Document Detail


Erythrocytes in sickle cell anemia are heterogeneous in their rheological and hemodynamic characteristics.
MedLine Citation:
PMID:  6874947     Owner:  NLM     Status:  MEDLINE    
Abstract/OtherAbstract:
To understand the contribution to the pathophysiology of sickle cell anemia of the different erythrocyte density types present in the blood of these patients, we have studied the viscosimetric and hemodynamic characteristics of four major classes of hemoglobin SS erythrocytes. We have isolated reticulocytes, discocytes, dense discocytes, and irreversibly sickled cells (fractions I-IV) on Percoll-Renografin density gradients. Bulk viscosity was studied in a coneplate viscosimeter and the hemodynamic studies were performed on the isolated, artificially perfused mesoappendix vasculature of the rat (Baez preparation). Bulk viscosity measurements at shear rates of 230 S-1 demonstrate that when the cells are oxygenated, fraction I (reticulocyte rich) has a higher viscosity than expected from its low intracellular hemoglobin concentration. The rest of the fractions exhibit moderate increases in bulk viscosity pari-passu with the corresponding increases in density (mean corpuscular hemoglobin concentration). When deoxygenated, all cell fractions nearly doubled their bulk viscosity and the deoxy-oxy differences remained constant. The Baez preparation renders a different picture: oxygenated fractions behave as predicted by the viscosimetric data, but, when deoxygenated, cell fractions exhibit dramatically increased peripheral resistance and the deoxy-oxy difference are directly proportional to cell density, thus, the largest increases were observed for fractions III and IV. The differences between the rheological and the hemodynamic measurements are most probably due to the different sensitivity of the two methods to the extent of intracellular polymerization. These results also demonstrate that the hitherto unrecognized fraction III cells (very dense discocytes that change shape very little on deoxygenation) are as detrimental to the microcirculation as the irreversibly sickled cell-rich fraction IV. They may, however, induce obstruction by a different mechanism. As the extent to which these fractions are populated by erythrocytes varies considerably from patient to patient, the distribution function of cell densities in each sickle cell anemia patient might have consequences for the type of pathophysiological events occurring in their microcirculation.
Authors:
D K Kaul; M E Fabry; P Windisch; S Baez; R L Nagel
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Publication Detail:
Type:  Journal Article; Research Support, U.S. Gov't, P.H.S.    
Journal Detail:
Title:  The Journal of clinical investigation     Volume:  72     ISSN:  0021-9738     ISO Abbreviation:  J. Clin. Invest.     Publication Date:  1983 Jul 
Date Detail:
Created Date:  1983-09-09     Completed Date:  1983-09-09     Revised Date:  2009-11-18    
Medline Journal Info:
Nlm Unique ID:  7802877     Medline TA:  J Clin Invest     Country:  UNITED STATES    
Other Details:
Languages:  eng     Pagination:  22-31     Citation Subset:  AIM; IM    
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MeSH Terms
Descriptor/Qualifier:
Adult
Anemia, Sickle Cell / blood*
Animals
Cell Separation
Centrifugation, Density Gradient
Erythrocytes / cytology*
Humans
Microscopy, Electron, Scanning
Oxygen / blood
Rats
Reticulocytes / cytology
Vascular Resistance
Viscosity
Grant Support
ID/Acronym/Agency:
H121016-06A1//PHS HHS
Chemical
Reg. No./Substance:
7782-44-7/Oxygen
Comments/Corrections

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