Custom, made-to-order batch of Human Valvular Interstitial Cells
Fully differentiated HepaRGTM cells supplied in a format that does not require centrifugation following thaw. Each ampule contains ≥8.0 million cells.
Pooled 10-donor, female-only human hepatocytes that are characterized for multiple CYP450, UGT, SULT, and transporter activities. Ideal for drug metabolite identification, characterization, and turnover kinetics.
Pooled 10-donor, male human hepatocytes that are characterized for multiple CYP450, UGT, SULT, and transporter activities. Ideal for drug metabolite identification, characterization, and turnover kinetics.
Pooled 20-donor male only human hepatocytes that are characterized for multiple CYP450, UGT, SULT, and transporter activities. Ideal for drug metabolite identification, characterization, and turnover kinetics.
Pooled 20-donor, female-only human hepatocytes that are characterized for multiple CYP450, UGT, SULT, and transporter activities. Ideal for drug metabolite identification, characterization, and turnover kinetics.
Pooled 50-donor, mixed gender human hepatocytes that are characterized for multiple CYP450, UGT, SULT, and transporter activities. Ideal for drug metabolite identification, characterization, and turnover kinetics.
For efficient transfection of primary HUVECs in the Nucleofector® 2b System
For efficient transfection of primary human microvascular endothelial cells in the Nucleofector® 2b Device
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Primary Liver Endothelial CellsImportance of passage number in measuring the uptake of large molecules
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Instructions - Human Liver Endothelial Cells (HLEC)Instructions for proper use and culture of Human Liver Endothelial Cells
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The Importance of Cell-subtype Selection in Creation of a 3D Liver Fibrosis ModelData sheet detailing 3D liver fibrosis model in collaboration with Visikol
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Engineering Culture Platforms to Mimic Liver DiseasesLearn from Dr. Salman Khetani, University of Illinois at Chicago, how multiple liver cell-types including hepatocytes, Kupffer, stellate, and endothelial cells can be engineered together to model human liver disease phenotypes in culture. -
Endothelial Cells Concentration Guide
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NPCs Hepatic Non-Parenchymal CellsThese additional liver cell types provide a complete building set supporting complex cell culture modeling. Applications include developing more physiologically relevant in vitro models for complex liver diseases and toxicity testing of new drugs and chemicals.
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Metabolism_Brochure_CoBrand_FormThis is a co-marketing form for distributors. There is a restricted space on the cover next to the Lonza logo and on the back below the market bar. Art for placement MUST be a PDF. In addition there is space on the back cover for a web address at the top and contact and disclaimers. Please look for the instruction PDF in the literature DB Article number CD-FO006Inst
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Tech/Instruction Sheet - Cond. Immo. HMVEC-BrTechnical information and instructions for culturing CloneticsTM Conditionally Immortalized Human Brain Microvascular Endothelial Cell
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TechSheet - Aortic Endothelial Cell SystemsTechnical information sheet for Clonetics™ Aortic Endothelial Cells
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A Novel In Vitro Liver Cell Culture Flow System Allowing Long-Term Metabolism and Hepatotoxicity Studies]Manuscript published in Applied In Vitro Toxicology journal describes improvement of CYP450 phenotype of primary cryopreserved hepatocytes using Quasi Vivo® System