Surface strain on human intervertebral discs
- 1 January 1987
- journal article
- research article
- Published by Wiley in Journal of Orthopaedic Research
- Vol. 5 (3), 348-355
- https://doi.org/10.1002/jor.1100050306
Abstract
The biomechanical functions of the internal components of the intervertebral disc are not well understood. The surface deformation of 17 human cadaveric lumbar intervertebral discs was studied by photogrammetry by adhering small optical targets to the disc surface and thereby recording the length, bulge, and vertical height of lines on the disc surface representing annular fibers. Discs were studied in pure compression, flexion and extension, axial rotation, and shear. Two definitions of a fiber were investigated: first with the end‐points of the fiber on the vertebra (“bone‐to‐bone” definition), second, where the end points of the fiber were just before the disc vertebra junction (the “disc‐only” definition). Measurements were compared with a “constant‐volume” physical model and with a mathematical model of the intervertebral disc. Fiber strains were 6% or less under physiological conditions. Comparison of results from the two definitions of fiber length showed greater strains for the disc‐only definition in compressive loading. Fiber strains were less than in the constant‐volume model of comparable dimensions in compressive loading by a factor of about two, thus suggesting fluid loss or end‐plate deformations in the physiologic conditions. The mathematical model indicated that the surface strain for intervertebral discs is very sensitive to the disc‐height: diameter ratio and to fluid loss from the disc but is less sensitive to the helix angle of the fibers.Keywords
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