The effects of aligned poly(lactic-co-glycolic acid) nanofibrous mat containing gold nanoparticles after planting onto an injured spinal cord

Transplanted cells rarely survive because of the inflammatory cytokines after spinal cord injury. To increase the survival, we synthesized a hydrophilic and aligned nanofibrous mat. We electrospun thiolate (SH)/aligned (A) poly(lactic-co-glycolic acid) (PLGA) nanofibrous mats. The PLGA-SH (A) nanofibrous mats were conjugated with gold nanoparticles (GNPs) to increase the hydrophilicity. The contact angle is decreased from 105.3° ± 5.2 (for randomly directional PLGA mats) to 28.1° ± 2.8 (for PLGA-GNP (A) mats). Green fluorescent protein (GFP)-expressing neural progenitor cells (NPCs) were dissociated from the embryonic spinal cords of Fisher 344 rats. We embedded the embryonic spinal-cord-derived NPCs in glycol chitosan (gC)-oxidized hyaluronate (oHA) hydrogels (=NPC graft). The NPC graft was transplanted into spinal-cord-injured Sprague-Dawley rats. Afterwards, the aligned PLGA-GNP nanofibrous mat was positioned onto the NPC-grafted region (=Injury + NPC graft + PLGA-GNP (A) nanofibrous mat (INP) group). We also added Injury (=I) and Injury + NPC graft (=IN) groups as control groups. The survival outcomes of transplanted NPCs were noticeably increased in the INP group compared to those in the IN group. We suggest a separate implanting therapy of NPCs and a hydrophilic PLGA-GNP (A) nanofibrous mat for spinal cord injuries.