Add to ORKGAbstract—Tissue engineering has progressed to enable devel-opment of engineered 3D in vitro tissue models that can recapitulate in vivo cellular physiologies through the control of an expansive variety of microenvironmental design fea-tures, including mechanical, extracellular matrix, and soluble stimulatory cues. Microenviromental cues stimulate cells through a system of interconnected molecular regulatory pathways that govern cellular behaviors within engineered tissue models. Detailed understanding of how cell signaling pathways process these microenvironmental stimuli to govern their behaviors will require application of systems-level biological approaches. To date, the experimental and mod-eling approaches at the heart of systems biolo...
Traditional in vitro two-dimensional (2-D) culture systems only partly imitate the physiological and...
Tissue engineering creates biological tissues that aim to improve the function of diseased or damage...
Within the past 25 years, tissue engineering (TE) has grown enormously as a science and as an indust...
In a developing organism, tissues emerge from coordinated sequences of cell renewal, differentiation...
Research in cell biology greatly relies on cell-based in vitro assays and models that facilitate the...
Tissue engineering approaches, with the goals of replacing or recovering damaged or diseased tissues...
During organogenesis, various molecular and physical signals are orchestrated in space and time to s...
The complexity of the nervous system means it is difficult to explore the role of individual cell ty...
In a developing organism, tissues emerge from coordinated sequences of cell renewal, differentiation...
Traditional two-dimensional (2D) cell cultures only partially reflect the morpho-molecular pattern ...
The field of tissue engineering is moving toward a new concept of "in vitro biomimetics of in vivo t...
Tissue and organ on chip (TOC) have been developed to permit the study of human physiology in a tiss...
In vitro-generated tissues hold significant promise in modern biology since they can potentially mim...
Recent advances in developmental biology, systems biology, and network science are converging to poi...
Recent advances in developmental biology, systems biology, and network science are converging to poi...
Traditional in vitro two-dimensional (2-D) culture systems only partly imitate the physiological and...
Tissue engineering creates biological tissues that aim to improve the function of diseased or damage...
Within the past 25 years, tissue engineering (TE) has grown enormously as a science and as an indust...
In a developing organism, tissues emerge from coordinated sequences of cell renewal, differentiation...
Research in cell biology greatly relies on cell-based in vitro assays and models that facilitate the...
Tissue engineering approaches, with the goals of replacing or recovering damaged or diseased tissues...
During organogenesis, various molecular and physical signals are orchestrated in space and time to s...
The complexity of the nervous system means it is difficult to explore the role of individual cell ty...
In a developing organism, tissues emerge from coordinated sequences of cell renewal, differentiation...
Traditional two-dimensional (2D) cell cultures only partially reflect the morpho-molecular pattern ...
The field of tissue engineering is moving toward a new concept of "in vitro biomimetics of in vivo t...
Tissue and organ on chip (TOC) have been developed to permit the study of human physiology in a tiss...
In vitro-generated tissues hold significant promise in modern biology since they can potentially mim...
Recent advances in developmental biology, systems biology, and network science are converging to poi...
Recent advances in developmental biology, systems biology, and network science are converging to poi...
Traditional in vitro two-dimensional (2-D) culture systems only partly imitate the physiological and...
Tissue engineering creates biological tissues that aim to improve the function of diseased or damage...
Within the past 25 years, tissue engineering (TE) has grown enormously as a science and as an indust...