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Intrinsic material properties of the erythrocyte membrane indicated by mechanical analysis of deformation

Journal Article · · Blood; (United States)
OSTI ID:7216573
;

Deformation of the erythrocyte membrane by the micropipette technique permits analysis of intrinsic material characteristics of the membrane and provides a means to differentiate purely membrane factors from such extrinsic factors as surface area-to-volume ratio. Using small micropipettes (less than 0.5 ..mu..m radius) to deform cells, it is evident that the red cell membrane behaves like a solid for periods of time up to 5 to 10 min of sustained deformation; for long periods of strain, permanent deformations occur, indicative of the semi-solid structural character. In the time range in which the membrane behaves like a solid, the material is linearly elastic up to strains of 400 percent, implying a loose network structure in the membrane plane, and evaluation of the elastic parameter ..mu.. (..mu.. for normal discocytes equals 7 x 10/sup -3/ dynes/cm) suggests that the elements comprising the network may have a molecular weight of approximately that of the water-soluble membrane protein spectrin. Whether the network system is cross-linked or simply a polymer solution remains unanswered. Experimental data indicate that plastic flow of the membrane under conditions of protracted strain may lead to permanent deformation of the membrane, whereas uniform dilation of the membrane, requiring over 1000 times more energy than for plastic flow, results in membrane failure and lysis. Analyses of the data from larger micropipettes of limiting mean cylindrical diameter show their utility in evaluating extrinsic factors, e.g., surface area-to-volume relationships, which are related to the capability of the whole cell to form a new configuration with implicit resistance to total surface area change, as the cell enters narrow channels of the microcirculation. Thus, micropipettes with diameters in the 2.7 to 3.0-..mu..m range can provide sensitive comparisons of cellular deformability of erythrocytes.

Research Organization:
Duke Univ., Durham, NC
OSTI ID:
7216573
Journal Information:
Blood; (United States), Journal Name: Blood; (United States) Vol. 45:1; ISSN BLOOA
Country of Publication:
United States
Language:
English

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Related Subjects

550300* -- Cytology
59 BASIC BIOLOGICAL SCIENCES
BIOLOGICAL MATERIALS
BLOOD
BLOOD CELLS
BODY FLUIDS
CELL CONSTITUENTS
CELL MEMBRANES
DATA ANALYSIS
ERYTHROCYTES
MEMBRANES
MOLECULAR WEIGHT
MORPHOLOGICAL CHANGES
ORGANIC COMPOUNDS
PROTEINS