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Comparative Study
. 2021 Aug;131(8):1732-1740.
doi: 10.1002/lary.29178. Epub 2020 Nov 2.

Prevascularized Tracheal Scaffolds Using the Platysma Flap for Enhanced Tracheal Regeneration

Minhyung Lee  1 Ji Suk Choi  2 Min Rye Eom  2 Eun Ji Jeong  2 Jooyoung Kim  2 Su A Park  3 Seong Keun Kwon  1   2   4
Affiliations
Comparative Study

Prevascularized Tracheal Scaffolds Using the Platysma Flap for Enhanced Tracheal Regeneration

Minhyung Lee et al. Laryngoscope. 2021 Aug.

Abstract

Objectives: One of the greatest hurdles in tracheal tissue engineering is insufficient vascularization, which leads to delayed mucosal regeneration, inflammation, and restenosis. This study investigated whether a prevascularized segmental tracheal substitute using platysma can enhance tracheal mucosal regeneration.

Methods: Three-dimensional (3D) printed scaffolds with (group M) or without (group S) Matrigel coating were implanted under the feeding vessels of the platysma in New Zealand White rabbits (n = 3) to induce vascularization. After 1 or 2 weeks, tracheal defects were created and vascularized scaffolds with feeders of the platysma were transplanted as rotational flaps. As controls, scaffolds with or without Matrigel coating was transplanted into a tracheal defect without prevascularization. Airway patency and epithelization were examined using a rigid bronchoscope every 2 weeks. Surviving animals were euthanized at 24 weeks, and microcomputed tomography and histological evaluation were performed.

Results: Animals with 2 weeks of prevascularization showed longer survival than animals with 0 or 1 weeks of prevascularization regardless of the Matrigel coating. Wider airway patency was observed in group M than group S. Group M showed migration of epithelium over the scaffold from 4 weeks after transplantation and complete coverage with epithelium at 12 weeks, whereas group S showed migration of the epithelium from 14 weeks and incomplete coverage with epithelium even at 24 weeks.

Conclusion: This two-step method, utilizing the platysma as an in vivo bioreactor, may be a promising approach to achieve long-term survival and enhanced luminal patency. Matrigel coating on the scaffold had a synergistic effect on epithelial regeneration.

Level of evidence: NA Laryngoscope, 131:1732-1740, 2021.

Keywords: 3D printing scaffold; Tissue-engineered trachea; epithelial regeneration; prevascularization.

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References

BIBLIOGRAPHY

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