Journal: Molecular Pharmaceutics
Article Title: Liver-on-a-Chip (LoC) Models: Case Studies of Academic Platforms and Commercial Products
doi: 10.1021/acs.molpharmaceut.5c01122
Figure Lengend Snippet: a) Comparison between in vitro conventional culture methods and those with Exoliver design: (i) HCs monoculture in Petri dish. (ii) Coculture (HCs and LSECs) in transwell. (iii) Dynamic coculture system within Exoliver, stimulated with continuous and homogeneous shear stress (optimal condition). (iv) Static coculture within Exoliver without shear stress, leading to LSEC dysfunction and (v) Dynamic monoculture system, reprinted from ref and licensed under CC BY Copyright 2018 Wiley. b) Diagram of a 3D sinusoidal LoC model. (i) microfluidic PDMS chip PDMS with collagen-I coated polyester membrane. (ii) 3D assembly of four types of cells: LSECs, KCs, HSCs, and HCs. (iii) Photographic image of the chip, reprinted from ref with permission from the Royal Society of Chemistry. c) Other sinusoid-like LoC platforms comprising (i) single-channel and dual-channel microfluidic configurations; and (ii) a bioreactor circuit for continuous media perfusion and waste collection, reprinted from ref . Copyright 2015 Wiley.
Article Snippet: MIMETAS microfluidic platforms, known as OrganoPlate family, were designed specifically for 3D tissue cultivation, which involves embedding cells in a gel matrix to mimic the operation of human organs.
Techniques: Comparison, In Vitro, Shear, Membrane