Journal of Gastroenterology: Official Journal of the Indian Society of Gastroenterology 20(6): 252-253
Artaud, P.; Kenundjian, Y. 1949: Cholecystogastrostomy in a 45-day-old infant with biliary tract malformation. Archives Francaises de Pediatrie 6(1): 109
Miniconi; Imbert, C.; Laquiere 1955: Cholecystographies by the Albot-Busson-Toulet method; first result. Journal de Radiologie d'Electrologie and Archives d'Electricite Medicale 36(3-4): 262-266
Tobar, B.A. 1948: Cholecystographs in healthy and diseased vesicles. Revista Medica de Valparaiso 1(2): 46-49
Prevedi, G. 1955: Cholecystography. Annali di Radiologia Diagnostica 28(5): 392-406
Santos, C. 1954: Cholecystography. Revue Internationale d'Hepatologie 4(4-5): 303-341
Ghysens, E.; Goffin, R. 1951: Cholecystography. Le Scalpel 104(46): 1317-1318
Zatzkin, H.R. 1962: Cholecystography. Clinical Medicine 69: 871-876
Harper, R.K. 1949: Cholecystography. Practitioner 162(969): 217-223
Royer, M.; Richer, L. 1948: Cholecystography in chronic non-lithiasic cholecystitis; vesicles with abnormal sizes. Prensa Medica Argentina 35(17): 765-771
Zarate, V.E.; Koch, M.W. 1948: Cholecystography in normal individuals. Revista Medica de Valparaiso 1(2): 41-45
Qvist, C.F. 1954: Cholecystography with telepaque and pheniodol. Nordisk Medicin 52(36): 1220-1221
Rehfeld, J.F. 1980: Cholecystokinin. Clinics in Gastroenterology 9(3): 593-607
Wozniak, E.A.L.; Chen, Z.; Paul, S.; Yang, P.; Figueroa, K.P.; Friedrich, J.; Tschumperlin, T.; Berken, M.; Ingram, M.; Henzler, C.; Pulst, S.M.; Orr, H.T. 2021: Cholecystokinin 1 receptor activation restores normal mTORC1 signaling and is protective to Purkinje cells of SCA mice. Cell Reports 37(2): 109831
Ibarz, Géraldine.; Oiry, C.; Carnazzi, E.; Crespy, P.; Escrieut, C.; Fourmy, D.; Galleyrand, J.Claude.; Gagne, D.; Martinez, J. 2006: Cholecystokinin 1 receptor modulates the MEKK1-induced c-Jun trans-activation: structural requirements of the receptor. British Journal of Pharmacology 147(8): 951-958
Fornai, M.; Colucci, R.; Antonioli, L.; Crema, F.; Buccianti, P.; Chiarugi, M.; Baschiera, F.; Ghisu, N.; Tuccori, M.; Blandizzi, C.; Del Tacca, M. 2007: Cholecystokinin CCK2 receptors mediate the peptide's inhibitory actions on the contractile activity of human distal colon via the nitric oxide pathway. British Journal of Pharmacology 151(8): 1246-1253
Han, Z.; Bi, S.; Xu, Y.; Dong, X.; Mei, L.; Lin, H.; Li, X. 2021: Cholecystokinin Expression in the Development of Myocardial Hypertrophy. Scanning 2021: 8231559
Maruyama, Y.; Petersen, O.H. 1982: Cholecystokinin activation of single-channel currents is mediated by internal messenger in pancreatic acinar cells. Nature 300(5887): 61-63
Rust, V.A.; Crosby, K.M. 2021: Cholecystokinin acts in the dorsomedial hypothalamus of young male rats to suppress appetite in a nitric oxide-dependent manner. Neuroscience Letters 764: 136295
Guggenberger, M.; Engster, K.-M.; Hofmann, T.; Rose, M.; Stengel, A.; Kobelt, P. 2020: Cholecystokinin and bombesin activate neuronatin neurons in the nucleus of the solitary tract. Brain Research 1746: 147006
Pinget, M. 1980: Cholecystokinin and the control of hunger. Pathologie-Biologie 28(4): 213-215
Smith, G.P. 2006: Cholecystokinin and treatment of meal size: proof of principle. Obesity 14 Suppl. 4: 168s-170s
Sturdevant, R.A.; Goetz, H. 1976: Cholecystokinin both stimulates and inhibits human food intake. Nature 261(5562): 713-715
Ruijs, J.H.; Hulst, S.G. 1980: Cholecystokinin cholangiography and biliary dyskinesia. Nederlands Tijdschrift Voor Geneeskunde 124(10): 358-359
Gibbs, J.; Young, R.C.; Smith, G.P. 1973: Cholecystokinin elicits satiety in rats with open gastric fistulas. Nature 245(5424): 323-325
Mitchell, V.A.; Jeong, H-Jin.; Drew, G.M.; Vaughan, C.W. 2011: Cholecystokinin exerts an effect via the endocannabinoid system to inhibit GABAergic transmission in midbrain periaqueductal gray. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 36(9): 1801-1810
Li, X.; Yu, K.; Zhang, Z.; Sun, W.; Yang, Z.; Feng, J.; Chen, X.; Liu, C-Hua.; Wang, H.; Guo, Y.Ping.; He, J. 2014: Cholecystokinin from the entorhinal cortex enables neural plasticity in the auditory cortex. Cell Research 24(3): 307-330
Gollock, J.M. 1982: Cholecystokinin in diagnosis of biliary pain. Annals of the Royal College of Surgeons of England 64(4): 281
Sykes 1982: Cholecystokinin in diagnosis of biliary pain. Annals of the Royal College of Surgeons of England 64(4): 281
Hammond, C.; Paupardin-Tritsch, D.; Nairn, A.C.; Greengard, P.; Gerschenfeld, H.M. 1987: Cholecystokinin induces a decrease in Ca2+ current in snail neurons that appears to be mediated by protein kinase C. Nature 325(6107): 809-811
Beinfeld, M.C.; Meyer, D.K.; Brownstein, M.J. 1980: Cholecystokinin octapeptide in the rat hypothalamo-neurohypophysial system. Nature 288(5789): 376-378
Wang, C.; Zhang, C.; Wu, D.; Guo, L.; Zhao, F.; Lv, J.; Fu, L. 2020: Cholecystokinin octapeptide reduces myocardial fibrosis and improves cardiac remodeling in post myocardial infarction rats. International Journal of Biochemistry and Cell Biology 125: 105793
Leigh, R.S.; Ruskoaho, H.J.; Kaynak, B.L. 2021: Cholecystokinin peptide signaling is regulated by a TBX5-MEF2 axis in the heart. Peptides 136: 170459
Chang, J.; Liu, Z.-S.; Song, D.-F.; Li, M.; Zhang, S.; Zhao, K.; Guan, Y.-T.; Ren, H.-L.; Li, Y.-S.; Zhou, Y.; Liu, X.-L.; Lu, S.-Y.; Hu, P. 2020: Cholecystokinin type 2 receptor in colorectal cancer: diagnostic and therapeutic target. Journal of Cancer Research and Clinical Oncology 146(9): 2205-2217
Nyborg, N.Chresten.Berg.; Kirk, R.Kaae.; de Boer, A.Sietske.; Andersen, D.Wederkinck.; Bugge, A.; Wulff, B.Schjellerup.; Thorup, I.; Clausen, T.Ryberg. 2020: Cholecystokinin-1 receptor agonist induced pathological findings in the exocrine pancreas of non-human primates. Toxicology and Applied Pharmacology 399: 115035
Cayrol, C.; Clerc, P.; Bertrand, C.; Gigoux, V.; Portolan, G.; Fourmy, D.; Dufresne, M.; Seva, C. 2006: Cholecystokinin-2 receptor modulates cell adhesion through beta 1-integrin in human pancreatic cancer cells. Oncogene 25(32): 4421-4428
