牙科中用于无细胞组织工程的外泌体治疗面临的挑战与策略

Challenges and strategy in treatment with exosomes for cell-free-based tissue engineering in dentistry.

作者信息

Ana Ika Dewi, Barlian Anggraini, Hidajah Atik Choirul, Wijaya Christofora Hanny, Notobroto Hari Basuki, Kencana Wungu Triati Dewi

机构信息

Department of Dental Biomedical Sciences, Faculty of Dentistry, Universitas Gadjah Mada, Yogyakarta, 55281, Indonesia.

School of Life Sciences & Technology, Institut Teknologi Bandung, Bandung, 40132, Indonesia.

出版信息

Future Sci OA. 2021 Oct 28;7(10):FSO751. doi: 10.2144/fsoa-2021-0050. eCollection 2021 Dec.

DOI:10.2144/fsoa-2021-0050

PMID:34840808

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8609983/

Abstract

In dentistry, problems of craniofacial, osteochondral, periodontal tissue, nerve, pulp or endodontics injuries, and osteoarthritis need regenerative therapy. The use of stem cells in dental tissue engineering pays a lot of increased attention, but there are challenges for its clinical applications. Therefore, cell-free-based tissue engineering using exosomes isolated from stem cells is regarded an alternative approach in regenerative dentistry. However, practical use of exosome is restricted by limited secretion capability of cells. For future regenerative treatment with exosomes, efficient strategies for large-scale clinical applications are being studied, including the use of ceramics-based scaffold to enhance exosome production and secretion which can resolve limited exosome secretory from the cells when compared with the existing methods available. Indeed, more research needs to be done on these strategies going forward.

摘要

在牙科领域，颅面、骨软骨、牙周组织、神经、牙髓或牙髓损伤以及骨关节炎等问题都需要再生治疗。干细胞在牙科组织工程中的应用备受关注，但其临床应用面临挑战。因此，利用从干细胞中分离出的外泌体进行无细胞组织工程被视为再生牙科的一种替代方法。然而，外泌体的实际应用受到细胞分泌能力有限的限制。对于未来使用外泌体的再生治疗，正在研究大规模临床应用的有效策略，包括使用基于陶瓷的支架来提高外泌体的产生和分泌，与现有方法相比，这可以解决细胞外泌体分泌有限的问题。事实上，未来还需要对这些策略进行更多研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7c72/8609983/5e9ef9e1475b/fsoa-07-751-g1.jpg

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牙科中用于无细胞组织工程的外泌体治疗面临的挑战与策略

Challenges and strategy in treatment with exosomes for cell-free-based tissue engineering in dentistry.

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