Utilizing biomaterials for laryngeal respiratory mucosal tissue repair in an animal model

Q3 Biochemistry, Genetics and Molecular Biology

Biomaterials and biosystems Pub Date : 2025-08-21 DOI:10.1016/j.bbiosy.2025.100120

Mohsen Salary , Saleh Mohebbi , Aslan Ahmadi , Zohreh Bagher , Mohamad Pezeshki-Modaress , Hossein Aminianfar , Saeed Farzad‐Mohajeri , Nazanin Samiei , Farzad Taghizadeh-Hesary , Hadi Ghanbari

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Abstract

Introduction

The airway mucosa plays a crucial role in protection and various physiological functions. Current methods for restoring airway mucosa, such as myocutaneous flaps or split skin grafts, create a stratified squamous layer that lacks the cilia and mucus-secreting glands of the native columnar-lined airway. This study examines the application of various injectable biopolymers as active molecules for a potential approach to regenerating laryngeal epithelial tissue.

Methods

The sample includes nine healthy dogs of the same breed. First, the medical engineering team prepared three types of biosynthetic materials (alginate, PGS, and chitosan) in a standard laboratory setting. After the induction of anesthesia in animals, the upper surface of the true vocal cords was bilaterally incised and denuded to create a uniform injury site. Biomaterials were applied to one side (intervention side), while the contralateral side served as the control and received no treatment. The length of the affected area after induction of injury, as observed in the microscopic view, was analyzed in relation to the effects of biomaterials, including epithelial hyperplasia, inflammation, granulation bed formation, angiogenesis, and fibroplasia.

Results

The mean standard deviation (SD) of epithelial hyperplasia scores, inflammatory scores, angiogenesis scores, and fibroplasia scores were not significantly different between the groups. However, the mean (SD) of granulation tissue bed score among the alginate [3.33 (1.15)], PGS [2.33 (0.58)], chitosan [3.33 (0.58)], and control [4.67 (0.58)] groups was significantly different between groups (p = 0.03).

Conclusions

This study demonstrated that a biopolymer has a positive effect on the repair of laryngeal epithelial tissue in an animal model without considering the impact of laryngeal movements.

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利用生物材料修复喉部呼吸粘膜组织的动物模型

气道黏膜具有重要的保护作用和多种生理功能。目前用于恢复气道黏膜的方法，如肌皮瓣或裂皮移植物，产生分层鳞状层，缺乏原生柱状气道的纤毛和粘液分泌腺。本研究探讨了各种可注射生物聚合物作为活性分子在喉上皮组织再生中的潜在应用。方法选取同一品种的健康犬9只。首先，医学工程团队在标准实验室环境中制备了三种生物合成材料（海藻酸盐、PGS和壳聚糖）。动物麻醉诱导后，双侧切开真声带上表面，剥落，形成均匀的损伤部位。生物材料应用于一侧（干预侧），而对侧作为对照，不接受任何治疗。显微镜下观察到的损伤诱导后患处的长度与生物材料的影响有关，包括上皮增生、炎症、肉芽床形成、血管生成和纤维增生。结果两组间上皮增生评分、炎症评分、血管生成评分和纤维增生评分的平均标准差（SD）无显著差异。而海藻酸盐组[3.33(1.15)]、PGS组[2.33(0.58)]、壳聚糖组[3.33(0.58)]、对照组[4.67(0.58)]的肉芽组织床评分均值（SD）组间差异有统计学意义（p = 0.03）。结论在不考虑喉部运动影响的动物模型中，生物聚合物对喉部上皮组织的修复具有积极作用。

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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