Gou, H.; Sun, D.; Hao, L.; An, M.; Xie, B.; Cong, B.; Ma, C.; Wen, D. 2020: Cholecystokinin-8 attenuates methamphetamine-induced inflammatory activation of microglial cells through CCK2 receptor. Neurotoxicology 81: 70-79
Tirassa, P.; Stenfors, C.; Lundeberg, T.; Aloe, L. 1998: Cholecystokinin-8 regulation of NGF concentrations in adult mouse brain through a mechanism involving CCK(A) and CCK(B) receptors. British Journal of Pharmacology 123(6): 1230-1236
Desai, A.J.; Dong, M.; Harikumar, K.G.; Miller, L.J. 2016: Cholecystokinin-induced satiety, a key gut servomechanism that is affected by the membrane microenvironment of this receptor. International Journal of Obesity Supplements 6(Suppl. 1): S22-S27
Guo, D.; Zhang, Y.-J.; Zhang, S.; Li, J.; Guo, C.; Pan, Y.-F.; Zhang, N.; Liu, C.-X.; Jia, Y.-L.; Li, C.-Y.; Ma, J.-Y.; Nässel, D.R.; Gao, C.-F.; Wu, S.-F. 2021: Cholecystokinin-like peptide mediates satiety by inhibiting sugar attraction. Plos Genetics 17(8): E1009724
Cheng, Y.; Wu, M.; Liu, M.; Zhou, B.; Lin, X.; Wang, B. 2021: Cholecystokinin-mediated pharmacological preconditioning effects on ischemic rat hearts: Possible signaling pathways. Advances in Clinical and Experimental Medicine: Official Organ Wroclaw Medical University 30(11): 1157-1165
Fan, W.; Ellacott, K.L.J.; Halatchev, I.G.; Takahashi, K.; Yu, P.; Cone, R.D. 2004: Cholecystokinin-mediated suppression of feeding involves the brainstem melanocortin system. Nature Neuroscience 7(4): 335-336
Saito, T. 1972: Cholecystokinin-pancreozymin. Horumon to Rinsho. Clinical Endocrinology 20(7): 553-555
Iwata, Y.; Ozaki, S.; Takaishi, O.; Kobayashi, K. 1995: Cholecystokinin-pancreozymin (CCK-PZ). Nihon Rinsho. Japanese Journal of Clinical Medicine 53 Su Pt 2: 644-647
Sakaguchi, H.; Iwata, Y.; Kobayashi, K.; Arakawa, T. 2005: Cholecystokinin-pancreozymin (CCK-PZ). Nihon Rinsho. Japanese Journal of Clinical Medicine 63(Suppl 8): 505-507
Sakaguchi, H.; Iwata, Y.; Kobayashi, K.; Arakawa, T. 2010: Cholecystokinin-pancreozymin (CCK-PZ). Nihon Rinsho. Japanese Journal of Clinical Medicine 68(Suppl 7): 544-546
Smirnov, A.V.; Volkova, L.P. 1965: Cholecystopancreatitis. Khirurgiia 41(3): 124-126
Smirnov, E.V. 1965: Cholecystopancreatitis. Khirurgiia 41(3): 126-127
Ivanissevich, O.; Schieppati, E. 1946: Cholecystopancreatitis. Revista Brasileira de Cirurgia 15(5): 153-156
Ivanissevich, O.; Schieppati, E. 1945: Cholecystopancreatitis. BOLETIN. Universidad de Buenos Aires. Instituto de Clinica Quirurgica 21(175): 373-376
Ivanissevich, O.; Schieppati, E. 1945: Cholecystopancreatitis. La Semana Medica 52(2): 597-599
Stockinger, W. 1947: Cholecystopathies after hepatitis epidemica. DeutscheMedizinischeWochenschrift 72(33-34): 476
Laubersheimer, A. 1948: Cholecystoscopy. BULLETIN. Los Angeles Surgical Society 1(1): 11-15
Argüelles, G. 1972: Cholecystosis. Revista Espanola de Las Enfermedades del Aparato Digestivo 37(5): 601-618
Arianoff, A.A. 1967: Cholecystosis. Prensa Medica Argentina 54(21): 1058-1065
Miyar Gonzalez, A. 1968: Cholecystosis. Revista Espanola de Las Enfermedades del Aparato Digestivo 27(4): 593-603
Sapisochin, E.; Schieppati, E.; Gincberg, J.; Lis, E.B.; Cunning, J.C. 1969: Cholecystosis. Prensa Medica Argentina 56(6): 239-245
Traissac, F.J.; Béraud, C. 1965: Cholecystosis. Journal de Medecine de Bordeaux et du Sud-Ouest 142(6): 1026-1030
Barbier, F. 1963: Cholecystosis. Belgisch Tijdschrift Voor Geneeskunde 19: 35-37
Strandberg, B.; Jensen, E.I. 1948: Cholecystostomi-the results; examination of 80 patients. Nordisk Medicin 40(50): 2315-2320
Cereseto, P.L.; Fernandez, J.M. 1958: Cholecystostomy. El Dia Medico 30(56): 2102 Passim
Fouquet, J.; Leger, L. 1949: Cholecystostomy for Vesicular Lithiasis in a Cured Tuberculous Meningitis. Bulletins et Memoires de la Societe Medicale des Hopitaux de Paris 65(13-14): 551-553
Zanini, P. 1956: Cholecystostomy and cancer of the gallbladder. Minerva Chirurgica 11(15): 717-719
Michell, H.; Johnston, G.P.; Chopra, P.; Scriver, G.M.; Bhave, A.D.; Shields, J.T.; Morris, C.S. 2020: Cholecystostomy as an Exclusive Access to Remove Cystic, Common Hepatic, and Common Bile Duct Stones. AJR. American Journal of Roentgenology 215(5): 1252-1256
Topchiashvili, Z.A. 1961: Cholecystostomy in acute cholecystitis. "laboratorio;" Analisis Clinicos Bacteriologia Inmunologia Parasitologia Hematologia Anatomia Patologica Quimica Clinica 39: 19-22
Zhitniuk, R.I. 1959: Cholecystostomy in acute cholecystitis. Vestnik Khirurgii Imeni I. I. Grekova 83: 43-47
Beburishvili, A.G.; Panin, S.I.; Zyubina, E.N.; Nesterov, S.S.; Puzikova, A.V. 2020: Cholecystostomy in acute cholecystitis in modern surgical practice. Khirurgiia 6: 44-48
Quang, K.T.; Hunter, J.L.; Wilson, J.W.; Simmons, J.D. 2021: Choledochal Cyst Originating from the Cystic Duct. American Surgeon 87(1): 154-155
Uecker, M.; Lehmann, U.; Braubach, P.; Schukfeh, N.; Madadi-Sanjani, O.; Ure, B.M.; Petersen, C.; Kuebler, J.F. 2021: Choledochal Cysts Resected during Childhood Show no Mutations of KRAS and BRAF as Early Markers of Malignancy in Cholangiocytes. European Journal of Pediatric Surgery: Official Journal of Austrian Association of Pediatric Surgery . et Al 31(1): 20-24
Weng, S.-C.; Lee, H.-C.; Yeung, C.-Y.; Chan, W.-T.; Liu, H.-C.; Jiang, C.-B. 2020: Choledochal cyst as an important risk factor for pediatric gallstones in low-incidence populations: a single-center review. Pediatrics and Neonatology 61(6): 598-605
Martín Fernández, J.; Martín Duce, A.; Lasa, I.; López, A.; Hernández, P.; Noguerales, F. 2001: Choledochal cyst in adults. Revista Espanola de Enfermedades Digestivas: Organo Oficial de la Sociedad Espanola de Patologia Digestiva 93(8): 546-547
Ndoye, N.A.; Wellé, I.B.; Cissé, L.; Guèye, D.; Diouf, C.; Mbaye, P.A.; Lo, F.B.; Seck, N.èy.F.; Sagna, A.ïs.; Ndour, O.; Ngom, G. 2021: Choledochal cyst in children in dakar: Diagnostic and therapeutic aspects. African Journal of Paediatric Surgery: Ajps 18(3): 168-170
