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Scaffold‐Free Tracheal Engineering via a Modular Strategy Based on Cartilage and Epithelium Sheets

Minglei Yang, Jiafei Chen, Yi Chen, Weikang Lin, Hai Tang, Ziwen Fan, Long Wang, Yunlang She, Feng Jin, Lei Zhang, Weiyan Sun, Chang Chen

2022Advanced Healthcare Materials18 citationsDOI

Abstract

Tracheal defects lead to devastating problems, and practical clinical substitutes that have complex functional structures and can avoid adverse influences from exogenous bioscaffolds are lacking. Herein, a modular strategy for scaffold-free tracheal engineering is developed. A cartilage sheet (Cart-S) prepared by high-density culture is laminated and reshaped to construct a cartilage tube as the main load-bearing structure in which the chondrocytes exhibit a stable phenotype and secreted considerable cartilage-specific matrix, presenting a native-like grid arrangement. To further build a tracheal epithelial barrier, a temperature-sensitive technique is used to construct the monolayer epithelium sheet (Epi-S), in which the airway epithelial cells present integrated tight junctions, good transepithelial electrical resistance, and favorable ciliary differentiation capability. Epi-S can be integrally transferred to inner wall of cartilage tube, forming a scaffold-free complex tracheal substitute (SC-trachea). Interestingly, when Epi-S is attached to the cartilage surface, epithelium-specific gene expression is significantly enhanced. SC-trachea establishes abundant blood supply via heterotopic vascularization and then is pedicle transplanted for tracheal reconstruction, achieving 83.3% survival outcomes in rabbit models. Notably, the scaffold-free engineered trachea simultaneously satisfies sufficient mechanical properties and barrier function due to its matrix-rich cartilage structure and well-differentiated ciliated epithelium, demonstrating great clinical potential for long-segmental tracheal reconstruction.

Topics & Concepts

CartilageScaffoldTissue engineeringChondrogenesisAnatomyEpitheliumCell biologyMatrix (chemical analysis)Biomedical engineeringMaterials scienceBiologyPathologyMedicineComposite materialTracheal and airway disordersTissue Engineering and Regenerative MedicineElectrospun Nanofibers in Biomedical Applications
Scaffold‐Free Tracheal Engineering via a Modular Strategy Based on Cartilage and Epithelium Sheets | Litcius