Department of Orthopedic Surgery, Kitasato University School of Medicine, Sagamihara, Kanagawa, Japan.
Research Center for Biological Imaging, Kitasato University School of Medicine, Sagamihara, Kanagawa, Japan.
J Biomed Mater Res B Appl Biomater. 2020 Feb;108(2):326-332. doi: 10.1002/jbm.b.34391. Epub 2019 Apr 23.
Several nerve conduits have been investigated for their potential as alternative sources of autografts for bridging neural gaps. However, autologous nerve transplants remain the most effective for nerve repair. We examined clinically approved nerve conduits containing collagen and polyglycolic acid (PGA-c) combined with collagen-binding basic fibroblast growth factor (bFGF) containing a polycystic kidney disease (PKD) domain and collagen binding domain (CBD) (bFGF-PKD-CBD) in a rat 15-mm sciatic nerve critical-size defect model. The treatment groups were: PGA-c immersed in phosphate-buffered saline (PBS) (PGA-c/PBS group), bFGF (PGA-c/bFGF group), or bFGF-PKD-CBD (PGA-c/bFGF-PKD-CBD group), and no treatment (Defect group). Gait and histological analyses were performed. Four weeks after treatment, the recovery rate of the paw print area was significantly greater in the PGA-c/bFGFPKD-CBD group than the PGA-c/PBS and PGA-c/bFGF groups. Mean intensity of paw prints was significantly greater in the PGA-c/bFGF-PKD-CBD group than the PGA-c/PBS and Defect groups. Swing time was significantly greater in the PGA-c/PBS, PGA-c/bFGF, and PGA-c/bFGF-PKD-CBD groups than the Defect group. At 8 weeks, all three parameters were significantly greater in the PGA-c/PBS, PGA-c/bFGF, and PGA-c/bFGF-PKD-CBD groups than the Defect group. Regenerated myelinated fibers were observed in 7/8 (87.5%) rats in the PGA-c/bFGF-PKD-CBD group after 8 weeks, and in 1/8 (12.5%) and 3/8 (37.5%) rats in the PGA-c/PBS and PGA-c/bFGF groups, respectively. PGA-c/bFGF-PKD-CBD composites may be promising biomaterials for promoting functional recovery of long-distance peripheral nerve defects in clinical practice.
已经有几种神经导管被研究用于作为桥接神经间隙的自体移植物的替代来源。然而,自体神经移植仍然是最有效的神经修复方法。我们在大鼠 15mm 坐骨神经临界缺损模型中检查了临床批准的含胶原和聚乙二醇酸 (PGA-c) 的神经导管,该导管与含有多囊肾病 (PKD) 结构域和胶原结合结构域 (CBD) 的胶原结合碱性成纤维细胞生长因子 (bFGF) 结合(bFGF-PKD-CBD)。治疗组为:PGA-c 浸泡在磷酸盐缓冲液 (PBS) 中 (PGA-c/PBS 组)、bFGF (PGA-c/bFGF 组) 或 bFGF-PKD-CBD (PGA-c/bFGF-PKD-CBD 组),以及未治疗组 (缺损组)。进行步态和组织学分析。治疗后 4 周,PGA-c/bFGF-PKD-CBD 组的足印面积恢复率明显大于 PGA-c/PBS 和 PGA-c/bFGF 组。PGA-c/bFGF-PKD-CBD 组的足印平均强度明显大于 PGA-c/PBS 和缺损组。PGA-c/PBS、PGA-c/bFGF 和 PGA-c/bFGF-PKD-CBD 组的摆动时间明显大于缺损组。8 周时,PGA-c/PBS、PGA-c/bFGF 和 PGA-c/bFGF-PKD-CBD 组的所有三个参数均明显大于缺损组。8 周后,PGA-c/bFGF-PKD-CBD 组的 7/8(87.5%)大鼠中有再生的有髓神经纤维,PGA-c/PBS 和 PGA-c/bFGF 组的 1/8(12.5%)和 3/8(37.5%)大鼠中有再生的有髓神经纤维。PGA-c/bFGF-PKD-CBD 复合材料可能是促进临床实践中长距离周围神经缺损功能恢复的有前途的生物材料。
