Analyzing Red Blood Cell-Deformability Distributions

Analyzing Red Blood Cell-Deformability Distributions

ABSTRACT Background. Red blood cells (RBCs) must deform to pass the smallest capillaries of the microcirculation. Available techniques for measuring RBC deformability often provide an indication of the mean deformability. The latter may be decreased either by a slight overall deformability reduction...

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Bibliographic Details
Published in:Blood cells, molecules, & diseases Vol. 28; no. 3; pp. 373 - 384
Main Authors: Dobbe, J.G.G., Hardeman, M.R., Streekstra, G.J., Strackee, J., Ince, C., Grimbergen, C.A.
Format: Journal Article
Language:English
Published: United States Elsevier Inc 01-05-2002
Subjects:
Anemia, Sickle Cell - blood
automated analysis
Case-Control Studies
deformability distribution
Elliptocytosis, Hereditary - blood
Equipment Design
Erythrocyte Deformability - drug effects
Erythrocytes, Abnormal - pathology
Erythropoietin - pharmacology
Female
Hematologic Tests - instrumentation
Hematologic Tests - methods
Hematologic Tests - statistics & numerical data
Humans
image analysis
Malaria - blood
Male
Microscopy, Video
Perfusion
red blood cell
Renal Dialysis
rheoscope
Statistical Distributions
Stress, Mechanical
rheoscope
automated analysis
image analysis
deformability distribution
red blood cell
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Summary:ABSTRACT Background. Red blood cells (RBCs) must deform to pass the smallest capillaries of the microcirculation. Available techniques for measuring RBC deformability often provide an indication of the mean deformability. The latter may be decreased either by a slight overall deformability reduction or by the presence of a small fraction of rigid cells. A distinction between these two cases can be made with a RBC-deformability distribution (RBC-DD). Methods. This paper explores RBC-DDs of healthy individuals and of cells with anomalous mechanical properties (sickle cell disease, dialysis patients, elliptocytosis, and cultivated malaria tropica). The distributions were measured with an automated rheoscope, which uses advanced image analysis techniques to obtain the deformability index of a large number of individual cells subjected to simple shear flow. Results. The RBC-DD of healthy volunteers is close to a normal distribution. In the investigated patients, distributions were markedly different and yielded significant changes in the mean, in the standard deviation, or in both. The presence of hypodeformable and hyperdeformable cell fractions can qualitatively and quantitatively be assessed from the deformability distribution (DD). In elliptocytosis, cells orient differently with respect to the streamlines, compared to normal cells. This causes the DD to be biased. Conclusions. The RBC-DD is a powerful representation to establish subpopulations with anomalous deformability. Fractions of hypodeformable and hyperdeformable cells and the standard deviation of the DD are new and excellent quantitative parameters to assess alterations in RBC deformability.
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ISSN:1079-9796
1096-0961
DOI:10.1006/bcmd.2002.0528