Relationship between Spinal Cord Volume and Spinal Cord Injury due to Spinal Shortening

Vertebral column resection is associated with a risk of spinal cord injury. In the present study, using a goat model, we aimed to investigate the relationship between changes in spinal cord volume and spinal cord injury due to spinal shortening, and to quantify the spinal cord volume per 1-mm height...

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Published inPloS one Vol. 10; no. 5; p. e0127624
Main Authors Qiu, Feng, Yang, Jin-Cheng, Ma, Xiang-Yang, Xu, Jun-Jie, Yang, Qing-Lei, Zhou, Xin, Xiao, Yao-Sheng, Hu, Hai-Sheng, Xia, Li-Hui
Format Journal Article
LanguageEnglish
Published United States Public Library of Science 22.05.2015
Public Library of Science (PLoS)
Subjects
Animals
Biocompatibility
Biomedical materials
Disease Models, Animal
Electrodes
Evoked Potentials, Somatosensory - physiology
Goats
Health risks
Injuries
Intervertebral discs
Knee
Laboratory animals
Laminectomy
Latency
Magnetic resonance
Magnetic Resonance Imaging
Organ Size
Orthopedics
Osteotomy
Scoliosis
Somatosensory evoked potentials
Spinal cord
Spinal Cord - pathology
Spinal Cord - physiopathology
Spinal Cord - surgery
Spinal cord injuries
Spinal Cord Injuries - pathology
Spinal Cord Injuries - physiopathology
Spinal cord injury
Surgery
Thoracic Vertebrae
Vertebrae
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Summary:Vertebral column resection is associated with a risk of spinal cord injury. In the present study, using a goat model, we aimed to investigate the relationship between changes in spinal cord volume and spinal cord injury due to spinal shortening, and to quantify the spinal cord volume per 1-mm height in order to clarify a safe limit for shortening. Vertebral column resection was performed at T10 in 10 goats. The spinal cord was shortened until the somatosensory-evoked potential was decreased by 50% from the baseline amplitude or delayed by 10% relative to the baseline peak latency. A wake-up test was performed, and the goats were observed for two days postoperatively. Magnetic resonance imaging was used to measure the spinal cord volume, T10 height, disc height, osteotomy segment height, and spinal segment height pre- and postoperatively. Two of the 10 goats were excluded, and hence, only data from eight goats were analyzed. The somatosensory-evoked potential of these eight goats demonstrated meaningful changes. With regard to neurologic function, five and three goats were classified as Tarlov grades 5 and 4 at two days postoperatively. The mean shortening distance was 23.6 ± 1.51 mm, which correlated with the d-value (post-pre) of the spinal cord volume per 1-mm height of the osteotomy segment (r = 0.95, p < 0.001) and with the height of the T10 body (r = 0.79, p = 0.02). The mean d-value (post-pre) of the spinal cord volume per 1-mm height of the osteotomy segment was 142.87 ± 0.59 mm3 (range, 142.19-143.67 mm3). The limit for shortening was approximately 106% of the vertebral height. The mean volumes of the osteotomy and spinal segments did not significantly change after surgery (t = 0.310, p = 0.765 and t = 1.241, p = 0.255, respectively). Thus, our results indicate that the safe limit for shortening can be calculated using the change in spinal cord volume per 1-mm height.
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FQ and JCY equally contributed to this work and are co-first authors.
Competing Interests: The authors have declared that no competing interests exist.
Conceived and designed the experiments: XYM FQ JCY. Performed the experiments: XYM JCY FQ JJX QLY YSX XZ HSH LHX. Analyzed the data: FQ QLY YSX. Contributed reagents/materials/analysis tools: XZ HSH LHX. Wrote the paper: FQ JCY JJX.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0127624