Quantitative phase imaging of erythrocytes under microfluidic constriction in a high refractive index medium reveals water content changes.

dc.contributor.author

Park, Han Sang

dc.contributor.author

Eldridge, Will J

dc.contributor.author

Yang, Wen-Hsuan

dc.contributor.author

Crose, Michael

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Ceballos, Silvia

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Roback, John D

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Chi, Jen-Tsan Ashley

dc.contributor.author

Wax, Adam

dc.date.accessioned

2020-01-01T14:32:45Z

dc.date.available

2020-01-01T14:32:45Z

dc.date.issued

2019-01

dc.date.updated

2020-01-01T14:32:42Z

dc.description.abstract

Changes in the deformability of red blood cells can reveal a range of pathologies. For example, cells which have been stored for transfusion are known to exhibit progressively impaired deformability. Thus, this aspect of red blood cells has been characterized previously using a range of techniques. In this paper, we show a novel approach for examining the biophysical response of the cells with quantitative phase imaging. Specifically, optical volume changes are observed as the cells transit restrictive channels of a microfluidic chip in a high refractive index medium. The optical volume changes indicate an increase of cell's internal density, ostensibly due to water displacement. Here, we characterize these changes over time for red blood cells from two subjects. By storage day 29, a significant decrease in the magnitude of optical volume change in response to mechanical stress was witnessed. The exchange of water with the environment due to mechanical stress is seen to modulate with storage time, suggesting a potential means for studying cell storage.

dc.identifier

113

dc.identifier.issn

2096-1030

dc.identifier.issn

2055-7434

dc.identifier.uri

https://hdl.handle.net/10161/19666

dc.language

eng

dc.publisher

Springer Science and Business Media LLC

dc.relation.ispartof

Microsystems & nanoengineering

dc.relation.isversionof

10.1038/s41378-019-0113-y

dc.subject

Engineering

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Other photonics

dc.title

Quantitative phase imaging of erythrocytes under microfluidic constriction in a high refractive index medium reveals water content changes.

dc.type

Journal article

duke.contributor.orcid

Chi, Jen-Tsan Ashley|0000-0003-3433-903X

pubs.begin-page

63

pubs.issue

1

pubs.organisational-group

School of Medicine

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Duke

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Duke Cancer Institute

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Institutes and Centers

pubs.organisational-group

Molecular Genetics and Microbiology

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Basic Science Departments

pubs.organisational-group

Pharmacology & Cancer Biology

pubs.organisational-group

Radiation Oncology

pubs.organisational-group

Clinical Science Departments

pubs.organisational-group

Medicine, Rheumatology and Immunology

pubs.organisational-group

Medicine

pubs.publication-status

Published

pubs.volume

5

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