4.5 Article

Effect of microgravity on the biomechanical properties of lumbar and caudal intervertebral discs in mice

期刊

JOURNAL OF BIOMECHANICS
卷 47, 期 12, 页码 2983-2988

出版社

ELSEVIER SCI LTD
DOI: 10.1016/j.jbiomech.2014.07.005

关键词

Microgravity; Intervertebral disc; Disc degeneration; Compressive creep; Disc herniation

资金

  1. NASA, United States [NNX09AP11G, NNX10AM18G]
  2. NIH, United States [AR052811]

向作者/读者索取更多资源

Prolonged exposure to microgravity has shown to have deleterious effects on the human spine, indicated by low back pain during spaceflight and increased incidence of post-spaceflight herniated nucleus pulposus. We examined the effect of microgravity on biomechanical properties of lumbar and caudal discs from mice having been on 15-day shuttle mission STS-131. Sixteen C57BL/C mice (spaceflight group, n=8; ground-based control group, n=8) were sacrificed immediately after spaceflight. Physiological disc height (PDH) was measured in situ, and compressive creep tests were performed to parameterize biomechanical properties into endplate permeability (k), nuclear swelling pressure strain dependence (D), and annular viscoelasticity (G). For caudal discs, the spaceflight group exhibited 32% lower PDH, 70% lower D and crept more compared to the control mice (p=0.03). For lumbar discs, neither PDH nor D was significantly different between murine groups. Initial modulus, osmotic pressure, k and G for lumbar and caudal discs did not appear influenced by microgravity (p > 0.05). Decreases in both PDH and D suggest prolonged microgravity effectively diminished biomechanical properties of caudal discs. By contrast, differences were not noted for lumbar discs. This potentially deleterious interaction between prolonged weightlessness and differential ranges of motion along the spine may underlie the increased cervical versus lumbar disc herniation rates observed among astronauts. (C) 2014 Published by Elsevier Ltd.

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