Multiorgan Microphysiological Systems as Tools to Interrogate Interorgan Crosstalk and Complex Diseases

Introduction MPS (Multiorgan Microphysiological Systems) have evolved from tools to reduce animal experimentation and improve preclinical toxicity assessments to an intriguing stepping stone in efforts to replicate our own biology.…

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Melanoma Immunotherapy and Precision Medicine in the Era of Tumor Micro-Tissue Engineering: Where Are We Now and Where Are We Going?

Introduction Melanoma is clearly a complex disease with a high degree of heterogeneity and adaptability. Melanoma cells are part of a larger ecosystem in which the tumor microenvironment influences their…

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Microfluidic organ-on-chip system for multi-analyte monitoring of metabolites in 3D cell cultures

Introduction The researchers created a microfluidic organ-on-chip solution with integrated electrochemical microsensor arrays enabling compartmentalized matrix-based organoid culture from single stem cells and real-time recording of metabolic data. These patient-derived…

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A versatile microfluidic tool for the 3D culture of HepaRG cells seeded at various stages of differentiation

Introduction Animal models and two-dimensional (2D) cell cultures frequently fail to replicate human drug metabolism and liver toxicity in vivo, therefore there is a need for 3D Culture of HepaRG…

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Probing Insulin Sensitivity with Metabolically Competent Human Stem Cell-Derived White Adipose Tissue Microphysiological Systems

Introduction Adipose Tissue is very versatile and essential for studies related to Obesity and Diabetes, however, the high buoyancy, fragility, and heterogeneity of primary adipocytes have largely prevented their use…

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A new microfluidic method enabling the generation of multi-layered tissues-on-chips using skin cells as a proof of concept

Introduction The state of the art for tissues-on-chips using skin cells had been lacking for a long time due to the absence of both an epithelial and a stromal component…

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Pumpless, modular, microphysiological systems enabling tunable perfusion for long-term cultivation of endothelialized lumens

Introduction The authors present a simple and modular Microphysiological system without the use of complex components consisting of 1) a resistance module that controls the flow rate and 2) a…

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Facilitating implementation of organs-on-chips by open platform technology

Introduction Many Organ-on-Chip platforms are still not robust for all cell types, are not reproducible from experiment to experiment or user to user, and should be independently qualified as fit…

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Skin on a chip state of the art

Why a skin on a chip? The skin is the outer envelope of the body. It contains pressure, temperature, and pain sensors and synthesizes vitamin D through sunlight. It is a…

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Three-tissue microphysiological system for studying inflammatory responses in gut-liver Axis

Introduction The gut-liver axis is the bidirectional interaction that exists between the gut and its microbiota, as well as the liver, and is the outcome of the integration of signals…

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Low-cost rapid prototyping and assembly of an open microfluidic device for a 3D vascularized organ-on-a-chip

Introduction In vitro generation of perfusable 3D microvessels is an important goal for tissue engineering and reliable modeling of blood vessel function. In vitro blood vessel models have yet to…

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Co-culture With Human Breast Adipocytes Differentially Regulates Protein Abundance in Breast Cancer Cells

Introduction In postmenopausal women, fat mass and adipose-tissue mass (see Human Breast Adipocytes) are closely linked to obesity and breast cancer. Adipocytes have the ability to modulate the tumor microenvironment…

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