A hierarchical Bilayered scaffold for periodontal complex structure regeneration.

Wen Qin, Ling Li, Zhao Mu, Weiwei Yu, Yina Zhu, Shuailin Jia, Kun Xuan, Wen Niu, Lina Niu
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Abstract

The periodontal tissue comprises alveolar bone, cementum, and periodontal ligament (PDL), forming a highly hierarchical architecture. Although current therapies could regenerate the hard tissue well, the simultaneous reconstruction of hard and soft tissue remains a great clinical challenge with the major difficulty in highly orientated PDL regeneration. Using the unidirectional freeze-casting method and biomimetic mineralization technique, we construct a hierarchical bilayer scaffold with the aligned chitosan scaffold with ZIF-8 resembling PDL, and intrafibrillarly mineralized collagen resembling alveolar bone. The hierarchical bilayer scaffold exhibits different geomorphic clues and chemical microenvironments to realize a perfect simulation of the natural periodontal hierarchical architecture. The aligned scaffold with ZIF-8 could induce the fibrogenic differentiation of bone mesenchymal stromal cells (BMSCs), and the mineralized scaffold could induce osteogenic differentiation of BMSCs. The hierarchical bilayer scaffold could simulate periodontal complex tissue, exhibiting great promise for synchronized multi-tissue regeneration of periodontal tissue.

用于牙周复杂结构再生的分层双层支架。
牙周组织由牙槽骨、骨水泥和牙周韧带(PDL)组成,形成一个高度分层的结构。虽然目前的疗法可以很好地再生硬组织,但同时重建硬组织和软组织仍然是一项巨大的临床挑战,主要困难在于高方向性的 PDL 再生。我们利用单向冷冻铸造法和仿生矿化技术,构建了一种分层双层支架,其中排列整齐的壳聚糖支架含有类似 PDL 的 ZIF-8,而纤维内矿化的胶原则类似牙槽骨。分层双层支架呈现出不同的地貌线索和化学微环境,实现了对天然牙周分层结构的完美模拟。含有ZIF-8的排列支架可诱导骨间充质基质细胞(BMSCs)纤维化分化,而矿化支架可诱导BMSCs成骨分化。分层双层支架可以模拟牙周复合组织,在牙周组织的多组织同步再生方面大有可为。
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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