Detecting mechanically induced displacements in human cell cultures using quantitative phase imaging
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Eldridge, WJ; Sheinfeld, A; Rinehart, MT; Wax, A
Published in: Novel Techniques in Microscopy, NTM 2015
April 6, 2015
We present a platform for detecting cellular deformations from mechanical stimuli. Rapid quantitative phase imaging was used to analyze changes in the optical path length of skin cancer cells during mechanical displacement.
Duke Scholars
Published In
Novel Techniques in Microscopy, NTM 2015
DOI
Publication Date
April 6, 2015
Citation
APA
Chicago
ICMJE
MLA
NLM
Eldridge, W. J., Sheinfeld, A., Rinehart, M. T., & Wax, A. (2015). Detecting mechanically induced displacements in human cell cultures using quantitative phase imaging. In Novel Techniques in Microscopy, NTM 2015. https://doi.org/10.1364/ntm.2015.nw3c.5
Eldridge, W. J., A. Sheinfeld, M. T. Rinehart, and A. Wax. “Detecting mechanically induced displacements in human cell cultures using quantitative phase imaging.” In Novel Techniques in Microscopy, NTM 2015, 2015. https://doi.org/10.1364/ntm.2015.nw3c.5.
Eldridge WJ, Sheinfeld A, Rinehart MT, Wax A. Detecting mechanically induced displacements in human cell cultures using quantitative phase imaging. In: Novel Techniques in Microscopy, NTM 2015. 2015.
Eldridge, W. J., et al. “Detecting mechanically induced displacements in human cell cultures using quantitative phase imaging.” Novel Techniques in Microscopy, NTM 2015, 2015. Scopus, doi:10.1364/ntm.2015.nw3c.5.
Eldridge WJ, Sheinfeld A, Rinehart MT, Wax A. Detecting mechanically induced displacements in human cell cultures using quantitative phase imaging. Novel Techniques in Microscopy, NTM 2015. 2015.
Published In
Novel Techniques in Microscopy, NTM 2015
DOI
Publication Date
April 6, 2015