Measuring the red blood cell shape in capillary flow using spectrally encoded flow cytometry

Lidan Fridman; Dvir Yelin

doi:https://doi.org/10.1364/BOE.464875

Measuring the red blood cell shape in capillary flow using spectrally encoded flow cytometry

Lidan Fridman, Dvir Yelin

Biomedical Engineering

Technion - Israel Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Red blood cells in small capillaries exhibit a wide variety of deformations that reflect their true physiological conditions at these important locations. By applying a technique for the high-speed microscopy of flowing cells, termed spectrally encoded flow cytometry (SEFC), we image the light reflected from the red blood cells in human capillaries, and propose an analytical slipper-like model for the cell morphology that can reproduce the experimental in vivo images. The results of this work would be useful for studying the unique flow conditions in these vessels, and for extracting useful clinical parameters that reflect the true physiology of the blood cells in situ.

Original language	English
Pages (from-to)	4583-4591
Number of pages	9
Journal	Biomedical Optics Express
Volume	13
Issue number	9
DOIs	https://doi.org/10.1364/BOE.464875
State	Published - 1 Sep 2022

All Science Journal Classification (ASJC) codes

Biotechnology
Atomic and Molecular Physics, and Optics

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abstract = "Red blood cells in small capillaries exhibit a wide variety of deformations that reflect their true physiological conditions at these important locations. By applying a technique for the high-speed microscopy of flowing cells, termed spectrally encoded flow cytometry (SEFC), we image the light reflected from the red blood cells in human capillaries, and propose an analytical slipper-like model for the cell morphology that can reproduce the experimental in vivo images. The results of this work would be useful for studying the unique flow conditions in these vessels, and for extracting useful clinical parameters that reflect the true physiology of the blood cells in situ.",

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AU - Yelin, Dvir

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N2 - Red blood cells in small capillaries exhibit a wide variety of deformations that reflect their true physiological conditions at these important locations. By applying a technique for the high-speed microscopy of flowing cells, termed spectrally encoded flow cytometry (SEFC), we image the light reflected from the red blood cells in human capillaries, and propose an analytical slipper-like model for the cell morphology that can reproduce the experimental in vivo images. The results of this work would be useful for studying the unique flow conditions in these vessels, and for extracting useful clinical parameters that reflect the true physiology of the blood cells in situ.

AB - Red blood cells in small capillaries exhibit a wide variety of deformations that reflect their true physiological conditions at these important locations. By applying a technique for the high-speed microscopy of flowing cells, termed spectrally encoded flow cytometry (SEFC), we image the light reflected from the red blood cells in human capillaries, and propose an analytical slipper-like model for the cell morphology that can reproduce the experimental in vivo images. The results of this work would be useful for studying the unique flow conditions in these vessels, and for extracting useful clinical parameters that reflect the true physiology of the blood cells in situ.

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JO - Biomedical Optics Express

JF - Biomedical Optics Express

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ER -

Measuring the red blood cell shape in capillary flow using spectrally encoded flow cytometry

Abstract

All Science Journal Classification (ASJC) codes

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