兔甲状腺细胞外基质作为甲状腺生物工程的 3D 生物支架：初步的体外研究。

Rabbit thyroid extracellular matrix as a 3D bioscaffold for thyroid bioengineering: a preliminary in vitro study.

机构信息

Department of Emergency Medicine and General Practice, The Second Affiliated Hospital and Yuying Children's Hospital of Wenzhou Medical University, Wenzhou, 325027, China.

Department of Surgical Oncology, Wenzhou People's Hospital, The Wenzhou Third Clinical Institute Affiliated With Wenzhou Medical University, Wenzhou, 325000, China.

出版信息

Biomed Eng Online. 2021 Feb 9;20(1):18. doi: 10.1186/s12938-021-00856-w.

DOI:10.1186/s12938-021-00856-w

PMID:33563294

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7871622/

Abstract

BACKGROUND

Advances in regenerative medicine technologies have been strongly proposed in the management of thyroid diseases. Mechanistically, the adoption of thyroid bioengineering requires a scaffold that shares a similar three-dimensional (3D) space structure, biomechanical properties, protein component, and cytokines to the native extracellular matrix (ECM).

METHODS

24 male New Zealand white rabbits were used in this experimental study. The rabbit thyroid glands were decellularized by immersion/agitation decellularization protocol. The 3D thyroid decellularization scaffolds were tested with histological and immunostaining analyses, scanning electron microscopy, DNA quantification, mechanical properties test, cytokine assay and cytotoxicity assays. Meanwhile, the decellularization scaffold were seeded with human thyroid follicular cells, cell proliferation and thyroid peroxidase were determined to explore the biocompatibility in vitro.

RESULTS

Notably, through the imaging studies, it was distinctly evident that our protocol intervention minimized cellular materials and maintained the 3D spatial structure, biomechanical properties, ECM composition, and biologic cytokine. Consequently, the decellularization scaffold was seeded with human thyroid follicular cells, thus strongly revealing its potential in reinforcing cell adhesion, proliferation, and preserve important protein expression.

CONCLUSIONS

The adoption of our protocol to generate a decellularized thyroid scaffold can potentially be utilized in transplantation to manage thyroid diseases through thyroid bioengineering.

摘要

背景

再生医学技术的进步在甲状腺疾病的治疗中得到了强烈的支持。从机制上讲，采用甲状腺生物工程需要一种支架，该支架在三维（3D）空间结构、生物力学特性、蛋白质成分和细胞因子方面与天然细胞外基质（ECM）相似。

方法

本实验研究使用了 24 只雄性新西兰白兔。通过浸泡/搅拌脱细胞方案对兔甲状腺进行脱细胞处理。通过组织学和免疫染色分析、扫描电子显微镜、DNA 定量、力学性能测试、细胞因子测定和细胞毒性测定来测试 3D 甲状腺脱细胞支架。同时，用人甲状腺滤泡细胞种植脱细胞支架，检测细胞增殖和甲状腺过氧化物酶，以探讨体外的生物相容性。

结果

值得注意的是，通过影像学研究，我们的方案干预明显减少了细胞材料，保持了 3D 空间结构、生物力学特性、ECM 组成和生物细胞因子。因此，脱细胞支架种植人甲状腺滤泡细胞后，强烈显示出其增强细胞黏附、增殖和保留重要蛋白表达的潜力。

结论

采用我们的方案生成脱细胞甲状腺支架，可通过甲状腺生物工程将其用于移植治疗甲状腺疾病。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f355/7871622/fbf43f182595/12938_2021_856_Fig1_HTML.jpg

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兔甲状腺细胞外基质作为甲状腺生物工程的 3D 生物支架：初步的体外研究。

Rabbit thyroid extracellular matrix as a 3D bioscaffold for thyroid bioengineering: a preliminary in vitro study.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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