International audienceOver the decades, conventional in vitro culture systems and animal models have been used to study physiology, nutrient or drug metabolisms including mechanical and physiopathological aspects. However, there is an urgent need for Integrated Testing Strategies (ITS) and more sophisticated platforms and devices to approach the real complexity of human physiology and provide reliable extrapolations for clinical investigations and personalized medicine. Organ-on-a-chip (OOC), also known as a microphysiological system, is a state-of-the-art microfluidic cell culture technology that sums up cells or tissue-to-tissue interfaces, fluid flows, mechanical cues, and organ-level physiology, and it has been developed to fill the gap...
Organs-on-chips (OoCs) are biomimetic in vitro systems based on microfluidic cell cultures that reca...
Direct detection and analysis of biomolecules and cells in physiological microenvironment is urgentl...
Organ-on-a-chip (OOC) uses the microfluidic 3D cell culture principle to reproduce organ-or tissue-l...
Over the decades, conventional in vitro culture systems and animal models have been used to study ph...
Organs-on-chips (OoCs), also known as microphysiological systems or ‘tissue chips’ (the terms are sy...
The development of organs-on-chip (OoC) has revolutionized in vitro cell-culture experiments by allo...
Organs-on-chips (OOC) are widely seen as being the next generation in vitro models able to accuratel...
For centuries, animal experiments have contributed much to our understanding of mechanisms of human ...
The development of organs-on-chip (OoC) has revolutionized in vitro cell-culture experiments by allo...
Despite continuous advances in studying human diseases and drug screening methodology, only a small ...
Organs-on-chips (OoCs) are systems containing engineered or natural miniature tissues grown inside m...
In vitro models of biological tissues are indispensable tools for unraveling human physiology and pa...
Stemming from the convergence of tissue engineering and microfluidics, organ-on-chip (OoC) technolog...
Recently, organ-on-a-chips (OoCs) have been proposed as highly innovative, truly predictive tools wi...
A multichannel three-dimensional chip of a microfluidic cell culture which enables the simulation of...
Organs-on-chips (OoCs) are biomimetic in vitro systems based on microfluidic cell cultures that reca...
Direct detection and analysis of biomolecules and cells in physiological microenvironment is urgentl...
Organ-on-a-chip (OOC) uses the microfluidic 3D cell culture principle to reproduce organ-or tissue-l...
Over the decades, conventional in vitro culture systems and animal models have been used to study ph...
Organs-on-chips (OoCs), also known as microphysiological systems or ‘tissue chips’ (the terms are sy...
The development of organs-on-chip (OoC) has revolutionized in vitro cell-culture experiments by allo...
Organs-on-chips (OOC) are widely seen as being the next generation in vitro models able to accuratel...
For centuries, animal experiments have contributed much to our understanding of mechanisms of human ...
The development of organs-on-chip (OoC) has revolutionized in vitro cell-culture experiments by allo...
Despite continuous advances in studying human diseases and drug screening methodology, only a small ...
Organs-on-chips (OoCs) are systems containing engineered or natural miniature tissues grown inside m...
In vitro models of biological tissues are indispensable tools for unraveling human physiology and pa...
Stemming from the convergence of tissue engineering and microfluidics, organ-on-chip (OoC) technolog...
Recently, organ-on-a-chips (OoCs) have been proposed as highly innovative, truly predictive tools wi...
A multichannel three-dimensional chip of a microfluidic cell culture which enables the simulation of...
Organs-on-chips (OoCs) are biomimetic in vitro systems based on microfluidic cell cultures that reca...
Direct detection and analysis of biomolecules and cells in physiological microenvironment is urgentl...
Organ-on-a-chip (OOC) uses the microfluidic 3D cell culture principle to reproduce organ-or tissue-l...