Background: Spinal cord injury (SCI) remains an unmet medical need. Recently, fusogens, such as polyethylene glycol (PEG), have been proven effective in restoring sensorimotor function after complete transection of the spinal cord at different levels and in different species. Here, we report on the use of a PEG-chitosan combo in a different animal model (swine).
Methods: Five Hungarian Mangalica pigs were subjected to complete transection of the thoracic cord (T7-9). Three animals were treated with locally injected PEG-chitosan (Neuro-PEG) gel; two acted as controls. PEG-600 was also injected intra- and post-operatively intravenously. Animals were submitted to rehabilitation, including electrical myostimulation. Results were assessed after 60 days using the Individual Limb Motor Score, the Porcine Thoracic Spinal Cord Injured Behavioral Scale, and the modified motor Basso, Beattie, and Bresnahan scale; sensory and sphincter functions were also assessed. Animals underwent in vivo spinal cord tracing with DiI. Immunofluorescence histology included NF-200, DAPI, and a fluorochrome-conjugated secondary antibody.
Results: Starting on postoperative day (POD) 2, neuro-PEG-treated animals evinced the first signs of recovery, and on POD 60, they could all support their weight and were mobile. Controls never recovered any useful function. Fluorescence microscopy in the experimental group revealed axons passing through the site of injury, while degenerative post-traumatic changes were noted in controls.
Conclusion: Neuro-PEG affords sensorimotor recovery after complete spinal cord transection. This opens the door to human experimentation, including trials of spinal cord transplantation.
Keywords: Chitosan; Fusogen-sealants; Fusogens; Neuro-PEG; PEG-chitosan; Polyethylene glycol; Spinal cord injury.
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