Abstract
Neurotrophic growth factor (GF) loaded hydrogels have shown promise as a treatment approach for spinal cord injury (SCI). However, SCI presents complex challenges for the direct administration of treatment due to the spinal cord’s intricate anatomy and highly sensitive environment. Many current hydrogel administration approaches overlook this complexity, limiting their translational potential. To address this, we propose a novel intrathecal administration method using an in situ gelling, hyaluronic acid-modified heparin-poloxamer hydrogel loaded with neurotrophin-3 (NT-3) for the direct delivery of NT-3 to the spinal cord. We injected a NT-3 loaded hydrogel into the intrathecal space immediately after contusion SCI in Sprague Dawley (SD) rats. Our results indicate that injecting the NT-3 loaded hydrogel into the intrathecal space was safe and that the gel was retained alongside the cord for at least one week. Additionally, no adverse effects were observed on rat behaviour. While functional improvement trends were noted, statistical significance was not reached, and immunohistochemistry results showed no significant difference between treatment groups. Overall, our findings suggest the feasibility, safety, and potential of the developed intrathecal administration technique for delivering diverse therapeutic molecules for SCI recovery.