A Microfluidic 3D Endothelium-on-a-Chip Model to Study Transendothelial Migration of T Cells in Health and Disease
Introduction Microfluidic 3D Endothelium-on-a-Chip – The endothelium is a thin membrane that lines the heart and
Organ on Chip
3D Microphysiological System- Vascularized Tissue Constructs for Regenerative Medicine
Introduction Human vascular microphysiological systems (MPS) represent promising three-dimensional in vitro models of normal and diseased vascular tissue.
Organ-on-a-Chip: A New Paradigm for Drug Development
Introduction Organ-on-a-Chip is a potential, multidisciplinary method for in-vitro modeling of disease, drug screening, and precision medicine
A Review of Biomaterials and Scaffold Fabrication for Organ-on-a-Chip Systems
Introduction Biomaterial scaffold like the extracellular matrix (ECM) is the non-cellular component of an organ on
The vascular niche in next generation microphysiological systems
Introduction The phrase ‘vascular niche’ refers to a region rich in blood arteries where endothelial cells
Organ-on-chip applications in drug discovery: an end-user perspective
Introduction Organ-on-a-chip is regarded as a key new technology for research and drug development because it
Advanced Models of Human Muscle Differentiation: 3D Cultures, Organoids & Beyond
Introduction The organization and function of living muscle tissues cannot be fully recapitulated by typical two-dimensional
Kidney Organoids and Microphysiological Kidney Chip Models to Accelerate Drug Development and Reduce Animal Testing
Introduction Kidney Organoid and Microphysiological Kidney Chip Models, both have their own unique advantages and deficiencies.
Beyond Polydimethylsiloxane (PDMS): Alternative Materials for Fabrication of Organ-on-a-Chip Devices and Microphysiological Systems
Introduction DMS, often known as dimethylpolysiloxane or dimethicone, is a silicone polymer. There are various uses
Pharmacokinetics-On-a-Chip: In Vitro Microphysiological Models for Emulating of Drugs ADME
Introduction Microphysiological systems may predict drug pharmacokinetics, effectiveness and toxicity more accurately in humans. Pharmacokinetics-On-a-Chip: In Vitro Microphysiological Models
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