Conventional culture systems are often limited in their ability to regulate the growth and differentiation of pluripotent stem cells. Microfluidic systems can overcome some of these limitations by providing defined growth conditions with user-controlled spatiotemporal cues. Microfluidic systems allow researchers to modulate pluripotent stem cell renewal and differentiation through biochemical and mechanical stimulation, as well as through microscale patterning and organization of cells and extracellular materials. Essentially, microfluidic tools are reducing the gap between in vitro cell culture environments and the complex and dynamic features of the in vivo stem cell niche. These microfluidic culture systems can also be integrated with mi...
Lab-on-chip systems are microfluidic devices that can be used as powerful tools for research in fiel...
Functional analysis of primary tissue-specific stem cells is hampered by their rarity. Here I develo...
Microfluidics has shown promise in mimicking a cellular environment that is more physiologically rel...
Since the discovery of human somatic cell reprogramming, human induced pluripotent stem cells (hiPSC...
: An integrative approach based on microfluidic design and stem cell biology enables capture of the ...
Developmental biology has advanced the understanding of the intricate and dynamic processes involved...
Breakthroughs in health care over the coming decades may well consist of cell based therapeutics, po...
The recent years have been passed with significant progressions in the utilization of microfluidic t...
Here we present a microfluidic culture platform for enhancing single stem cell survival. Traditional...
Neural tissue engineering aims at developing novel approaches for the treatment of diseases of the n...
Living cells are a fascinating demonstration of nature’s most intricate and well-coordinated microme...
Stem cells have a great potential to bring about advancements in fields like developmental biology, ...
Microfluidic systems have significant implications for the fields of cell biology and cell-based ass...
Abstract Stem cell research can significantly benefit from recent advances of microfluidics technolo...
The development of in vitro models to screen the effect of different concentrations, combinations an...
Lab-on-chip systems are microfluidic devices that can be used as powerful tools for research in fiel...
Functional analysis of primary tissue-specific stem cells is hampered by their rarity. Here I develo...
Microfluidics has shown promise in mimicking a cellular environment that is more physiologically rel...
Since the discovery of human somatic cell reprogramming, human induced pluripotent stem cells (hiPSC...
: An integrative approach based on microfluidic design and stem cell biology enables capture of the ...
Developmental biology has advanced the understanding of the intricate and dynamic processes involved...
Breakthroughs in health care over the coming decades may well consist of cell based therapeutics, po...
The recent years have been passed with significant progressions in the utilization of microfluidic t...
Here we present a microfluidic culture platform for enhancing single stem cell survival. Traditional...
Neural tissue engineering aims at developing novel approaches for the treatment of diseases of the n...
Living cells are a fascinating demonstration of nature’s most intricate and well-coordinated microme...
Stem cells have a great potential to bring about advancements in fields like developmental biology, ...
Microfluidic systems have significant implications for the fields of cell biology and cell-based ass...
Abstract Stem cell research can significantly benefit from recent advances of microfluidics technolo...
The development of in vitro models to screen the effect of different concentrations, combinations an...
Lab-on-chip systems are microfluidic devices that can be used as powerful tools for research in fiel...
Functional analysis of primary tissue-specific stem cells is hampered by their rarity. Here I develo...
Microfluidics has shown promise in mimicking a cellular environment that is more physiologically rel...