Abstract: Dura closure following the surgery of traumatic brain injury is important to keep the structural integrity of brain and serve as the barrier to prevent infection and the leakage of cerebrospinal fluid. Though artificial dural maters can provide barrier capability, the performance for injured neural cells repairing and neuroprotection in the stage of secondary injury are unsatisfied. Herein, we designed and manufactured a multilayered nanofiber dural mater for the repair of traumatic brain injury. The results showed that the multilayered nanofiber dural mater was able to promote the survival and neurite extension of SH-SY5Y cells following the injuries of neurite transection, oxygen and glucose deprivation and oxidative stress, respectively. Minocycline hydrochloride and insulin growth factor-1 were separately incorporated into fibers to realize the differentially dual release for the purpose of immunomodulation at early stage and exert neuroprotection ability during the repair process. In addition, the multilayered nanofiber dural mater promoted the increase of M2 polarization for microglia cells and the secretion of anti-inflammatory cytokines, enhancing the survival of neural cells. The capabilities of the multilayered nanofiber dural mater for antibacterial properties, anti-adhesion, barrier performance, anti-leakage and biocompatibility have also been verified. Taken together, such multilayered nanofiber dural mater has shown promising potential to serve as the substitutes for dura and promotingneural recovery after traumatic brain injury.

Key words: anti-adhesion, antibacterial, anti-inflammatory, anti-leakage, barrier performance, biocompatibility, differential dual-release, multilayered nanofiber dura mater, neuroprotection, traumatic brain injury, nerve regeneration