Microfluidics-based devices play an important role in creating realistic microenvironments in which cell cultures can thrive. They can, for example, be used to monitor drug toxicity and perform medical diagnostics, and be in a static-, perfusion- or droplet-based device. They can also be used to study cell-cell, cell-matrix or cell-surface interactions. Cells can be either single cells, 3D cell cultures or co-cultures. Other organisms could include bacteria, zebra fish embryo, C. elegans, to name a few
Systems biology seeks to develop a complete understanding of cellular mechanisms by studying the fun...
Micro fluidics is a term which defines the technology that is a combination of fluid mechanics, b...
Microfluidic systems have evolved significantly over the past decade to offer biologists in vitro en...
Microfluidic systems have significant implications for the fields of cell biology and cell-based ass...
Cell manipulation in droplets has emerged as one of the great successes of microfluidic technologies...
The use of microfluidics has transformed research in cell biology. Microfluidics manipulates fluids ...
Microfluidic devices allow for precise control of the cellular and noncellular microenvironment at p...
Microfluidic techniques allow precise control of fluids and particles at the nanoliter scale and fac...
Microfluidics is a platform that is being widely used for developing in-vitro models to study variou...
Stochastic variations within seemingly homogeneous cell populations determine the emergent propertie...
Many proofs of concept have demonstrated the potential of microfluidics in cell biology. However, th...
Microfluidic systems are attracting increasing interest for the high-throughput measurement of cellu...
Conventional culture systems are often limited in their ability to regulate the growth and different...
A great breadth of questions remains in cellular biology. Some questions cannot be answered using tr...
Harnessing the ability to precisely and reproducibly actuate fluids and manipulate bioparticles such...
Systems biology seeks to develop a complete understanding of cellular mechanisms by studying the fun...
Micro fluidics is a term which defines the technology that is a combination of fluid mechanics, b...
Microfluidic systems have evolved significantly over the past decade to offer biologists in vitro en...
Microfluidic systems have significant implications for the fields of cell biology and cell-based ass...
Cell manipulation in droplets has emerged as one of the great successes of microfluidic technologies...
The use of microfluidics has transformed research in cell biology. Microfluidics manipulates fluids ...
Microfluidic devices allow for precise control of the cellular and noncellular microenvironment at p...
Microfluidic techniques allow precise control of fluids and particles at the nanoliter scale and fac...
Microfluidics is a platform that is being widely used for developing in-vitro models to study variou...
Stochastic variations within seemingly homogeneous cell populations determine the emergent propertie...
Many proofs of concept have demonstrated the potential of microfluidics in cell biology. However, th...
Microfluidic systems are attracting increasing interest for the high-throughput measurement of cellu...
Conventional culture systems are often limited in their ability to regulate the growth and different...
A great breadth of questions remains in cellular biology. Some questions cannot be answered using tr...
Harnessing the ability to precisely and reproducibly actuate fluids and manipulate bioparticles such...
Systems biology seeks to develop a complete understanding of cellular mechanisms by studying the fun...
Micro fluidics is a term which defines the technology that is a combination of fluid mechanics, b...
Microfluidic systems have evolved significantly over the past decade to offer biologists in vitro en...