Experimental Cholestasis Research

Mechanisms of Drug-Induced Cholestasis.- LC-MS/MS Analysis of Bile Acids in In Vitro Samples.- Pipe-3D: A Pipeline Based on Immunofluorescence, 3D Confocal Imaging, Reconstructions, and Morphometry for Biliary Network Analysis in Cholestasis.- Vesicle-Based and Hepatocyte-Based Assays for Identification of Drug Candidates Inhibiting BSEP Function.- The C-DILI™ Assay: An Integrated In Vitro Approach to Predict Cholestatic Hepatotoxicity.- In Vivo Measurement of Hepatic Drug Transporter Inhibition with Radiolabeled Bile Acids.- Measuring the Impact of Bile Acids on the Membrane Order of Primary Hepatocytes and Isolated Mitochondria by Fluorescence Imaging and Spectroscopy.- The Role and Study of Mitochondrial Impairment and Oxidative Stress in Cholestasis.- Measuring Apoptosis and Necrosis in Cholestatic Liver Injury.- Necrosome Formation and Necroptosis in Experimental Cholestasis.- Proteomics in Primary Biliary Cholangitis.- Transcriptomics Analysis of Cholestatic Compounds In Vitro.- Systems Microscopy of Stress Response Pathways in Cholestasis Research.- Mouse Models for Diseases in the Cholangiocyte Lineage.- Common Bile Duct Ligation as Model for Secondary Biliary Cirrhosis.- 3,5-Diethoxycarbonyl-1,4-Dihydrocollidine Diet: A Rodent Model in Cholestasis Research.- A Rotavirus-Induced Mouse Model to Study Biliary Atresia and Neonatal Cholestasis.- Zebrafish as a Model to Study Cholestatic Liver Diseases.- Set-Up and Use of HepaRG Cells in Cholestasis Research.- Organotypic 3D HepaRG Liver Model for Assessment of Drug-Induced Cholestasis.- Establishment of Sandwich Cultures of Primary Human Hepatocytes.- Detection of Drug-Induced Cholestasis Potential in Sandwich-Cultured Human Hepatocytes.- Ex Vivo Model in Cholestasis Research.- Patient-Derived Organoids from Human Bile: An In Vitro Method to Study Cholangiopathies.- Use of Biliary Organoids in Cholestasis Research.- In Silico Approaches to Predict Drug-Transporter Interaction Profiles: Data Mining, Model Generation, and Link to Cholestasis.