In vitro monitoring of photoinduced necrosis in HeLa cells using digital holographic microscopy and machine learning

A. V. Belashov; A. A. Zhikhoreva; T. N. Belyaeva; E. S. Kornilova; A. V. Salova; I. V. Semenova; O. S. Vasyutinskii

doi:10.1364/JOSAA.382135

Journal of the Optical Society of America A
Vol. 37,
Issue 2,
pp. 346-352
(2020)
•https://doi.org/10.1364/JOSAA.382135

In vitro monitoring of photoinduced necrosis in HeLa cells using digital holographic microscopy and machine learning

A. V. Belashov, A. A. Zhikhoreva, T. N. Belyaeva, E. S. Kornilova, A. V. Salova, I. V. Semenova, and O. S. Vasyutinskii

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A. V. Belashov, A. A. Zhikhoreva, T. N. Belyaeva, E. S. Kornilova, A. V. Salova, I. V. Semenova, and O. S. Vasyutinskii, "In vitro monitoring of photoinduced necrosis in HeLa cells using digital holographic microscopy and machine learning," J. Opt. Soc. Am. A 37, 346-352 (2020)

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Abstract

Digital holographic microscopy supplemented with the developed cell segmentation and machine learning and classification algorithms is implemented for quantitative description of the dynamics of cellular necrosis induced by photodynamic treatment in vitro. It is demonstrated that the developed algorithms operating with a set of optical, morphological, and physiological parameters of cells, obtained from their phase images, can be used for automatic distinction between live and necrotic cells. The developed classifier provides high accuracy of about 95.5% and allows for calculation of survival rates in the course of cell death.

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	Live Cells		Necrotic Cells
Parameter	Mean	STD	Mean	STD
Average phase shift (rad)	1.01	0.27	0.63	0.12
Dry mass (pg)	292	112	176	73
Phase variance	0.41	0.31	0.14	0.06
Phase kurtosis	2.11	0.29	3.18	0.76
Phase skewness	0.37	0.24	0.77	0.32
Top area ( $µ m^{2}$ )	602	205	558	179
Surf. area ( $µ m^{2}$ )	1183	404	1103	353
Proj. area ( $µ m^{2}$ )	580	199	544	174
Volume ( $µ m^{3}$ )	2054	792	1237	516

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Journal of the Optical Society of America A