Add to ORKGThe term organ on a chip is used to describe the latest stage of development of in vitro cell culture technology. Figure 26.1 shows its steady development since the 1960s. Each step forward has improved our ability to model human-clinical response to new drugs or therapies and has enabled safety risk assessment of existing cosmetics, personal care products, or other chemicals in the environment. Scientific evidence that the predictive power of in vitro tests is superior to the use of animals will trigger a major shift in the way that medical research, in many areas, is carried out. In this emerging field, some researchers also refer to organ on a chip as a microphysiological system. As yet, there are few agreed upon standards or definitions...
Current biomedical models fail to replicate the complexity of human biology. Consequently, almost 90...
Lab-on-chip systems are microfluidic devices that can be used as powerful tools for research in fiel...
Organ-on-chip systems integrate microfluidic technology and living cells to study human physiology ...
The term organ on a chip is used to describe the latest stage of development of in vitro cell cultur...
Research on alternatives to the use of animal models and cell cultures has led to the creation of or...
International audienceOver the decades, conventional in vitro culture systems and animal models have...
Organs-on-chips (OoCs) could be useful at various stages of drug discovery and development, providin...
For centuries, animal experiments have contributed much to our understanding of mechanisms of human ...
Tissue and organ on chip (TOC) have been developed to permit the study of human physiology in a tiss...
Copyright: © 2021 by the authors. Drug and chemical development along with safety tests rely on the ...
We guide the use of organ-on-chip technology in tissue engineering applications. Organ-on-chip techn...
In vitro models of biological tissues are indispensable tools for unraveling human physiology and pa...
The advent of the miniaturization approach has influenced the research trends in almost all discipli...
The advent of the miniaturization approach has influenced the research trends in almost all discipli...
AbstractMicrophysiological systems (organs-on-chips, tissue chips) are devices designed to recapitul...
Current biomedical models fail to replicate the complexity of human biology. Consequently, almost 90...
Lab-on-chip systems are microfluidic devices that can be used as powerful tools for research in fiel...
Organ-on-chip systems integrate microfluidic technology and living cells to study human physiology ...
The term organ on a chip is used to describe the latest stage of development of in vitro cell cultur...
Research on alternatives to the use of animal models and cell cultures has led to the creation of or...
International audienceOver the decades, conventional in vitro culture systems and animal models have...
Organs-on-chips (OoCs) could be useful at various stages of drug discovery and development, providin...
For centuries, animal experiments have contributed much to our understanding of mechanisms of human ...
Tissue and organ on chip (TOC) have been developed to permit the study of human physiology in a tiss...
Copyright: © 2021 by the authors. Drug and chemical development along with safety tests rely on the ...
We guide the use of organ-on-chip technology in tissue engineering applications. Organ-on-chip techn...
In vitro models of biological tissues are indispensable tools for unraveling human physiology and pa...
The advent of the miniaturization approach has influenced the research trends in almost all discipli...
The advent of the miniaturization approach has influenced the research trends in almost all discipli...
AbstractMicrophysiological systems (organs-on-chips, tissue chips) are devices designed to recapitul...
Current biomedical models fail to replicate the complexity of human biology. Consequently, almost 90...
Lab-on-chip systems are microfluidic devices that can be used as powerful tools for research in fiel...
Organ-on-chip systems integrate microfluidic technology and living cells to study human physiology ...