组织工程复合气管移植物可制造出机械性能稳定且具有生物相容性的气道替代物。

Tissue-engineered composite tracheal grafts create mechanically stable and biocompatible airway replacements.

作者信息

Liu Lumei, Dharmadhikari Sayali, Spector Barak M, Tan Zheng Hong, Van Curen Catherine E, Agarwal Riddhima, Nyirjesy Sarah, Shontz Kimberly, Sperber Sarah A, Breuer Christopher K, Zhao Kai, Reynolds Susan D, Manning Amy, VanKoevering Kyle K, Chiang Tendy

机构信息

Center of Regenerative Medicine, Abigail Wexner Research Institute, Nationwide Children's Hospital, Columbus, OH, USA.

Department of Pediatric Otolaryngology, Nationwide Children's Hospital, Columbus, OH, USA.

出版信息

J Tissue Eng. 2022 Jun 26;13:20417314221108791. doi: 10.1177/20417314221108791. eCollection 2022 Jan-Dec.

DOI:10.1177/20417314221108791

PMID:35782992

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9243572/

Abstract

We tested composite tracheal grafts (CTG) composed of a partially decellularized tracheal graft (PDTG) combined with a 3-dimensional (3D)-printed airway splint for use in long-segment airway reconstruction. CTG is designed to recapitulate the 3D extracellular matrix of the trachea with stable mechanical properties imparted from the extraluminal airway splint. We performed segmental orthotopic tracheal replacement in a mouse microsurgical model. MicroCT was used to measure graft patency. Tracheal neotissue formation was quantified histologically. Airflow dynamic properties were analyzed using computational fluid dynamics. We found that CTG are easily implanted and did not result in vascular erosion, tracheal injury, or inflammation. Graft epithelialization and endothelialization were comparable with CTG to control. Tracheal collapse was absent with CTG. Composite tracheal scaffolds combine biocompatible synthetic support with PDTG, supporting the regeneration of host epithelium while maintaining graft structure.

摘要

我们测试了由部分脱细胞气管移植物（PDTG）与三维（3D）打印气道夹板相结合构成的复合气管移植物（CTG），用于长节段气道重建。CTG旨在重现气管的三维细胞外基质，并具有来自管腔外气道夹板赋予的稳定机械性能。我们在小鼠显微手术模型中进行了节段原位气管置换。使用微型计算机断层扫描（MicroCT）测量移植物通畅性。通过组织学方法对气管新组织形成进行定量分析。使用计算流体动力学分析气流动力学特性。我们发现CTG易于植入，且不会导致血管侵蚀、气管损伤或炎症。CTG的移植物上皮化和内皮化与对照组相当。CTG未出现气管塌陷。复合气管支架将生物相容性合成支撑物与PDTG相结合，在维持移植物结构的同时支持宿主上皮的再生。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e0e2/9243572/6a4e4949e8e4/10.1177_20417314221108791-fig1.jpg

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组织工程复合气管移植物可制造出机械性能稳定且具有生物相容性的气道替代物。

Tissue-engineered composite tracheal grafts create mechanically stable and biocompatible airway replacements.

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