Living cells are a fascinating demonstration of nature’s most intricate and well-coordinated micromechanical objects. They crawl, spread, contract, and relax—thus performing a multitude of complex mechanical functions. Alternatively, they also respond to physical and chemical cues that lead to remodeling of the cytoskeleton. To understand this intricate coupling between mechanical properties, mechanical function and force-induced biochemical signaling requires tools that are capable of both controlling and manipulating the cell microenvironment and measuring the resulting mechanical response. In this review, the power of microfluidics as a functional tool for research in cell mechanics is highlighted. In particular, current literature is di...
Mechanical signals offer a promising way to control cell and tissue development. It has been establi...
The use of microfluidics has transformed research in cell biology. Microfluidics manipulates fluids ...
Systems biology seeks to develop a complete understanding of cellular mechanisms by studying the fun...
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...
Historically, cell behavior has been investigated by removing cells from their native environment an...
Determining how biological cells respond to external factors in the environment can aid in understan...
Physical forces regulate the behavior of cells and tissues and are essential in cell organization an...
The demand to understand the mechanical properties of cells from biomedical, bioengineering, and cli...
The underlying physical properties of microfluidic tools have led to new biological insights through...
Microfluidic systems have evolved significantly over the past decade to offer biologists in vitro en...
Microfluidic devices have been widely used for cell studies. In this project, a hydrogel-based micro...
Over the last two decades, microfluidics has made significant contri-butions in cell biology resear...
Both biological and engineering approaches have contributed significantly to the recent advance in t...
Cell mechanics is a multidisciplinary field that bridges cell biology, fundamental mechanics, and mi...
Mechanical signals offer a promising way to control cell and tissue development. It has been establi...
The use of microfluidics has transformed research in cell biology. Microfluidics manipulates fluids ...
Systems biology seeks to develop a complete understanding of cellular mechanisms by studying the fun...
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...
Historically, cell behavior has been investigated by removing cells from their native environment an...
Determining how biological cells respond to external factors in the environment can aid in understan...
Physical forces regulate the behavior of cells and tissues and are essential in cell organization an...
The demand to understand the mechanical properties of cells from biomedical, bioengineering, and cli...
The underlying physical properties of microfluidic tools have led to new biological insights through...
Microfluidic systems have evolved significantly over the past decade to offer biologists in vitro en...
Microfluidic devices have been widely used for cell studies. In this project, a hydrogel-based micro...
Over the last two decades, microfluidics has made significant contri-butions in cell biology resear...
Both biological and engineering approaches have contributed significantly to the recent advance in t...
Cell mechanics is a multidisciplinary field that bridges cell biology, fundamental mechanics, and mi...
Mechanical signals offer a promising way to control cell and tissue development. It has been establi...
The use of microfluidics has transformed research in cell biology. Microfluidics manipulates fluids ...
Systems biology seeks to develop a complete understanding of cellular mechanisms by studying the fun...