Schreeg, M.E.; Miller, S.A.; Cullen, J.M. 2021: Choledochal cyst with secondary cholangitis, choledochitis, duodenal papillitis, and pancreatitis in a young domestic shorthair cat. Journal of Veterinary Diagnostic Investigation: Official Publication of the American Association of Veterinary Laboratory Diagnosticians Inc 33(4): 782-787
Trondsen, E.; Buanes, T. 1999: Choledochal cysts in adults. Tidsskrift for den Norske Laegeforening: Tidsskrift for Praktisk Medicin Ny Raekke 119(12): 1752-1754
Serin, K.R.; Ercan, L.D.; Ibis, C.; Ozden, I.; Tekant, Y. 2021: Choledochal cysts: Management and long-term follow-up. Surgeon: Journal of the Royal Colleges of Surgeons of Edinburgh and Ireland 19(4): 200-206
Aguirre, C. 1945: Choledochian syndrome without concrete in man. Prensa Medica Argentina 32: 2521-2530
Quilichini, C.A. 1953: Choledocho-duodenal fistula. Boletin de la Asociacion Medica de Puerto Rico 45(4): 138-141
Susoni, A.H. 1947: Choledocho-duodenostomy in an advanced case of carcinoma of the pancreas with metastasis to the liver. Boletin de la Asociacion Medica de Puerto Rico 39(12): 448
Michowitz, M.; Farago, C.; Lazarovici, I.; Solowiejczyk, M. 1984: Choledochoduodenal fistula: a rare complication of duodenal ulcer. American Journal of Gastroenterology 79(5): 416-420
Allende, C.I. 1951: Choledochoduodenal fistulas of ulcerous origin and their therapy. Boletines y Trabajos de la Academia Argentina de Cirugia. Academia Argentina de Cirugia 35(7): 191-192
Gredzhev, A.F.; Mysnik, G.G.; Popov, N.K. 1974: Choledochoduodenostomy. Klinicheskaia Khirurgiia 3: 5-9
Madden, J.L. 1970: Choledochoduodenostomy. Prensa Medica Argentina 57(27): 1357-1364
Vinogradov, V.V.; Vishnevskiĭ, V.A. 1970: Choledochoduodenostomy. Khirurgiia 46(4): 79-85
Lachter, J.; Orron, D.E.; Raskin, G.S. 2001: Choledochoduodenostomy. Israel Medical Association Journal: Imaj 3(7): 548
Starlinger, F. 1953: Choledochoduodenostomy. Wiener Klinische Wochenschrift 65(52): 1039-1040
Walterskirchen, M. 1950: Choledochoduodenostomy. Wiener Klinische Wochenschrift 62(51): 966-969
Schein, C.J.; Gliedman, M.L. 1981: Choledochoduodenostomy as an adjunct to choledocholithotomy. Surgery Gynecology and Obstetrics 152(6): 797-804
Schreuder, A.M.; Franken, L.C.; van Dieren, S.; Besselink, M.G.; Busch, O.R.; van Gulik, T.M. 2021: Choledochoduodenostomy versus hepaticojejunostomy - a matched case-control analysis. Hpb: the Official Journal of the International Hepato Pancreato Biliary Association 23(4): 560-565
Vasconcellos, D.; Castro, F.L.; Knecht, R. 1965: Choledocholithiasis. Hospital 68(4): 797-812
Sitenko, V.M.; Nechai, A.I.; Novikov, K.V.; Lantsov, V.P. 1969: Choledocholithiasis. Klinicheskaia Khirurgiia 10: 12-16
Sitenko, V.M.; Nechaĭ, A.I.; Novikov, K.V.; Lantsov, V.P. 1969: Choledocholithiasis. Klinicheskaia Khirurgiia 10: 12-16
Jovanovic, V.T. 1953: Choledocholithiasis. Srpski Arhiv Za Celokupno Lekarstvo 81(5): 499-506
Buligescu, L.; Niculescu, T.; Popescu, E.; Bucur, A.; Suciu, D.; Lazarescu, L. 1959: Choledocholithiasis. Medicina Interna 11: 1731-1738
Loup, B. 1945: Choledocholithiasis and Hepatic Dystomiasis. Gaceta Medico-Quirurgica de Bolivia 2: 230-238
Alkhatib, A.A.; Alasadi, M. 2018: Choledocholithiasis in Roux-en-Y gastric bypass patients. American Journal of Gastroenterology 113(5): 776-777
Sachdeva, S.; Sethi, S.S.; Kumar, A.; Dalal, A. 2021: Choledocholithiasis in autosomal dominant polycystic kidney disease. Digestive and Liver Disease: Official Journal of the Italian Society of Gastroenterology and the Italian Association for the Study of the Liver 53(1): 127-128
Neuhaus, H. 2020: Choledocholithiasis in pregnancy: when and how to perform ERCP?. Endoscopy International Open 8(10): E1508-E1510
Bosley, M.E.; Zamora, I.J.; Neff, L.P. 2021: Choledocholithiasis-a new clinical pathway. Translational Gastroenterology and Hepatology 6: 35
Koklu, H.; Vahabov, C.; Parlak, E.; Kav, T. 2020: Choledochoscope-assisted antegrade-retrograde endoscopic dilation of complete esophageal stenosis in a patient with dystrophic epidermolysis bullosa. Acta Gastro-Enterologica Belgica 83(3): 491-492
Leslie, D. 1986: Choledochoscopy. Annals of the Royal College of Surgeons of England 68(4): 233
Cardi, E.R. 1983: Choledochoscopy. Rhode Island Medical Journal 66(12): 511-512
Talbot, M.; Chamberland, P.; Dugas, R.; Martin, M. 1982: Choledochoscopy. L'Union Medicale du Canada 111(10): 900-903
Dennis, M.J.; James, M.J.; Wherry, D.; Doran, J.; Morris, D.L. 1989: Choledochoscopy via the cystic duct: evaluation of a new ultrathin disposable choledochoscope. Annals of the Royal College of Surgeons of England 71(5): 320-321
Castaños-Guadarrama, M.; Alvarado-Padilla, A.M.; Sánchez-Fernández, P. 2020: Choledochus angulation by T-tube. Revista Medica del Instituto Mexicano del Seguro Social 58(5): 622-627
Sanchez Zinny, J. 1949: Choledocian syndrome and biliary fistula of hydatid origin. BoletinesyTrabajos-SociedadArgentinadeCirujanos 10(7): 164
Mallet-Guy, P.; Pasquier, V. 1946: Choledocoduodenostomy for lithiasic angiocholitis coexisting with infected renal lithiasis; postoperative anuria; Healing. Lyon Chirurgical 41: 109
Richard, C. 1959: Choledoscopy. Revue Medico-Chirurgicale des Maladies du Foie 34(1): 55-62
Nasio, J.; Galindez, R.E. 1962: Choledyskinesia or irritable biliary tract. La Semana Medica 121: 1545-1550
Nasio, J.; Galindez, R.E. 1962: Choledyskinesia or irritable biliary tract. La Semana Medica 121: 1683-1690 Contd
Gardikas, C.; Kench, J.E.; Wilkinson, J.F. 1948: Choleglobin formation in the erythrocyte. Nature 161(4094): 607
Miettinen, T.A. 1977: Cholelithiasis. Duodecim; Laaketieteellinen Aikakauskirja 93(6): 356-371
Palma, R. 1976: Cholelithiasis. Revista Medica de Chile 104(6): 346-352
Kissin, A.G. 1969: Cholelithiasis. Fel'dsher i Akusherka 34(2): 12-16
Makino, K. 1967: Cholelithiasis. Geka Chiryo. Surgical Therapy 17(6): 697-704
Poshakrishna, U.; Prinyanusol, N. 1967: Cholelithiasis. International Surgery 48(3): 286-289
