Biotechnology Research Center, Pharmaceutical Technology Institute, Mashhad University of Medical Sciences, Mashhad, Iran.
NanoSBY Knowledge Based Corporation, Mashhad, Iran.
J Mater Sci Mater Med. 2019 Mar 6;30(3):33. doi: 10.1007/s10856-019-6235-9.
We have evaluated the capability of a collagen/poly glycolic acid (PGA) scaffold in regeneration of a calvarial bone defects in rabbits. 4 bone critical size defects (CSD) were created in the calvarial bone of each rabbit. The following 4 treatment modalities were tested (1) a collagen/PGA scaffold (0.52% w/w); (2) the collagen/PGA scaffold (0.52% w/w) seeded with adipose-derived mesenchymal stem cells (AD-MSCs, 1 × 10 cells per each defect); (3) AD-MSCs (1 × 10 cells) no scaffold material, and (4) blank control. The rabbits were then divided into 3 random groups (of 5) and the treatment outcomes were evaluated at 4, 8 and 12 weeks. New bone formation was histologically assessed. Experimental groups were analyzed by CT scan and real-time PCR. Histological analysis of bone defects treated with collagen/PGA alone exhibited significant fibrous connective tissue formation at the 12 weeks of treatments (P ≤ 0.05). There was no significant difference between collagen/PGA alone and collagen/PGA + AD-MSCs groups. The results were confirmed by CT scan data showing healing percentages of 34.20% for the collage/PGA group alone as compared to the control group and no difference with collagen/PGA containing AD-MSCs (1 × 10 cells). RT-PCR analysis also indicated no significant differences between collagen/PGA and collagen/PGA + AD-MSC groups, although both scaffold containing groups significantly express ALP and SIO rather than groups without scaffolds. Although there was no significant difference between the scaffolds containing cells with non-cellular scaffolds, our results indicated that the Collagen/PGA scaffold itself had a significant effect on wound healing as compared to the control group. Therefore, the collagen/PGA scaffold seems to be a promising candidate for research in bone regeneration.
我们评估了胶原/聚乙醇酸(PGA)支架在兔颅骨骨缺损再生中的能力。在每只兔颅骨骨中创建了 4 个骨临界尺寸缺损(CSD)。测试了以下 4 种治疗方式:(1)胶原/PGA 支架(0.52%w/w);(2)胶原/PGA 支架(0.52%w/w)种植脂肪间充质干细胞(AD-MSCs,每个缺损 1×10 个细胞);(3)无支架材料的 AD-MSCs(1×10 个细胞);(4)空白对照。然后将兔子分为 3 个随机组(每组 5 只),并在 4、8 和 12 周时评估治疗结果。通过组织学评估新骨形成。通过 CT 扫描和实时 PCR 分析实验组。单独用胶原/PGA 治疗的骨缺损的组织学分析显示,在治疗 12 周时存在明显的纤维结缔组织形成(P≤0.05)。胶原/PGA 单独组与胶原/PGA+AD-MSCs 组之间无显著差异。CT 扫描数据证实了这一结果,单独用胶原/PGA 组的愈合百分比为 34.20%,与对照组相比无差异,与含有 AD-MSCs(1×10 个细胞)的胶原/PGA 无差异。RT-PCR 分析还表明,胶原/PGA 组和胶原/PGA+AD-MSC 组之间没有显著差异,尽管含有支架的两组均显著表达 ALP 和 SIO,而无支架的两组则没有。尽管细胞含量不同的支架之间没有显著差异,但与对照组相比,我们的结果表明胶原/PGA 支架本身对伤口愈合有显著影响。因此,胶原/PGA 支架似乎是骨再生研究的有前途的候选者。
