Hydrodynamic stretching of single cells for large population mechanical phenotyping
California NanoSystems Institute · University of California, Los Angeles · +1 more institution
Abstract
Cell state is often assayed through measurement of biochemical and biophysical markers. Although biochemical markers have been widely used, intrinsic biophysical markers, such as the ability to mechanically deform under a load, are advantageous in that they do not require costly labeling or sample preparation. However, current techniques that assay cell mechanical properties have had limited adoption in clinical and cell biology research applications. Here, we demonstrate an automated microfluidic technology capable of probing single-cell deformability at approximately 2,000 cells/s. The method uses inertial focusing to uniformly deliver cells to a stretching extensional flow where cells are deformed at high…
Citation impact
- FWCI
- 33.33
- Percentile
- 100%
- References
- 43
Authors
9- DRDaniel R. GossettCorresponding
California NanoSystems Institute, University of California, Los Angeles
- HTHenry T. K. Tse
California NanoSystems Institute, University of California, Los Angeles
- SASerena A. Lee
University of California, Los Angeles, Broad Center
- YYYong Ying
University of California, Los Angeles
- ALAnne Lindgren
University of California, Los Angeles, Broad Center
Topics & keywords
- Microfluidics
- Induced pluripotent stem cell
- Flow cytometry
- Population
- Nanotechnology
- Cell
- Cytometry
- Biomedical engineering