Nakamura, M.; Takada, T.; Hanyu, F. 1981: Cholelithiasis. Kurinikaru Sutadi 2(4): 385-392
Iveson-Iveson, J. 1981: Cholelithiasis. Nursing Mirror 152(18): 24-25
Gutiérrez Samperio, C. 1982: Cholelithiasis. Revista de Gastroenterologia de Mexico 47(3): 179-186
Shuvaev, V.I. 1980: Cholelithiasis. Sovetskaia Meditsina 7: 108-110
Elías Pollina, J. 2001: Cholelithiasis. Anales Espanoles de Pediatria 55(2): 171-172
Tanno, S.; Obara, T.; Kohgo, Y. 2002: Cholelithiasis. Nihon Rinsho. Japanese Journal of Clinical Medicine 60(Suppl 1): 278-283
Harvier, P. 1953: Cholelithiasis. La Revue du Praticien 3(13): 863-864
Bianchi, A.; Suñol, J.; Casals, S.; Badía, A.; Ubach, M. 1994: Cholelithiasis after total gastrectomy for gastric cancer. Revista Espanola de Enfermedades Digestivas: Organo Oficial de la Sociedad Espanola de Patologia Digestiva 85(2): 91-93
Eimiller, A.; Lossnitzer, K. 1984: Cholelithiasis and acute pancreatitis. Deutsche Medizinische Wochenschrift 109(44): 1704
Cabrera Chamorro, C.C.; Pabón Arteaga, J.S.; Caicedo Paredes, C.A.; Cabrera Bravo, N.; Villamil Giraldo, C.E.; Chávez Betancourt, G.; Zarama Márquez, R.A.; Rincón Torres, C.A. 2020: Cholelithiasis and associated complications in pediatric patients. Cirugia Pediatrica: Organo Oficial de la Sociedad Espanola de Cirugia Pediatrica 33(4): 172-176
Johnson, R.G.; Longino, L.A. 1971: Cholelithiasis and cholecystitis in children. American Surgeon 37(10): 651-652
Sobanski, A. 1956: Cholelithiasis and cholecystitis in children. Polski Tygodnik Lekarski 11(22): 981-984
Diez, S.; Müller, H.; Weiss, C.; Schellerer, V.; Besendörfer, M. 2021: Cholelithiasis and cholecystitis in children and adolescents: Does this increasing diagnosis require a common guideline for pediatricians and pediatric surgeons?. Bmc Gastroenterology 21(1): 186
Voltas, J.; Zornoza, G.; Ortiz, H. 1971: Cholelithiasis and gallbladder neoplasms. Revista Espanola de Las Enfermedades del Aparato Digestivo 33(2): 235-244
Akita, Y. 1962: Cholelithiasis and pancreatic diseases. Japanese Journal of Medical Science and Biology 47: 1201-1217
O'Brien, T.R.; Mitchum, G.D. 1970: Cholelithiasis in a cat. Journal of the American Veterinary Medical Association 156(8): 1015-1017
Wigderson, F.J. 1955: Cholelithiasis in a cat. Journal of the American Veterinary Medical Association 126(937): 287
Nelson, N.C.; Piker, J.F.; Welsh, R.A. 1968: Cholelithiasis in a dog. Journal of the American Veterinary Medical Association 152(1): 47-50
Siahanidou, T.; Mikou, C.; Karra, P.; Pappas, D.; Zellos, A.; Mandyla, H. 2010: Cholelithiasis in a neonate with chylous ascites. Journal of Perinatology: Official Journal of the California Perinatal Association 30(3): 227-230
Rodionov, G.A. 1959: Cholelithiasis in an infant. Pediatriia 37: 30-31
Reppin, G.; Heinrich, P.; Fleischer, G.M. 1985: Cholelithiasis in childhood and adolescence. Zentralblatt für Chirurgie 110(23): 1452-1456
Beris, S.; Peters, C.H. 1962: Cholelithiasis in childhood and adolescence. Journal-Lancet 82: 258-259
Wilcox, D.T.; Casson, D.; Bowen, J.; Thomas, A.; Bruce, J. 1997: Cholelithiasis in early infancy. Pediatric Surgery International 12(2-3): 198-199
Wenzl, M.; Klose, W.; März, R.; Spängler, W. 1975: Cholelithiasis in the aged. Folia Clinica Internacional 25(1): 23-26
Potashov, L.V.; Figurina, T.D.; Kolpakov, N.A. 1993: Cholelithiasis in young people. Klinicheskaia Meditsina 71(1): 25-27
Ioannou, G.N. 2010: Cholelithiasis, cholecystectomy, and liver disease. American Journal of Gastroenterology 105(6): 1364-1373
Kurguzov, O.P. 2007: Cholelithic small bowel obstruction. Khirurgiia 6: 13-19
D'Amico, D. 1974: Choleperitoneum. Minerva Chirurgica 29(11): 706-725
Roux, M. 1970: Choleperitoneum. Annales de Gastroenterologie et d'Hepatologie 6(4): 343-355
Delrio, J.M.A. 1949: Choleperitoneum; experimental contribution to its physiopathology. BoletinesyTrabajos-SociedadArgentinadeCirujanos 10(21): 639
Locascio, O.A. 1949: Choleperitoneum; experimental contribution to its physiopathology. BoletinesyTrabajos-SociedadArgentinadeCirujanos 10(23): 709
Richards, V. 1881: Cholera Amongst Emigrants to the Tea Districts. Indian Medical Gazette 16(4): 96-101
Baek, Y.; Lee, D.; Lee, J.; Yoon, Y.; Nair, G.B.; Kim, D.W.; Kim, E.J. 2020: Cholera Toxin Production in Vibrio cholerae O1 El Tor Biotype Strains in Single-Phase Culture. Frontiers in Microbiology 11: 825
Andrews, C.A. 1881: Cholera and Fever Poisons. Indian Medical Gazette 16(12): 325-328
Alpha 1881: Cholera and Fever Poisons. Indian Medical Gazette 16(12): 341-342
Hume, T. 1882: Cholera and Fever Poisons. Indian Medical Gazette 17(5): 123-127
Finkelstein, R.A.; Boesman-Finkelstein, M. 1978: Cholera and related diarrhoeas ('turista'). Nature 275(5677): 173-174
Garcia Del Real, E. 1947: Cholera and the Ferran case. Medicamenta 5(138 Part 2): 295
Hassan, O.B.; Nellums, L.B. 2021: Cholera during COVID-19: the forgotten threat for forcibly displaced populations. Eclinicalmedicine 32: 100753
Breavoine 1948: Cholera effects and cholagogues of curcumatherapy. Journal de Medecine et de Chirurgie Pratiques 119(10): 202-205
Park, H. 2020: Cholera epidemic and quarantine of open ports in Joseon in 1886. Ui Sahak 29(1): 43-80
Anderson, C. 1991: Cholera epidemic traced to risk miscalculation. Nature 354(6351): 255
Macnamara, C. 1873: Cholera in Calcutta during the year 1872. Indian Medical Gazette 8(2): 33-35
Ross, J.A. 1937: Cholera in New York in 1832. Annals of Medical History 9(1): 18-22
Stowman, K. 1946: Cholera in the east. Revista de Sanidad 20: 394-405
Rivas, M.; Toma, C.; Miliwebsky, E.; Caffer, M.I.; Galas, M.; Varela, P.; Tous, M.; Bru, A.M.; Binsztein, N. 1993: Cholera isolates in relation to the "eighth pandemic". Lancet 342(8876): 926-927
Al-Sakkaf, K.; Bahattab, A.; Basaleem, H. 2020: Cholera knowledge, socioeconomic and WaSH characteristics in Aden - Yemen, 2017: a community-based comparative survey. Journal of Preventive Medicine and Hygiene 61(3): E392-E400
