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Increased lumbar spinal column laxity due to low‐angle, low‐load cyclic flexion may predispose to acute injury
Author(s) -
Gale Nicole C.,
Zeigler Stacey L.,
Towler Christopher,
Mondal Sumona,
Issen Kathleen A.,
Mesfin Addisu,
Michalek Arthur J.,
Kuxhaus Laurel
Publication year - 2018
Publication title -
jor spine
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.125
0
ISSN - 2572-1143
DOI - 10.1002/jsp2.1038
Subject(s) - lumbar , medicine , physical medicine and rehabilitation , spinal injury , column (typography) , spinal column , spinal cord injury , surgery , structural engineering , psychiatry , spinal cord , engineering , connection (principal bundle)
Lumbar spinal column laxity contributes to instability, increasing the risk of low back injury and pain. Until the laxity increase due to the cyclic loads of daily living can be quantified, the associated injury risk cannot be predicted clinically. This work cyclically loaded 5‐vertebra lumbar motion segments (7 skeletally‐mature cervine specimens, 5 osteoporotic human cadaver specimens) for 20 000 cycles of low‐load low‐angle (15°) flexion. The normalized neutral zone lengths and slopes of the load‐displacement hysteresis loops showed a similar increase in spinal column laxity across species. The intervertebral kinematics also changes with cyclic loading. Differences in the location and magnitude of surface strain on the vertebral bodies (0.34% ± 0.11% in the cervine specimens, and 3.13% ± 1.69% in the human cadaver specimens) are consistent with expected fracture modes in these populations. Together, these results provide biomechanical evidence of spinal column damage during high‐cycle low‐load low‐angle loading.

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