Feasibility of a porcine oral mucosa equivalent: a preclinical study.

Beste Kinikoglu, Julie Hemar, Vasif Hasirci, Pierre Breton, Odile Damour
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引用次数: 10

Abstract

Oral tissue engineering aims to treat and fill tissue deficits caused by congenital defects, facial trauma, or malignant lesion surgery, as well as to study the biology of oral mucosa. The Food and Drug Administration (FDA) and the European Medicines Agency (EMA) require a large animal model to evaluate cell-based devices, including tissue-engineered oral mucosa, prior to initiating human clinical studies. Porcine oral mucosa is non-keratinized and resembles that of humans more closely than any other animal in terms of structure and composition; however, there have not been any reports on the reconstruction of a porcine oral mucosa equivalent, probably due to the difficulty to culture porcine fibroblasts. In this study, we demonstrate the feasibility of a 3D porcine oral mucosa equivalent based on a collagen-GAG-chitosan scaffold, as well as reconstructed porcine epithelium by using an amniotic membrane as support, or without any support in form of epithelial cell sheets by using thermoresponsive culture plates. Explants technique was used for the isolation of the porcine fibroblasts and a modified fibroblast medium containing 20% fetal calf serum was used for their culture. The histological and transmission electron microscopic analyses of the resulting porcine oral mucosa models showed the presence of non-keratinized epithelia expressing keratin 13, the major differentiation marker of non-keratinized oral mucosa, in all models, and the presence of newly synthesized collagen fibers in the lamina propria equivalent of the full-thickness model, indicating the functionality of porcine fibroblasts.

猪口腔黏膜等效物的可行性:临床前研究。
口腔组织工程旨在治疗和填补先天性缺陷、面部创伤或恶性病变手术造成的组织缺损,以及研究口腔黏膜的生物学。美国食品和药物管理局(FDA)和欧洲药品管理局(EMA)在开始人体临床研究之前,需要一个大型动物模型来评估基于细胞的设备,包括组织工程口腔粘膜。猪口腔黏膜没有角化,在结构和组成方面比任何其他动物都更接近人类;然而,可能由于猪成纤维细胞的培养困难,尚未有任何关于重建猪口腔黏膜等效物的报道。在这项研究中,我们证明了基于胶原- gag -壳聚糖支架的三维猪口腔黏膜等效物的可行性,以及利用羊膜作为支撑重建猪上皮的可行性,或者利用热反应培养板重建没有任何上皮细胞片支持的猪上皮。采用外植体技术分离猪成纤维细胞,采用含20%胎牛血清的改良成纤维细胞培养基进行培养。猪口腔黏膜模型的组织学和透射电镜分析显示,所有模型中都存在表达角蛋白13(非角化口腔黏膜的主要分化标志物)的非角化上皮,并且在相当于全层模型的固有层中存在新合成的胶原纤维,表明猪成纤维细胞的功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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