Drug discovery and development to date has relied on animal models, which are useful, but fail to resemble human physiology. The discovery of human induced pluripotent stem (iPS) cells has led to the emergence of a new paradigm of drug screening using human disease-specific organ-models. One promising approach to produce these systems is employing microfluidic devices, which can simulate 3D tissue structure and function. Using microfabrication techniques we have developed two microphysiological platforms (MPSs) that incorporate in vitro models of human cardiac and adipose tissue. Both MPSs consist of three functional components: a tissue culture chamber mimicking geometrical organ-specific in vivo properties; “vasculature-like” media channe...
To advance drug discovery for cardiovascular patients, new pre-clinical models and quantification me...
Modeling the human physiology in vitro is a challenging task, yet one of importance for the developm...
Organ-on-a-chip systems possess a promising future as drug screening assays and as testbeds for dise...
Drug discovery and development to date has relied on animal models, which are useful but are often e...
Patients around the world who suffer from a host of debilitating conditions rely on medications for ...
Better research models are needed to overcome the lack of translatability from preclinical studies i...
Cardiovascular disorders remain a critical health issue worldwide. While animals have been used exte...
Recent advances in human pluripotent stem cell (hPSC) biology enable derivation of essentially any c...
In the past few years, microfluidic-based technology has developed microscale models recapitulating ...
Bioengineered tissues have become increasingly more sophisticated owing to recent advancements in th...
For centuries, animal experiments have contributed much to our understanding of mechanisms of human ...
Current biomedical models fail to replicate the complexity of human biology. Consequently, almost 90...
The vascular system is one of the first to develop during embryogenesis and is essential for all org...
The concept of "Organs-on-Chips" has recently evolved and has been described as 3D (mini-) organs or...
The persistence of cardiovascular diseases as leading global causes of death has spurred attempts to...
To advance drug discovery for cardiovascular patients, new pre-clinical models and quantification me...
Modeling the human physiology in vitro is a challenging task, yet one of importance for the developm...
Organ-on-a-chip systems possess a promising future as drug screening assays and as testbeds for dise...
Drug discovery and development to date has relied on animal models, which are useful but are often e...
Patients around the world who suffer from a host of debilitating conditions rely on medications for ...
Better research models are needed to overcome the lack of translatability from preclinical studies i...
Cardiovascular disorders remain a critical health issue worldwide. While animals have been used exte...
Recent advances in human pluripotent stem cell (hPSC) biology enable derivation of essentially any c...
In the past few years, microfluidic-based technology has developed microscale models recapitulating ...
Bioengineered tissues have become increasingly more sophisticated owing to recent advancements in th...
For centuries, animal experiments have contributed much to our understanding of mechanisms of human ...
Current biomedical models fail to replicate the complexity of human biology. Consequently, almost 90...
The vascular system is one of the first to develop during embryogenesis and is essential for all org...
The concept of "Organs-on-Chips" has recently evolved and has been described as 3D (mini-) organs or...
The persistence of cardiovascular diseases as leading global causes of death has spurred attempts to...
To advance drug discovery for cardiovascular patients, new pre-clinical models and quantification me...
Modeling the human physiology in vitro is a challenging task, yet one of importance for the developm...
Organ-on-a-chip systems possess a promising future as drug screening assays and as testbeds for dise...