Journal ArticleDOI
Sustained loading generates stress concentrations in lumbar intervertebral discs.
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TLDR
Increased loading of the apophysial joints causes an overall reduction in intradiscal stresses after creep, and water loss from the nucleus causes a transfer of load from nucleus to anulus.Abstract:
STUDY DESIGN: Cadaveric motion segment experiment. Measurements on each specimen were compared before and after creep loading.
OBJECTIVES: To show how sustained "creep" loading affects stress distributions inside intervertebral discs.
SUMMARY OF BACKGROUND DATA: The central region of an intervertebral disc acts like a hydrostatic "cushion" between adjacent vertebrae. However, this property depends on the water content of the tissues and may be lost or diminished after creep.
METHODS: Twenty-seven lumbar motion segments consisting of two vertebrae and the intervening disc and ligaments were loaded to simulate erect standing postures in life. The distribution of compressive stress in the disc matrix was measured by pulling a miniature pressure transducer through the disc in the midsagittal plane. Profiles of vertical and horizontal compressive stress were repeated after each specimen had been creep loaded in compression for 2-6 hours.
RESULTS: Creep reduced the hydrostatic pressure in the nucleus by 13-36%. Compressive stresses in the anulus were little affected when the profiles were measured at 1 kN, but at 2 kN, localized peaks of compressive stress appeared (or grew in size) in the posterior anulus after creep.
CONCLUSIONS: Increased loading of the apophysial joints causes an overall reduction in intradiscal stresses after creep. In addition, water loss from the nucleus causes a transfer of load from nucleus to anulus. Stress concentrations may lead to pain, structural disruption, and alterations in chondrocyte metabolism. Disc mechanics depend on loading history as well as applied load.read more
Citations
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Journal ArticleDOI
What is intervertebral disc degeneration, and what causes it?
TL;DR: To suggest how intervertebral disc degeneration might be distinguished from the physiologic processes of growth, aging, healing, and adaptive remodeling, and to simplify the issue of causality.
Journal ArticleDOI
New in vivo measurements of pressures in the intervertebral disc in daily life.
TL;DR: It is cautiously concluded that the intradiscal pressure during sitting may in fact be less than that in erect standing, that muscle activity increases pressure, that constantly changing position is important to promote flow of fluid to the disc, and that many of the physiotherapy methods studied are valid, but a number of them should be re-evaluated.
Journal ArticleDOI
Mechanical Initiation of Intervertebral Disc Degeneration
TL;DR: Comparisons with the results from tissue culture experiments indicated that the observed changes in matrix compressive stress would inhibit disc cell metabolism throughout the disc, and could lead to progressive deterioration of the matrix.
Journal ArticleDOI
Biology of intervertebral disc aging and degeneration: involvement of the extracellular matrix.
TL;DR: Current research is aimed at trying to restore the integrity of the degenerate disc matrix by biologic means, although at present it is not clear what the structure of the most appropriate repair tissue should be or how it can be achieved.
Journal ArticleDOI
‘stress’ distributions inside intervertebral discs: the effects of age and degeneration
TL;DR: It is suggested that structural changes within the annulus and endplate lead to a transfer of load from the nucleus to the posterior annulus, and high 'stress' concentrations within the Annulus may cause pain, and lead to further disruption.
References
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Journal ArticleDOI
The tissue origin of low back pain and sciatica: a report of pain response to tissue stimulation during operations on the lumbar spine using local anesthesia.
TL;DR: In an effort to define the origin of low back pain and sciatica, 193 patients were carefully studied using progressive local anesthesia and the results are discussed.
Journal ArticleDOI
Disc pressure measurements.
TL;DR: By measurements of intradiscal pressure in vitro, the hydrostatic properties of the nucleus pulposus of normal lumbar intervertebral disc were proven and the hydrodynamic properties seem to exist also in the somewhat degenerated disc, but not in the more severely deranged ones.
Journal ArticleDOI
1990 Volvo Award in experimental studies. Anulus tears and intervertebral disc degeneration. An experimental study using an animal model.
TL;DR: Progressive failure of the inner anulus was seen in all sheep and occurred in the majority of discs between 4 and 12 months after the operation, suggesting that discrete tears of the outer anulus may have a role in the formation of concentric clefts and in accelerating the development of radiating clefts.
Journal ArticleDOI
Change of disc height, radial disc bulge, and intradiscal pressure from discectomy. An in vitro investigation on human lumbar discs.
Paul Brinckmann,Henk Grootenboer +1 more
TL;DR: A mechanical model is presented which explains the observed relation between the volume of material removed and the subsequent change of height, bulge, and pressure in the rationale of disc pressurization.
Journal ArticleDOI
Internal intervertebral disc mechanics as revealed by stress profilometry.
Donal McNally,Michael A. Adams +1 more
TL;DR: The technique developed showed that the mechanical behavior of individual disc tissues was dependent not only on their location, but also on the loading and loading history of the disc.