Dutta, B.P.; Kumar, N.; Meshram, K.C.; Yadav, R.; Sodha, S.V.; Gupta, S. 2021: Cholera outbreak associated with contaminated water sources in paddy fields, Mandla District, Madhya Pradesh, India. Indian Journal of Public Health 65(Suppl): S46-S50
Dinede, G.; Abagero, A.; Tolosa, T. 2020: Cholera outbreak in Addis Ababa, Ethiopia: a case-control study. Plos one 15(7): E0235440
Jain, A.; Choudhary, S.; Saroha, E.; Bhatnagar, P.; Harvey, P. 2021: Cholera outbreak in an informal settlement at Shahpur huts, Panchkula District, Haryana State, India, 2019. Indian Journal of Public Health 65(Suppl): S51-S54
Taneja, N.; Gupta, S.; Tiewsoh, J.B.A.; Srivastava, S. 2021: Cholera pulse vaccination: a possible elimination strategy for cholera in endemic countries. Indian Journal of Public Health 65(3): 311-314
Francois, J. 2020: Cholera remains a public health threat in Haiti. LANCET. Global Health 8(8): E984
Bwire, G.; Waniaye, J.B.; Otim, J.S.; Matseketse, D.; Kagirita, A.; Orach, C.G. 2021: Cholera risk in cities in Uganda: understanding cases and contacts centered strategy (3CS) for rapid cholera outbreak control. Pan African Medical Journal 39: 193
Butler, D. 2010: Cholera tightens grip on Haiti. Nature 468(7323): 483-484
Smits, H.H.; Gloudemans, A.K.; van Nimwegen, M.; Willart, M.A.; Soullié, T.; Muskens, F.; de Jong, E.C.; Boon, L.; Pilette, C.; Johansen, F-E.; Hoogsteden, H.C.; Hammad, H.; Lambrecht, B.N. 2009: Cholera toxin B suppresses allergic inflammation through induction of secretory IgA. Mucosal Immunology 2(4): 331-339
Mattsson, J.; Schön, K.; Ekman, L.; Fahlén-Yrlid, L.; Yrlid, U.; Lycke, N.Y. 2015: Cholera toxin adjuvant promotes a balanced Th1/Th2/Th17 response independently of IL-12 and IL-17 by acting on Gsα in CD11b⁺ DCs. Mucosal Immunology 8(4): 815-827
Blank, N.; Schiller, M.; Krienke, S.; Wabnitz, G.; Ho, A.D.; Lorenz, H-Martin. 2007: Cholera toxin binds to lipid rafts but has a limited specificity for ganglioside GM1. Immunology and Cell Biology 85(5): 378-382
Mekalanos, J.J.; Swartz, D.J.; Pearson, G.D.; Harford, N.; Groyne, F.; de Wilde, M. 1983: Cholera toxin genes: nucleotide sequence, deletion analysis and vaccine development. Nature 306(5943): 551-557
Sun, S.; Jiang, S.; Wang, J.; Chen, C.; Han, S.; Che, H. 2020: Cholera toxin induces food allergy through Th2 cell differentiation which is unaffected by Jagged2. Life Sciences 263: 118514
Xia, Q.; Deng, A-mei.; Wu, S-shan.; Zheng, M. 2011: Cholera toxin inhibits human hepatocarcinoma cell proliferation in vitro via suppressing ATX/LPA axis. Acta Pharmacologica Sinica 32(8): 1055-1062
Sultzer, B.M.; Craig, J.P. 1973: Cholera toxin inhibits macromolecular synthesis in mouse spleen cells. Nature: new Biology 244(136): 178-180
Shah, B.H. 1999: Cholera toxin mediated regulation of the expression of Gq alpha and G11 alpha GTP binding proteins. Experimental and Molecular Medicine 31(2): 89-94
Safa, A.; Jime, J.S.; Shahel, F. 2020: Cholera toxin phage: structural and functional diversity between Vibrio cholerae biotypes. Aims Microbiology 6(2): 144-151
Rivera-Chávez, F.; Mekalanos, J.J. 2019: Cholera toxin promotes pathogen acquisition of host-derived nutrients. Nature 572(7768): 244-248
Sachinidis, A.; Seul, C.; Gouni-Berthold, I.; Seewald, S.; Ko, Y.; Vetter, H.; Fingerle, J.; Hoppe, J. 2000: Cholera toxin treatment of vascular smooth muscle cells decreases smooth muscle alpha-actin content and abolishes the platelet-derived growth factor-BB-stimulated DNA synthesis. British Journal of Pharmacology 130(7): 1561-1570
Anosova, N.G.; Chabot, S.; Shreedhar, V.; Borawski, J.A.; Dickinson, B.L.; Neutra, M.R. 2008: Cholera toxin, E. coli heat-labile toxin, and non-toxic derivatives induce dendritic cell migration into the follicle-associated epithelium of Peyer's patches. Mucosal Immunology 1(1): 59-67
Nelson, E.J.; Harris, J.B.; Morris, J.Glenn.; Calderwood, S.B.; Camilli, A. 2009: Cholera transmission: the host, pathogen and bacteriophage dynamic. Nature Reviews. Microbiology 7(10): 693-702
Boelaert, M.; Suetens, C.; van Soest, M.; Henkens, M.; Rigal, J.; de Graaf, P. 1995: Cholera treatment in Goma. Lancet 345(8964): 1567
Pelly, M.D.; Besse, C. 1995: Cholera treatment in Goma. Lancet 345(8964): 1567-1568
Anand, J.K. 1995: Cholera treatment in Goma. Lancet 345(8964): 1568
Cyranoski, D. 2011: Cholera vaccine plan splits experts. Nature 469(7330): 273-274
Kourilsky, R.; Halpern, B.; Gaudin, O. 1949: Choleraic action of a new sulfur-derived derivative with physiological and therapeutic effects. Bruxelles Medical 29(20): 1081-1087
Kalow, W. 1949: Choleresis by synthetic means; on the comparative physiology and pharmacology of bile secretion. Naunyn-Schmiedebergs Archiv für Experimentelle Pathologie und Pharmakologie 206(1): 43-48
Kalow, W. 1949: Choleresis by synthetic means; quantitative and qualitative effect of phenylmethylcarbinol in the rat. Naunyn-Schmiedebergs Archiv für Experimentelle Pathologie und Pharmakologie 206(1): 35-42
Meeroff, M. 1957: Choleretics. Prensa Medica Argentina 44(4): 282-289
Grossi, F. 1962: Choleretics. La Clinica Terapeutica 22: 843-862
Kohlstaedt, E. 1947: Choleretics, Cholekinetics and Cholagoga. Die Pharmazie 2(12): 529-536
Bertoye, P. 1952: Choleriform toxic states in infants. Lyon Medical 187(49): 357-364
Bertoye, P. 1952: Choleriform toxic states in infants. Lyon Medical 187(50): 373-376 Concl
Rodrigue, P.; Nepal, P.; Assaker, R. 2020: Cholescintigraphy for Differentiation of True Duodenal Obstruction from Pseudo Obstruction. Journal of Nuclear Medicine Technology 48(4): 344-345
Sevilla Mantilla, C.; Ruiz de León San Juan, A.; Pérez de la Serna y Bueno, A.; Taxonera Samsó, C. 1992: Cholestasis. Medicina Clinica 98(2): 77
García Paredes, J. 1989: Cholestasis. Revista Clinica Espanola 185(3): 111-112
Buscher, H.P. 1988: Cholestasis. Ergebnisse der Inneren Medizin und Kinderheilkunde 56: 33-71
Jinich, H. 1982: Cholestasis. Revista de Gastroenterologia de Mexico 47(3): 165-178
Pinto Correia, J. 1981: Cholestasis. Acta Medica Portuguesa Suppl 3: 3-7
Scheiman, J.M.; Moseley, R.H. 1994: Cholestasis. Comprehensive Therapy 20(1): 28-35
