Postoperative epidural adhesion remains a clinically challenging problem in spine surgery. Currently there are no effective and safe anti-fibrotic and anti-adhesion biomaterials that have been specifically developed for this complication… Click to show full abstract
Postoperative epidural adhesion remains a clinically challenging problem in spine surgery. Currently there are no effective and safe anti-fibrotic and anti-adhesion biomaterials that have been specifically developed for this complication in clinical practice. Herein we designed and engineered an advanced anti-adhesion hydrogel with multiple functionalities, including temperature-responsive gelation, self-healing, tissue adhesiveness, anti-oxidation, anti-inflammation, and anti-fibrosis. This multifunctional supramolecular hydrogel can be facilely constructed by integrating three functional modules, i.e., a thermosensitive triblock copolymer poloxamer 407 (PX), a reactive oxygen species-eliminating and anti-inflammatory nanoparticle (TPCD NP), and an adhesion-enhancing compound tannic acid (TA). The optimal formulation (PXNT) was hierarchically screened based on in vitro properties and in vivo activities. Therapeutically, local treatment with PXNT hydrogel effectively prevented epidural fibrosis and adhesion after laminectomy in both rats and rabbits. Of note, PXNT hydrogel showed more beneficial efficacy than different control thermosensitive hydrogels and a commercially available barrier product Interceed. Mechanistically, PXNT hydrogel significantly attenuated local oxidative stress, inhibited inflammatory responses, and reduced fibrotic tissue formation. Moreover, treatment with PXNT hydrogel did not cause systemic adverse effects and neurological symptoms. Consequently, PXNT hydrogel is a highly promising biomaterial for preventing postlaminectomy epidural adhesion and adhesions after other surgeries.
               
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