Elizabeth A Capogna1, Emma Brown1,2, Evan Walrath1,2, William Furst1,2, Qing Dong3, Chao-Ming Zhou3, Sarah E Gullbrand4, Nam V Vo3, Gwendolyn A Sowa3, Eric H Ledet5,6,7. 1. Department of Biomedical Engineering, Rensselaer Polytechnic Institute, 1108 th Street, JEC 7044, Troy, NY, 12180, USA. 2. Albany Stratton VA Medical Center, Albany, NY, USA. 3. University of Pittsburgh Medical Center, Pittsburgh, PA, USA. 4. University of Pennsylvania, Philadelphia, PA, USA. 5. Department of Biomedical Engineering, Rensselaer Polytechnic Institute, 1108 th Street, JEC 7044, Troy, NY, 12180, USA. ledete@rpi.edu. 6. Albany Stratton VA Medical Center, Albany, NY, USA. ledete@rpi.edu. 7. Center for Disability Services, Albany, NY, USA. ledete@rpi.edu.
Abstract
BACKGROUND: The intervertebral disc degenerates with age and has a poor propensity for regeneration. Small molecule transport plays a key role in long-term degradation and repair. Convection (bulk flow), induced by low rate cyclic loading of the intervertebral disc, has been shown to increase transport of small molecules. However, the potential therapeutic benefit of low rate cyclic loading on degenerated discs has not been described. The purpose of this study was to determine if a sustained (daily) low rate cyclic loading regimen could slow, arrest, or reverse intervertebral disc degeneration in the rabbit lumbar spine. METHODS: Fifty-six New Zealand white rabbits (>12 months old) were designated as either Control (no disc puncture), 8D (disc puncture followed by 8 weeks of degeneration), 16D (disc puncture followed by 16 weeks of degeneration), or Therapy (disc puncture followed by 8 weeks of degeneration and then 8 weeks of daily low rate cyclic loading). Specimens were evaluated by T2 mapping, Pfirrmann scale grading, nucleus volume, disc height index, disc morphology and structure, and proteoglycan content. RESULTS: In every metric, mean values for the Therapy group fell between Controls and 8D animals. These results suggest that sustained low rate cyclic loading had a therapeutic effect on the already degenerated disc and the regimen promoted signs of regeneration. If these results translate clinically, this approach could fulfil a significant clinical need by providing a means of non-invasively treating intervertebral disc degeneration.
BACKGROUND: The intervertebral disc degenerates with age and has a poor propensity for regeneration. Small molecule transport plays a key role in long-term degradation and repair. Convection (bulk flow), induced by low rate cyclic loading of the intervertebral disc, has been shown to increase transport of small molecules. However, the potential therapeutic benefit of low rate cyclic loading on degenerated discs has not been described. The purpose of this study was to determine if a sustained (daily) low rate cyclic loading regimen could slow, arrest, or reverse intervertebral disc degeneration in the rabbit lumbar spine. METHODS: Fifty-six New Zealand white rabbits (>12 months old) were designated as either Control (no disc puncture), 8D (disc puncture followed by 8 weeks of degeneration), 16D (disc puncture followed by 16 weeks of degeneration), or Therapy (disc puncture followed by 8 weeks of degeneration and then 8 weeks of daily low rate cyclic loading). Specimens were evaluated by T2 mapping, Pfirrmann scale grading, nucleus volume, disc height index, disc morphology and structure, and proteoglycan content. RESULTS: In every metric, mean values for the Therapy group fell between Controls and 8D animals. These results suggest that sustained low rate cyclic loading had a therapeutic effect on the already degenerated disc and the regimen promoted signs of regeneration. If these results translate clinically, this approach could fulfil a significant clinical need by providing a means of non-invasively treating intervertebral disc degeneration.
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