a Tissue Engineering Centre, Universiti Kebangsaan Malaysia Medical Centre , Universiti Kebangsaan Malaysia , Kuala Lumpur , Malaysia.
b Malaysian Nuclear Agency , Selangor , Malaysia.
J Biomater Sci Polym Ed. 2018 Dec;29(17):2051-2067. doi: 10.1080/09205063.2018.1485814. Epub 2018 Nov 10.
Amniotic membrane has the potential to be used as scaffold in various tissue engineering applications. However, increasing its biostability at the same time maintaining its biocompatibility is important to enhance its usage as a scaffold. This studied characteristics genipin-crosslinked amniotic membrane as a bioscaffold. Redundant human amniotic membranes (HAM) divided into native (nAM), decellularized (dAM) and genipin-crosslinked (clAM) groups. The dAM and clAM group were decellularized using thermolysin (TL) and sodium hydroxide (NaOH) solution. Next, clAM group was crosslinked with 0.5% and 1.0% (w/v) genipin. The HAM was then studied for in vitro degradation, percentage of swelling, optical clarity, ultrastructure and mechanical strength. Meanwhile, fibroblasts isolated from nasal turbinates were then seeded onto nAM, dAM and clAM for biocompatibility studies. clAM had the slowest degradation rate and were still morphologically intact after 30 days of incubation in 0.01% collagenase type 1 solution. The dAM had a significantly highest percentage of swelling than other groups (p < 0.05). Besides, the dAM retained the collagen content at similar level of nAM. Although the dAM had highest mechanical strength compared to the rest of the groups, the differences were statistically insignificant. Cell attachment on dAM and 0.5% clAM was higher compared to that on nAM and 1.0% clAM. In conclusion, clAM have better biostability and biocompatibility compared to the nAM and dAM. Together with other suitable characteristics of the clAM such as percentage of swelling, structural integrity and ECM content, clAM is suitable as scaffold for various tissue engineering applications.
羊膜具有作为各种组织工程应用支架的潜力。然而,为了增强其作为支架的用途,提高其生物稳定性的同时保持其生物相容性非常重要。本研究以基因交联羊膜为生物支架的特性。将多余的人羊膜(HAM)分为天然(nAM)、脱细胞(dAM)和基因交联(clAM)组。使用耐热酶(TL)和氢氧化钠(NaOH)溶液对 dAM 和 clAM 组进行脱细胞处理。然后,clAM 组用 0.5%和 1.0%(w/v)京尼平交联。然后研究 HAM 的体外降解、溶胀率、光学透明度、超微结构和机械强度。同时,从鼻鼻甲分离的成纤维细胞接种到 nAM、dAM 和 clAM 上进行生物相容性研究。clAM 的降解速度最慢,在 0.01%胶原酶 1 溶液中孵育 30 天后仍保持形态完整。dAM 的溶胀率明显高于其他组(p<0.05)。此外,dAM 保留了与 nAM 相似水平的胶原蛋白含量。尽管与其他组相比,dAM 的机械强度最高,但差异无统计学意义。与 nAM 和 1.0% clAM 相比,dAM 和 0.5% clAM 上的细胞附着更高。总之,clAM 与 nAM 和 dAM 相比具有更好的生物稳定性和生物相容性。clAM 的其他合适特性,如溶胀率、结构完整性和 ECM 含量,使其适合作为各种组织工程应用的支架。
