Add to ORKGMicrofluidic technology is a rapidly progressing tool in biomedical engineering. Microfluidic devices are appreciated for their simplicity and production efficiency potential. Our research focuses on developing a microfluidic device capable of transfecting cells by applying shear stress to cause temporary membrane damage. The advantage of this physical method of transfection is the possibility of incorporating large molecules that cannot be inserted with more traditional chemical transfection methods, while avoiding the large fall in viability seen with other physical methods such as electroporation. Unlike previous groups, our device incorporates the use of microfluidic valves to allow tunability, and impedance sensing for cell membrane da...
Intracellular delivery of macromolecules is a challenge in research and therapeutic applications. Ex...
Microfluidic, the technology that manipulates small amount of fluids in microscale complex devices, ...
Microfluidic devices are an extremely useful tool to explore in vitro the pathophysiology of many di...
The physical forces to which living cells are most commonly exposed are fluid shear, pressure, and s...
Physical methods of intracellular delivery based on microfluidic approaches have emerged as a promis...
We introduce a microfluidic device for chemical manipulation and mechanical investigation of circula...
Thesis (Ph.D.)--University of Washington, 2013The sensing of chemical gradients plays an important r...
[[abstract]]In this paper, we develop a microfluidic device with an embedded pressure sensor to stud...
Cell migration refers to the directional movement of cells to the surrounding cell-free zone in resp...
In contrast to the delicate 3D electrodes in the literature, a simple flow-through device is propose...
The emergence of microfluidic techniques provide an unprecedented opportunity for peering into molec...
Mechanical stimulation, especially fluid shear stress (FSS), is essential for a cell to regulate reg...
The ability to generate chemical and mechanical gradients on chips is important both for creating bi...
In recent years, cellular and gene therapies have been transforming medicine. With the 2018 Nobel Pr...
Many new therapeutic approaches are based on gene transfection of cells. Data about dynamic interact...
Intracellular delivery of macromolecules is a challenge in research and therapeutic applications. Ex...
Microfluidic, the technology that manipulates small amount of fluids in microscale complex devices, ...
Microfluidic devices are an extremely useful tool to explore in vitro the pathophysiology of many di...
The physical forces to which living cells are most commonly exposed are fluid shear, pressure, and s...
Physical methods of intracellular delivery based on microfluidic approaches have emerged as a promis...
We introduce a microfluidic device for chemical manipulation and mechanical investigation of circula...
Thesis (Ph.D.)--University of Washington, 2013The sensing of chemical gradients plays an important r...
[[abstract]]In this paper, we develop a microfluidic device with an embedded pressure sensor to stud...
Cell migration refers to the directional movement of cells to the surrounding cell-free zone in resp...
In contrast to the delicate 3D electrodes in the literature, a simple flow-through device is propose...
The emergence of microfluidic techniques provide an unprecedented opportunity for peering into molec...
Mechanical stimulation, especially fluid shear stress (FSS), is essential for a cell to regulate reg...
The ability to generate chemical and mechanical gradients on chips is important both for creating bi...
In recent years, cellular and gene therapies have been transforming medicine. With the 2018 Nobel Pr...
Many new therapeutic approaches are based on gene transfection of cells. Data about dynamic interact...
Intracellular delivery of macromolecules is a challenge in research and therapeutic applications. Ex...
Microfluidic, the technology that manipulates small amount of fluids in microscale complex devices, ...
Microfluidic devices are an extremely useful tool to explore in vitro the pathophysiology of many di...