Altered disc pressure profile after an osteoporotic vertebral fracture is a risk factor for adjacent vertebral body fracture

This study investigated the effect of endplate deformity after an osteoporotic vertebral fracture in increasing the risk for adjacent vertebral fractures. Eight human lower thoracic or thoracolumbar specimens, each consisting of five vertebrae were used. To selectively fracture one of the endplates...

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Bibliographic Details
Published in:European spine journal 2008-11, Vol.17 (11), p.1522-1530
Main Authors: Tzermiadianos, Michael N., Renner, Susan M., Phillips, Frank M., Hadjipavlou, Alexander G., Zindrick, Michael R., Havey, Robert M., Voronov, Michael, Patwardhan, Avinash G.
Format: Article
Language:English
Subjects:
Aged
Aged, 80 and over
Biomechanical Phenomena
Cadaver
Disease Progression
Female
Fractures, Bone - etiology
Fractures, Bone - pathology
Fractures, Bone - physiopathology
Humans
Intervertebral Disc - diagnostic imaging
Intervertebral Disc - pathology
Intervertebral Disc - physiopathology
Kyphosis - diagnostic imaging
Kyphosis - pathology
Kyphosis - physiopathology
Lumbar Vertebrae - pathology
Lumbar Vertebrae - physiopathology
Male
Medicine
Medicine & Public Health
Middle Aged
Neurosurgery
Original
Original Article
Osteoporosis - complications
Pressure - adverse effects
Radiography
Risk Factors
Spine - diagnostic imaging
Spine - pathology
Spine - physiopathology
Stress, Mechanical
Surgical Orthopedics
Thoracic Vertebrae - pathology
Thoracic Vertebrae - physiopathology
Weight-Bearing - physiology
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Summary:This study investigated the effect of endplate deformity after an osteoporotic vertebral fracture in increasing the risk for adjacent vertebral fractures. Eight human lower thoracic or thoracolumbar specimens, each consisting of five vertebrae were used. To selectively fracture one of the endplates of the middle VB of each specimen a void was created under the target endplate and the specimen was flexed and compressed until failure. The fractured vertebra was subjected to spinal extension under 150 N preload that restored the anterior wall height and vertebral kyphosis, while the fractured endplate remained significantly depressed. The VB was filled with cement to stabilize the fracture, after complete evacuation of its trabecular content to ensure similar cement distribution under both the endplates. Specimens were tested in flexion-extension under 400 N preload while pressure in the discs and strain at the anterior wall of the adjacent vertebrae were recorded. Disc pressure in the intact specimens increased during flexion by 26 ± 14%. After cementation, disc pressure increased during flexion by 15 ± 11% in the discs with un-fractured endplates, while decreased by 19 ± 26.7% in the discs with the fractured endplates. During flexion, the compressive strain at the anterior wall of the vertebra next to the fractured endplate increased by 94 ± 23% compared to intact status ( p   0.05). Subsequent flexion with compression to failure resulted in adjacent fracture close to the fractured endplate in six specimens and in a non-adjacent fracture in one specimen, while one specimen had no adjacent fractures. Depression of the fractured endplate alters the pressure profile of the damaged disc resulting in increased compressive loading of the anterior wall of adjacent vertebra that predisposes it to wedge fracture. This data suggests that correction of endplate deformity may play a role in reducing the risk of adjacent fractures.
ISSN:0940-6719
1432-0932
DOI:10.1007/s00586-008-0775-x