Characterization at the individual cell level and in whole blood samples of shear stress preventing red blood cells aggregation

K. Lee, M. Kinnunen, A. V. Danilina, V. D. Ustinov, Sehyun Shin, I. Meglinski, A. V. Priezzhev

Research output: Contribution to journalArticle

8 Citations (Scopus)

Abstract

The aggregation of red blood cells (RBC) is an intrinsic feature of blood that has a strong impact on its microcirculation. For a number of years it has been attracting a great attention in basic research and clinical studies. Here, we study a relationship between the RBC aggregation parameters measured at the individual cell level and in a whole blood sample. The home made optical tweezers were used to measure the aggregating and disaggregating forces for a pair of interacting RBCs, at the individual cell level, in order to evaluate the corresponding shear stresses. The RheoScan aggregometer was used for the measurements of critical shear stress (CSS) in whole blood samples. The correlation between CSS and the shear stress required to stop an RBC pair from aggregating was found. The shear stress required to disaggregate a pair of RBCs using the double channel optical tweezers appeared to be about 10 times higher than CSS. The correlation between shear stresses required to prevent RBCs from aggregation at the individual cell level and in whole blood samples was estimated and assessed quantitatively. The experimental approach developed has a high potential for advancing hemorheological studies.

Original languageEnglish
JournalJournal of Biomechanics
DOIs
Publication statusAccepted/In press - 2016

Fingerprint

Cell Aggregation
Shear stress
Blood
Agglomeration
Erythrocytes
Cells
Optical Tweezers
Optical tweezers
Microcirculation
Research

Keywords

  • Critical shear stress
  • Disaggregating shear stress
  • Optical tweezers
  • Red blood cell aggregating force
  • Red blood cell aggregation

ASJC Scopus subject areas

  • Orthopedics and Sports Medicine
  • Rehabilitation
  • Biophysics
  • Biomedical Engineering

Cite this

Characterization at the individual cell level and in whole blood samples of shear stress preventing red blood cells aggregation. / Lee, K.; Kinnunen, M.; Danilina, A. V.; Ustinov, V. D.; Shin, Sehyun; Meglinski, I.; Priezzhev, A. V.

In: Journal of Biomechanics, 2016.

Research output: Contribution to journalArticle

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AU - Shin, Sehyun

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AU - Priezzhev, A. V.

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