牙发生相关的发育微环境促进乳牙牙髓干细胞聚集物使离体牙复活。

Odontogenesis-related developmental microenvironment facilitates deciduous dental pulp stem cell aggregates to revitalize an avulsed tooth.

机构信息

State Key Laboratory of Military Stomatology & National Clinical Research Center for Oral Diseases & Shaanxi International Joint Research Center for Oral Diseases, Center for Tissue Engineering, School of Stomatology, Fourth Military Medical University, Xi'an, Shaanxi, 710032, China; Department of Preventive Dentistry, School of Stomatology, Fourth Military Medical University, Xi'an, Shaanxi, 710032, China.

出版信息

Biomaterials. 2021 Dec;279:121223. doi: 10.1016/j.biomaterials.2021.121223. Epub 2021 Oct 22.

DOI:10.1016/j.biomaterials.2021.121223

PMID:34736149

Abstract

Harnessing developmental processes for tissue engineering represents a promising yet challenging approach to regenerative medicine. Tooth avulsion is among the most serious traumatic dental injuries, whereas functional tooth regeneration remains uncertain. Here, we established a strategy using decellularized tooth matrix (DTM) combined with human dental pulp stem cell (hDPSC) aggregates to simulate an odontogenesis-related developmental microenvironment. The bioengineered teeth reconstructed by this strategy regenerated three-dimensional pulp and periodontal tissues equipped with vasculature and innervation in a preclinical pig model after implantation into the alveolar bone. These results prompted us to enroll 15 patients with avulsed teeth after traumatic dental injuries in a pilot clinical trial. At 12 months after implantation, bioengineered teeth led to the regeneration of functional teeth, which supported continued root development, in humans. Mechanistically, exosomes derived from hDPSC aggregates mediated the tooth regeneration process by upregulating the odontogenic and angiogenic ability of hDPSCs. Our findings suggest that odontogenic microenvironment engineering by DTM and stem cell aggregates initiates functional tooth regeneration and serves as an effective treatment for tooth avulsion.

摘要

利用发育过程进行组织工程是再生医学中一种很有前途但具有挑战性的方法。牙齿脱位是最严重的外伤性牙损伤之一，而功能性牙齿再生仍然不确定。在这里，我们建立了一种使用脱细胞牙基质 (DTM) 结合人牙髓干细胞 (hDPSC) 聚集物的策略，以模拟与牙发生相关的发育微环境。在将这种策略重建的生物工程牙齿植入牙槽骨后，在临床前猪模型中再生了具有血管和神经支配的三维牙髓和牙周组织。这些结果促使我们在一项初步临床试验中招募了 15 名外伤性牙齿脱位的患者。在植入后 12 个月，生物工程牙齿导致了功能性牙齿的再生，这些牙齿支持了根的继续发育。在机制上，来自 hDPSC 聚集物的外泌体通过上调 hDPSC 的成牙和血管生成能力来介导牙齿再生过程。我们的研究结果表明，DTM 和干细胞聚集物的牙发生微环境工程启动了功能性牙齿再生，并为牙齿脱位提供了有效的治疗方法。

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牙发生相关的发育微环境促进乳牙牙髓干细胞聚集物使离体牙复活。

Odontogenesis-related developmental microenvironment facilitates deciduous dental pulp stem cell aggregates to revitalize an avulsed tooth.

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