Lessons Learned From Various 3D-Printed Tracheal Grafts in an Extensive Porcine Model for De Novo Tracheal Regeneration.

IF 3.6 2区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

Annals of Thoracic Surgery Pub Date : 2025-03-04 DOI:10.1016/j.athoracsur.2025.02.010

Sen-Ei Shai, Yi-Ling Lai, Yi-Wen Hung, Chi-Wei Hsieh, Kuo-Chih Su, Chun-Hsiang Wang, Te-Hsin Chao, Yung-Tsung Chiu, Chia-Ching Wu, Shih-Chieh Hung

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引用次数: 0

Abstract

Background: Tracheal implants using tissue engineering and 3-dimensional printing are promising, but challenges remain, including graft composition, anastomosis methods, and tracheal tissue regeneration. This study examined the effectiveness of various tracheal graft materials in a large animal model.

Methods: A total of 38 operations were performed on a porcine large animal model, involving a 2-cm circumferential tracheal excision with end-to-end anastomosis. The grafts used included translucent plastic material crystal (n = 16), silicone (n = 8), and polycaprolactone (PCL; n = 8). Nonabsorbable (n = 28) or absorbable (n = 4) sutures were applied, and 2 animals underwent modified distal trachea anchoring using the strap muscle. Bronchoscopy and laser ablation were used to assess granulation tissue and graft patency in select cases. Postoperative complications, survival rates, and tissue regeneration outcomes were tracked.

Results: Operation times ranged from 91 to 126 minutes. Animals survived between 5 and 92 days, with 29 experiencing complications such as abdominal distress (n = 15) and granulation tissue formation (n = 18) after 7 days. Postoperative issues included wound infection (n = 16), graft infection (n = 7), and necrosis (n = 14). Histologic examination revealed regenerating tissue with chondrogenesis (n = 8), adipogenesis (n = 9), myogenesis (n = 9), angiogenesis (n = 6), glandogenesis (n = 2), and epithelialization (n = 2). Two PCL graft recipients with strap muscle reinforcement survived longer, gaining 101 kg, with 1 animal showing heterotopic ossification.

Conclusions: This study highlights critical insights into graft material selection and integration with native tissue. PCL grafts demonstrated improved integration and tissue healing with biodegradable properties, findings supporting their potential for clinical use in tracheal implants.

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从各种3d打印气管移植物在一个广泛的猪模型气管再生的经验教训。

背景：利用组织工程和三维（3D）打印技术进行气管植入是很有前途的，但仍然存在挑战，包括移植物成分、吻合方法和气管组织再生。本研究在大型动物模型上检验了各种气管移植材料的有效性。方法：在猪大动物模型上行38例气管手术，包括2 cm气管环切端端吻合。使用的移植物包括半透明塑料材料晶体（n=16）、硅胶（n=8）和聚己内酯（PCL, n=8）。应用不可吸收缝合线（n=28）或可吸收缝合线（n=4）， 2只动物使用改良的带肌气管远端锚定。支气管镜检查和激光消融评估肉芽组织和移植物通畅的选择病例。跟踪术后并发症、生存率和组织再生结果。结果：手术时间91 ~ 126分钟。动物存活时间为5 - 92天，其中29只在7天后出现腹部不适（n=15）和肉芽组织形成（n=18）等并发症。术后问题包括伤口感染（n=16）、移植物感染（n=7）和坏死（n=14）。组织学显示再生组织包括软骨生成（n=8）、脂肪生成（n=9）、肌肉生成（n=9）、血管生成（n=6）、腺体生成（n=2）和上皮生成（n=2）。两只带状肌肉加固的PCL移植动物存活时间更长，体重增加了101公斤，其中一只出现异位骨化。结论：该研究突出了移植物材料选择和与原生组织融合的关键见解。PCL移植物表现出更好的整合和组织愈合，具有可生物降解的特性，支持其在气管植入物中的临床应用潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Annals of Thoracic Surgery 医学-呼吸系统

CiteScore

6.40

自引率

13.00%

发文量

1235

审稿时长

42 days

期刊介绍： The mission of The Annals of Thoracic Surgery is to promote scholarship in cardiothoracic surgery patient care, clinical practice, research, education, and policy. As the official journal of two of the largest American associations in its specialty, this leading monthly enjoys outstanding editorial leadership and maintains rigorous selection standards. The Annals of Thoracic Surgery features: • Full-length original articles on clinical advances, current surgical methods, and controversial topics and techniques • New Technology articles • Case reports • "How-to-do-it" features • Reviews of current literature • Supplements on symposia • Commentary pieces and correspondence • CME • Online-only case reports, "how-to-do-its", and images in cardiothoracic surgery. An authoritative, clinically oriented, comprehensive resource, The Annals of Thoracic Surgery is committed to providing a place for all thoracic surgeons to relate experiences which will help improve patient care.