Organs-on-chips (OoCs) are biomimetic in vitro systems based on microfluidic cell cultures that recapitulate the in vivo physicochemical microenvironments and the physiologies and key functional units of specific human organs. These systems are versatile and can be customized to investigate organ-specific physiology, pathology, or pharmacology. They are more physiologically relevant than traditional two-dimensional cultures, can potentially replace the animal models or reduce the use of these models, and represent a unique opportunity for the development of personalized medicine when combined with human induced pluripotent stem cells. Continuous monitoring of important quality parameters of OoCs via a label-free, non-destructive, reliable, ...
Despite the progress achieved in nanomedicine during the last decade, the translation of new nanotec...
Organ-on-chip systems are promising new in vitro research tools in medical, pharmaceutical, and biol...
Organ-on-a-chip technology is used to study biological processes that involve multiple cell types an...
As a paradigm shifting player of tissue engineering, organs-on-chips (OOCs) are considered to hold g...
Organs-on-chip (OoC), often referred to as microphysiological systems (MPS), are advanced in vitro t...
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...
Organ-on-a-chip systems areminiaturizedmicrofluidic 3D human tissue and organ models designed to rec...
Organs-on-chips (OoCs) are systems containing engineered or natural miniature tissues grown inside m...
The next generation of chemical toxicity testing will use organs-on-chips (OoCs)—3D cultures of hete...
Organs-on-chips (OOC) are widely seen as being the next generation in vitro models able to accuratel...
Recently, organ-on-a-chips (OoCs) have been proposed as highly innovative, truly predictive tools wi...
For centuries, animal experiments have contributed much to our understanding of mechanisms of human ...
Despite the progress achieved in nanomedicine during the last decade, the translation of new nanotec...
Organ-on-chip systems are promising new in vitro research tools in medical, pharmaceutical, and biol...
Organ-on-a-chip technology is used to study biological processes that involve multiple cell types an...
As a paradigm shifting player of tissue engineering, organs-on-chips (OOCs) are considered to hold g...
Organs-on-chip (OoC), often referred to as microphysiological systems (MPS), are advanced in vitro t...
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...
Organ-on-a-chip systems areminiaturizedmicrofluidic 3D human tissue and organ models designed to rec...
Organs-on-chips (OoCs) are systems containing engineered or natural miniature tissues grown inside m...
The next generation of chemical toxicity testing will use organs-on-chips (OoCs)—3D cultures of hete...
Organs-on-chips (OOC) are widely seen as being the next generation in vitro models able to accuratel...
Recently, organ-on-a-chips (OoCs) have been proposed as highly innovative, truly predictive tools wi...
For centuries, animal experiments have contributed much to our understanding of mechanisms of human ...
Despite the progress achieved in nanomedicine during the last decade, the translation of new nanotec...
Organ-on-chip systems are promising new in vitro research tools in medical, pharmaceutical, and biol...
Organ-on-a-chip technology is used to study biological processes that involve multiple cell types an...