Brodanová, M. 2003: Cholestasis. Vnitrni Lekarstvi 49(8): 689-695
Eslimi Esfahani, D.; Zarrindast, M.R. 2021: Cholestasis and behavioral disorders. Gastroenterology and Hepatology from Bed to Bench 14(2): 95-107
Huang, Y-Hsien.; Chuang, J-Haur.; Yang, Y-Ling.; Huang, C-Cheng.; Wu, C-Ling.; Chen, C-Long. 2009: Cholestasis downregulate hepcidin expression through inhibiting IL-6-induced phosphorylation of signal transducer and activator of transcription 3 signaling. Laboratory Investigation; a Journal of Technical Methods and Pathology 89(10): 1128-1139
Irungbam, K.; Roderfeld, M.; Glimm, H.; Hempel, F.; Schneider, F.; Hehr, L.; Glebe, D.; Churin, Y.; Morlock, G.; Yüce, I.; Roeb, E. 2020: Cholestasis impairs hepatic lipid storage via AMPK and CREB signaling in hepatitis B virus surface protein transgenic mice. Laboratory Investigation; a Journal of Technical Methods and Pathology 100(11): 1411-1424
Arthur Lorio, E.; Valadez, D.; Alkhouri, N.; Loo, N. 2020: Cholestasis in Benign Recurrent Intrahepatic Cholestasis 2. Acg Case Reports Journal 7(6): E00412
Javitt, N.B. 1966: Cholestasis in rats induced by taurolithocholate. Nature 210(5042): 1262-1263
Potter, C.J. 2020: Cholestasis in the Premature Infant. Clinics in Perinatology 47(2): 341-354
Cabrera-Rubio, R.; Patterson, A.M.; Cotter, P.D.; Beraza, N. 2019: Cholestasis induced by bile duct ligation promotes changes in the intestinal microbiome in mice. Scientific Reports 9(1): 12324
Lang, E.; Pozdeev, V.I.; Shinde, P.V.; Xu, H.C.; Sundaram, B.; Zhuang, Y.; Poschmann, G.; Huang, J.; Stühler, K.; Pandyra, A.A.; Keitel, V.; Häussinger, D.; Lang, K.S.; Lang, P.A. 2018: Cholestasis induced liver pathology results in dysfunctional immune responses after arenavirus infection. Scientific Reports 8(1): 12179
Caughey, A.B. 2006: Cholestasis of pregnancy: in need of a more rapid diagnosis. Journal of Perinatology: Official Journal of the California Perinatal Association 26(9): 525-526
Langedijk, J.A.G.M.; Beuers, U.H.; Oude Elferink, R.P.J. 2021: Cholestasis-Associated Pruritus and its Pruritogens. Frontiers in Medicine 8: 639674
Haddaden, M.; Hanna, A.; Odish, F.; Husami, S.; Imam, Z.; Tahhan, M. 2021: Cholestatic Hepatitis in Graves' Disease: a Diagnostic Challenge. Acg Case Reports Journal 8(1): E00526
Hilscher, M.B.; Kamath, P.S.; Eaton, J.E. 2020: Cholestatic Liver Diseases: a Primer for Generalists and Subspecialists. Mayo Clinic Proceedings 95(10): 2263-2279
Hargreaves, T. 1965: Cholestatic drugs and bilirubin metabolism. Nature 206(980): 154-156
Papachristou, G.I.; Demetris, A.J.; Craig, F.; Lee, K.K.W.; Rabinovitz, M. 2004: Cholestatic jaundice and bone lesions in an elderly woman. Nature Clinical Practice. Gastroenterology and Hepatology 1(1): 53-7; Quiz 1 P Following 57
van der Horst, J.J. 1994: Cholestatic jaundice caused by amoxicillin-clavulanic acid in 4 patients. Nederlands Tijdschrift Voor Geneeskunde 138(38): 1919; Author Reply 1919-20
Hanssens, M.; Mast, A.; Van Maele, V.; Pauwels, W. 1994: Cholestatic jaundice caused by amoxicillin-clavulanic acid in 4 patients. Nederlands Tijdschrift Voor Geneeskunde 138(29): 1481-1483
Baszczyński, J.; Jeske, J.; Sysa, A. 1968: Cholestatic jaundice in infants. Wiadomosci Lekarskie 21(10): 821-823
Xu, G.; Dai, M.; Zheng, X.; Lin, H.; Liu, A.; Yang, J. 2020: Cholestatic models induced by lithocholic acid and α‑naphthylisothiocyanate: Different etiological mechanisms for liver injury but shared JNK/STAT3 signaling. Molecular Medicine Reports 22(2): 1583-1593
Chaudhry, S.; Oelsner, D. 1995: Cholestatic reaction to warfarin. American Journal of Gastroenterology 90(5): 853
Finegold, M.J. 1976: Cholestatic syndromes in infancy. Perspectives in Pediatric Pathology 3: 41-84
Hochstatter, E. 1967: Cholesteatoma. Acta Oto-Rhino-Laryngologica Belgica 21(1): 48-56
Preobrazhenskiĭ, N.A. 1982: Cholesteatoma. Vestnik Otorinolaringologii 5: 68-71
Aybas, A. 1959: Cholesteatoma. Tip Fakultesi Mecmuasi 22: 1059-1067
Caponetti, G.; Thompson, L.D.; Pantanowitz, L. 2009: Cholesteatoma. Ear Nose and Throat Journal 88(11): 1196-1198
Murphy, L. 1946: Cholesteatoma. Clinical Proceedings - Children's Hospital of the District of Columbia 2(10-11): 273-276
Djalilian, H.; Borrelli, M.; Desales, A. 2021: Cholesteatoma Causing a Horizontal Semicircular Canal Fistula. Ear Nose and Throat Journal 100(6_suppl): 888s-891s
Miwa, T.; Takeda, H.; Minoda, R. 2021: Cholesteatoma Imaging Using a Digital Image Enhancement System During Endoscopic Ear Surgery. Otology and Neurotology: Official Publication of the American Otological Society American Neurotology Society and European Academy of Otology and Neurotology 42(2): E244
He, G.; Zhu, Z.; Xiao, W.; Wei, R.; Chen, L.; Xu, Y.; Liu, P.; Li, H. 2020: Cholesteatoma debridement for primary external auditory canal cholesteatoma with non-extensive bone erosion. Acta Oto-Laryngologica 140(10): 823-826
Thomas, G.L. 1968: Cholesteatoma of the ear. California Medicine 108(3): 205-208
Gignoux, M.; Ricard, A.; Bonnefoy, J. 1957: Cholesteatoma of the ear. Les Annales d'Oto-Laryngologie 74(4-5): 345-348
Lepage, G. 1958: Cholesteatoma of the ear. Acta Neurologica et Psychiatrica Belgica 58(8): 725-752
Schwarz, M. 1962: Cholesteatoma of the ear. Zeitschrift für Laryngologie Rhinologie Otologie und ihre Grenzgebiete 41: 83-98
Lau, T.; Tos, M. 1988: Cholesteatoma of the ear in children. Ugeskrift for Laeger 150(18): 1100-1103
Shuster, M.A.; Sal'nikova, E.A.; Pogosian, M.G.; Sheverdova, L.A. 1984: Cholesteatoma of the ear in children. Vestnik Otorinolaringologii 1: 68-71
Jordan, J. 1979: Cholesteatoma of the frontal sinus. Otolaryngologia Polska 33(4): 441-444
Timoshenko, P.A. 1978: Cholesteatoma of the frontal sinus. Zhurnal Ushnykh Nosovykh i Gorlovykh Boleznei 2: 99-100
Calcaterra, T.C.; Schwartz, H.E. 1976: Cholesteatoma of the frontal sinus. TRANSACTIONS. Section on Otolaryngology. American Academy of Ophthalmology and Otolaryngology 82(5): 579-581
Ivanov, V.P. 1976: Cholesteatoma of the frontal sinus. Vestnik Otorinolaringologii 1: 81-82
