AI Article Synopsis
- - The study introduces a new large-animal model using pigs for spinal cord compression injuries (SCI), aimed at improving understanding and treatment of SCI in humans.
- - Researchers applied controlled pressure to the spinal cord and used various techniques, including neurophysiological recordings and MRI, to assess the injury's impact and recovery potential.
- - Results showed a strong correlation between the pressure level and functional outcomes, indicating that the integrated methods could provide real-time monitoring and improve early detection of SCI-related problems.
Article Abstract
Introduction: Spinal cord injury (SCI) is a devastating neurological disorder with an enormous impact on individual's life and society. A reliable and reproducible animal model of SCI is crucial to have a deeper understanding of SCI. We have developed a large-animal model of spinal cord compression injury (SCI) with integration of multiple prognostic factors that would have applications in humans.
Methods: Fourteen human-like sized pigs underwent compression at T8 by implantation of an inflatable balloon catheter. In addition to basic neurophysiological recording of somatosensory and motor evoked potentials, we introduced spine-to-spine evoked spinal cord potentials (SP-EPs) by direct stimulation and measured them just above and below the affected segment. A novel intraspinal pressure monitoring technique was utilized to measure the actual pressure on the cord. The gait and spinal MRI findings were assessed in each animal postoperatively to quantify the severity of injury.
Results: We found a strong negative correlation between the intensity of pressure applied to the spinal cord and the functional outcome ( < 0.0001). SP-EPs showed high sensitivity for real time monitoring of intraoperative cord damage. On MRI, the ratio of the high-intensity area to the cross-sectional of the cord was a good predictor of recovery ( < 0.0001).
Conclusion: Our balloon compression SCI model is reliable, predictable, and easy to implement. By integrating SP-EPs, cord pressure, and findings on MRI, we can build a real-time warning and prediction system for early detection of impending or iatrogenic SCI and improve outcomes.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10030512 | PMC |
| http://dx.doi.org/10.3389/fneur.2023.1136267 | DOI Listing |
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