Abstract
The human disc and the facets work in unison to transmit loads across a lumbar motion segment. For this reason, if one component is affected by the degenerative process, the other follows. Modern imaging techniques and clinical observations have adequately delineated morphological changes in the spinal structures, while in vitro biomechanical studies have revealed that repetitive complex loads may lead to loosening of spinal structures, annular tears, and herniated discs. In addition to such experimental methods, analytical models have been able to explain the role of mechanical factors in producing disc degeneration and herniation. Furthermore, these techniques are applicable to investigating various surgical stabilization procedures. From a biomechanical perspective, surgical procedures such as discectomy are effective in reducing pain due to a decrease in disc bulge following surgery. Excessive instability across the disc, however, may require the use of bone grafts, cages or other types of interbody spacers to restore disc height. Efforts are currently underway to restore disc mechanics via an artificial disc. The following review is aimed at outlining the role of mechanical foctors in both inducing and stabilizing the degenerated/herniated intervertebral disc.
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