Bobrov, V.M.; Malinin, M.I. 1994: Cholesteatoma of the frontal sinus. Vestnik Otorinolaringologii 3: 42-43
De Vido, G. 1953: Cholesteatoma of the frontal sinus. L'Oto-Rino-Laringologia Italiana 21(6): 460-470
Palacios, E.; Robertson, H. 2005: Cholesteatoma of the maxillary sinus. Ear Nose and Throat Journal 84(12): 758
Viswanatha, B.; Nayak, L.K.; Karthik, S. 2007: Cholesteatoma of the maxillary sinus. Ear Nose and Throat Journal 86(6): 351-353
Seijas Rosales, T.; Dalmau Galofré, J.; Faubel Serra, M. 1986: Cholesteatoma of the maxillary sinus. Apropos of a case. Anales Otorrinolaringologicos Ibero-Americanos 13(6): 585-592
Khechinashvili, S.N. 1984: Cholesteatoma of the middle ear. Vestnik Otorinolaringologii 1: 46-49
Tato, J.M. 1980: Cholesteatoma of the middle ear. Revue de Laryngologie - Otologie - Rhinologie 101(11-12): 539-553
Mazza, A. 1951: Cholesteatoma of the middle ear. Archivio di Radiologia 27(4): 471-472
Da ROCHA, R. 1960: Cholesteatoma of the middle ear. Medicina Cirurgia Farmacia 285: 1-14
Matschnig, F. 1947: Cholesteatoma of the middle ear and scalp. MonatsschriftfürOhrenheilkundeundLaryngo-Rhinologie 81(5): 274
Sheehy, J.L. 1980: Cholesteatoma surgery in children. Acta Oto-Rhino-Laryngologica Belgica 34(1): 98-106
Dudau, C.; Draper, A.; Gkagkanasiou, M.; Charles-Edwards, G.; Pai, I.; Connor, S. 2019: Cholesteatoma: multishot echo-planar vs non echo-planar diffusion-weighted MRi for the prediction of middle ear and mastoid cholesteatoma. Bjr Open 1(1): 20180015
Washington, E.J. 1948: Cholesteatomas. Manitoba Medical Review 28(2): 82
Majer, E.H. 1947: Cholesteatomotitis, skull base fracture, labyrinthogenic meningitis, labyrinth surgery, healing. MonatsschriftfürOhrenheilkundeundLaryngo-Rhinologie 81(1): 42
Knuchel, F.; Ball, F. 1948: Cholestenone test instead of the Kephalin test for liver function diagnosis. Arztliche Forschung 2(21): 131
Wei, W.; Farooq, M.A.; Xiong, H. 2021: Cholesteric Liquid Crystalline Polyether with Broad Tunable Circularly Polarized Luminescence. Langmuir: the Acs Journal of Surfaces and Colloids 37(40): 11922-11930
Petriashvili, G.; Chanishvili, A.; Wardosanidze, Z. 2021: Cholesteric liquid crystal mirror-based imaging Stokes polarimeter. Applied Optics 60(11): 3187-3191
Wang, S.; Li, W.; Hui, H.; Tiwari, S.K.; Zhang, Q.; Croker, B.A.; Rawlings, S.; Smith, D.; Carlin, A.F.; Rana, T.M. 2020: Cholesterol 25-Hydroxylase inhibits SARS-CoV-2 and other coronaviruses by depleting membrane cholesterol. Embo Journal 39(21): E106057
Davidson, J.; Rotondo, D. 2021: Cholesterol 25-hydroxylase expression following immune activation in response to SARS-CoV-2 infection. Current Opinion in Lipidology 32(4): 266-267
Zhu, H.; Yan, J.; Liu, X.; Li, L.; Liu, W.; Wang, X.; Jiang, P.; Bai, J. 2021: Cholesterol 25-hydroxylase inhibits Senecavirus a replication by enzyme activity-dependent and independent mechanisms. Veterinary Microbiology 256: 109038
Li, S.; Li, L.; Zhu, H.; Shi, M.; Fan, H.; Gao, Y.; Wang, X.; Jiang, P.; Bai, J. 2020: Cholesterol 25-hydroxylase inhibits encephalomyocarditis virus replication through enzyme activity-dependent and independent mechanisms. Veterinary Microbiology 245: 108658
Takahashi, H.; Nomura, H.; Iriki, H.; Kubo, A.; Isami, K.; Mikami, Y.; Mukai, M.; Sasaki, T.; Yamagami, J.; Kudoh, J.; Ito, H.; Kamata, A.; Kurebayashi, Y.; Yoshida, H.; Yoshimura, A.; Sun, H.W.; Suematsu, M.; O'Shea, J.J.; Kanno, Y.; Amagai, M. 2021: Cholesterol 25-hydroxylase is a metabolic switch to constrain T cell-mediated inflammation in the skin. Science Immunology 6(64): Eabb 6444
Sheng, N.; Ma, Z.; Zhou, Y.; Xu, J.; Gao, Y.; Fu, X-Yuan. 2020: Cholesterol 25-hydroxylase protects against experimental colitis in mice by modulating epithelial gut barrier function. Scientific Reports 10(1): 14246
Van Lier, J.E.; Kan, G. 1972: Cholesterol 26-hydroperoxide. Journal of Organic Chemistry 37(1): 145-148
Kai, M.; Yamada, M.; Nagatomo, J.; Setoguchi, T. 2001: Cholesterol 7 alpha-hydroxylase. Nihon Rinsho. Japanese Journal of Clinical Medicine 59(Suppl 2): 183-192
Najafinobar, N.; Mellander, L.J.; Kurczy, M.E.; Dunevall, J.; Angerer, T.B.; Fletcher, J.S.; Cans, A-Sofie. 2016: Cholesterol Alters the Dynamics of Release in Protein Independent Cell Models for Exocytosis. Scientific Reports 6: 33702
Martyna, A.; Bahsoun, B.; Madsen, J.J.; Jackson, F.S.J.S.; Badham, M.D.; Voth, G.A.; Rossman, J.S. 2020: Cholesterol Alters the Orientation and Activity of the Influenza Virus M2 Amphipathic Helix in the Membrane. Journal of Physical Chemistry. B 124(31): 6738-6747
Kugel, S.; Hingorani, S.R. 2020: Cholesterol Biosynthesis Influences Subtype Specificity and Plasticity in Pancreas Cancer. Cancer Cell 38(4): 443-445
Torralba, J.; de la Arada, I.; Carravilla, P.; Insausti, S.; Rujas, E.; Largo, E.; Eggeling, C.; Arrondo, J.é L.R.; Apellániz, B.; Nieva, J.é L. 2020: Cholesterol Constrains the Antigenic Configuration of the Membrane-Proximal Neutralizing HIV-1 Epitope. Acs Infectious Diseases 6(8): 2155-2168
Nishi, T.; Tokuda, Y.; Tanaka, A.; Furusawa, K.; Miki, Y.; Tobe, A.; Murohara, T.; Usui, A. 2020: Cholesterol Crystal Embolization After Transcatheter Aortic Valve Replacement. Circulation Reports 2(11): 701-702
Silva, G.B.; Gierman, L.M.; Rakner, J.J.; Stødle, G.S.; Mundal, S.B.; Thaning, A.J.; Sporsheim, B.ør.; Elschot, M.; Collett, K.; Bjørge, L.; Aune, M.H.; Thomsen, L.C.V.; Iversen, A.-C. 2020: Cholesterol Crystals and NLRP3 Mediated Inflammation in the Uterine Wall Decidua in Normal and Preeclamptic Pregnancies. Frontiers in Immunology 11: 564712
Mandal, P.; Noutsi, P.; Chaieb, S. 2016: Cholesterol Depletion from a Ceramide/Cholesterol Mixed Monolayer: A Brewster Angle Microscope Study. Scientific Reports 6: 26907
Havlíková, M.; Szabová, J.; Mravcová, L.; Venerová, T.; Chang, C.-H.; Pekař, M.; Jugl, A.; Mravec, F. 2021: Cholesterol Effect on Membrane Properties of Cationic Ion Pair Amphiphile Vesicles at Different Temperatures. Langmuir: the Acs Journal of Surfaces and Colloids 37(7): 2436-2444
