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Details

Autor(en) / Beteiligte
Titel
Development of a motor and somatosensory evoked potentials-guided spinal cord Injury model in non-human primates
Ist Teil von
  • Journal of neuroscience methods, 2019-01, Vol.311, p.200-214
Ort / Verlag
Netherlands: Elsevier B.V
Erscheinungsjahr
2019
Quelle
MEDLINE
Beschreibungen/Notizen
  • •Primate modeling of spinal cord injury assures obtaining the most adequate results.•However, experimental trauma must not cause animal suffering and hamper their care.•We created a primate SCI model based on SSEP/MEP-guided surgical resection.•Persistent SSEP/MEP disappearance indicated irreversible signal pathways’ disruption.•Functional and morphological studies proved the model reproducibility and adequacy. Background Nonhuman primates (NHP) may provide the most adequate (in terms of neuroanatomy and neurophysiology) model of spinal cord injury (SCI) for testing regenerative therapies, but bioethical considerations exclude their use in severe SCI. New Method A reproducible model of SCI at the lower thoracic level has been developed in Rhesus macaques. The model comprises surgical resection of 25% of the spinal cord in the projection of the dorsal funiculus and dorsolateral corticospinal pathways, controlled via registration of intraoperative evoked potentials (EPs). The animals were evaluated using the modified Hindlimb score, MRI, SSEP, and MEP over a time period of 8–12 weeks post-SCI, followed by histological examination. Results Complete disappearance of intraoperative EPs from distal hindlimb muscles without restoration within two weeks post-SCI was an indicator for irreversible disruption of the abovementioned pathways. As a result, controlled damage to the spinal cord was achieved in three NHPs, clinically manifested as irreversible lower monoplegia. No significant functional restoration was observed in these NHPs up to 12 weeks post-SCI. Demyelination of the damaged ascending tracts was detected. Disturbances in pelvic organ function were not observed in all animals. Comparison with existing methods The new method of EPs-guided SCI allows a more controlled and irreversible damage to the spinal cord compared with contusion and other transection approaches. Conclusions This method to induce complete SCI in NHP is well tolerated, reproducible and ethically acceptable: these are valuable attributes in a preclinical model that will hopefully help advance testing of new regenerative therapies in SCI.

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