Muzio, M.D.; Millan-Solsona, R.; Borrell, J.H.; Fumagalli, L.; Gomila, G. 2020: Cholesterol Effect on the Specific Capacitance of Submicrometric DOPC Bilayer Patches Measured by in-Liquid Scanning Dielectric Microscopy. Langmuir: the Acs Journal of Surfaces and Colloids 36(43): 12963-12972
Lee, S.; Park, J.M.; Ann, S.-J.; Kang, M.; Cheon, E.J.; An, D.B.; Choi, Y.R.; Lee, C.J.; Oh, J.; Park, S.; Kang, S.-M.; Lee, S.-H. 2021: Cholesterol Efflux and Collateral Circulation in Chronic Total Coronary Occlusion: Effect-Circ Study. Journal of the American Heart Association 10(5): E019060
Low, H.; Mukhamedova, N.; Capettini, L.D.S.A.; Xia, Y.; Carmichael, I.; Cody, S.H.; Huynh, K.; Ditiatkovski, M.; Ohkawa, R.; Bukrinsky, M.; Meikle, P.J.; Choi, S.-H.; Field, S.; Miller, Y.I.; Sviridov, D. 2020: Cholesterol Efflux-Independent Modification of Lipid Rafts by AIBP (Apolipoprotein A-i Binding Protein). Arteriosclerosis Thrombosis and Vascular Biology 40(10): 2346-2359
Kojima, R.; Harada, M.; Yamaguchi, A.; Hashimoto, K.; Kamijo, Y. 2020: Cholesterol Emboli Co-Existing with Anti-Neutrophil Cytoplasmic Antibody-Associated Vasculitis in a 76-Year-Old Woman. Tohoku Journal of Experimental Medicine 251(1): 61-68
Pandit, A.K.; Ohshima, T.; Kawaguchi, R.; Srivastava, M.P.; Miyachi, S. 2020: Cholesterol Embolization Syndrome After Carotid Artery Stenting Associated with Delayed Cerebral Hyperperfusion Intracerebral Hemorrhage. World Neurosurgery 142: 274-282
Francke, M.I.; Clahsen-van Groningen, M.C.; van den Bosch, T.P.P.; Becker, J.U.; Hesselink, D.A. 2021: Cholesterol Embolization Syndrome After Kidney Transplantation: a Case Series and Systematic Review. Transplantation Direct 7(7): E717
Nickol, J.; Richards, T.; Mullins, J. 2020: Cholesterol Embolization Syndrome from Penetrating Aortic Ulcer. Cureus 12(6): E8670
Ashman, P.E.; Jyung, R.W. 2022: Cholesterol Granuloma of the External Auditory Canal and Skull Base. Ear Nose and Throat Journal 101(2): Np36-Np38
Bahri, H.; Chassagne-Clement, C.; Michallet, A.-S.; Mognetti, T.; Nicolas-Virelizier, E. 2021: Cholesterol Granuloma: Unusual Pitfall for Hodgkin Lymphoma Evaluation with 18F-FDG PET/CT. Clinical Nuclear Medicine 46(10): E518-E520
Meng, Y.; Heybrock, S.; Neculai, D.; Saftig, P. 2020: Cholesterol Handling in Lysosomes and Beyond. Trends in Cell Biology 30(6): 452-466
Pikuleva, I.A.; Cartier, N. 2021: Cholesterol Hydroxylating Cytochrome P450 46A1: from Mechanisms of Action to Clinical Applications. Frontiers in Aging Neuroscience 13: 696778
Bergstrand, C.G. 1949: Cholesterol in the Adrenal Glands, Especially with Regard to the Effect of Testosterone on the Adrenal Cortex. Nordisk Medicin 41(14): 653
Kaminsky-Kolesnikov, Y.; Rauchbach, E.; Abu-Halaka, D.; Hahn, M.; García-Ruiz, C.; Fernandez-Checa, J.C.; Madar, Z.; Tirosh, O. 2020: Cholesterol Induces Nrf-2- and HIF-1α-Dependent Hepatocyte Proliferation and Liver Regeneration to Ameliorate Bile Acid Toxicity in Mouse Models of NASH and Fibrosis. Oxidative Medicine and Cellular Longevity 2020: 5393761
Kwon, B.; Mandal, T.; Elkins, M.R.; Oh, Y.; Cui, Q.; Hong, M. 2020: Cholesterol Interaction with the Trimeric HIV Fusion Protein gp41 in Lipid Bilayers Investigated by Solid-State NMR Spectroscopy and Molecular Dynamics Simulations. Journal of Molecular Biology 432(16): 4705-4721
Van Aalst, E.; Wylie, B.J. 2021: Cholesterol Is a Dose-Dependent Positive Allosteric Modulator of CCR3 Ligand Affinity and G Protein Coupling. Frontiers in Molecular Biosciences 8: 724603
Kurth, M.; Lolicato, F.; Sandoval-Perez, A.; Amaya-Espinosa, H.; Teslenko, A.; Sinning, I.; Beck, R.; Brügger, B.; Aponte-Santamaría, C. 2020: Cholesterol Localization around the Metabotropic Glutamate Receptor 2. Journal of Physical Chemistry. B 124(41): 9061-9078
Ohman, E.M.; Nanna, M.G. 2021: Cholesterol Lowering and Coronary Revascularization: Finally a Marriage to Sustain?. Journal of the American College of Cardiology 77(3): 268-270
Zhang, H.; Zhao, W.; Li, X.; He, Y. 2021: Cholesterol Metabolism as a Potential Therapeutic Target and a Prognostic Biomarker for Cancer Immunotherapy. Oncotargets and Therapy 14: 3803-3812
Gabitova-Cornell, L.; Surumbayeva, A.; Peri, S.; Franco-Barraza, J.; Restifo, D.; Weitz, N.; Ogier, C.; Goldman, A.R.; Hartman, T.R.; Francescone, R.; Tan, Y.; Nicolas, E.; Shah, N.; Handorf, E.A.; Cai, K.Q.; O'Reilly, A.M.; Sloma, I.; Chiaverelli, R.; Moffitt, R.A.; Khazak, V.; Fang, C.Y.; Golemis, E.A.; Cukierman, E.; Astsaturov, I. 2020: Cholesterol Pathway Inhibition Induces TGF-β Signaling to Promote Basal Differentiation in Pancreatic Cancer. Cancer Cell 38(4): 567-583.E11
Scheepers, R.él.; Pettet, G.J.; van Heijster, P.; Araujo, R.P. 2020: Cholesterol Regulation in Age-Related Macular Degeneration: a Framework for Mathematical Modelling of Drusen Biogenesis. Bulletin of Mathematical Biology 82(10): 135
Schade, D.S.; Shey, L.; Eaton, R.P. 2020: Cholesterol Review: a Metabolically Important Molecule. Endocrine Practice: Official Journal of the American College of Endocrinology and the American Association of Clinical Endocrinologists 26(12): 1514-1523
Koizume, S.; Takahashi, T.; Yoshihara, M.; Nakamura, Y.; Ruf, W.; Takenaka, K.; Miyagi, E.; Miyagi, Y. 2019: Cholesterol Starvation and Hypoxia Activate the FVIi Gene via the SREBP1-GILZ Pathway in Ovarian Cancer Cells to Produce Procoagulant Microvesicles. Thrombosis and Haemostasis 119(7): 1058-1071
Cai, Y.-X.; Zhang, B.-L.; Yu, M.; Yang, Y.-C.; Ao, X.; Zhu, D.; Wang, Q.-S.; Lou, J.; Liang, C.; Tang, L.-L.; Wu, M.-M.; Zhang, Z.-R.; Ma, H.-P. 2021: Cholesterol Stimulates the Transient Receptor Potential Melastatin 4 Channel in mpkCCDc14 Cells. Frontiers in Pharmacology 12: 627875
Roberts, R. 2020: Cholesterol Surprisingly Also Induces Ventricular Hypertrophy. Journal of the American College of Cardiology 76(21): 2489-2491
Chu, B.-B.; Liao, Y.-C.; Qi, W.; Xie, C.; Du, X.; Wang, J.; Yang, H.; Miao, H.-H.; Li, B.-L.; Song, B.-L. 2021: Cholesterol Transport through Lysosome-Peroxisome Membrane Contacts. Cell 184(1): 289