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一种用于梗死心脏修复的、可涂覆且具有黏附性的水凝胶心脏贴片,可实现血管生成素样蛋白4(ANGPTL4)的持续释放。

A paintable and adhesive hydrogel cardiac patch with sustained release of ANGPTL4 for infarcted heart repair.

作者信息

Lee Mingyu, Kim Yong Sook, Park Junggeon, Choe Goeun, Lee Sanghun, Kang Bo Gyeong, Jun Ju Hee, Shin Yoonmin, Kim Minchul, Ahn Youngkeun, Lee Jae Young

机构信息

School of Materials Science and Engineering, Gwangju Institute of Science and Technology, Gwangju, 61005, Republic of Korea.

Cell Regeneration Research Center, Chonnam National University, Gwangju, Republic of Korea.

出版信息

Bioact Mater. 2023 Aug 29;31:395-407. doi: 10.1016/j.bioactmat.2023.08.020. eCollection 2024 Jan.

DOI:10.1016/j.bioactmat.2023.08.020
PMID:37680586
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10481188/
Abstract

The infarcted heart undergoes irreversible pathological remodeling after reperfusion involving left ventricle dilation and excessive inflammatory reactions in the infarcted heart, frequently leading to fatal functional damage. Extensive attempts have been made to attenuate pathological remodeling in infarcted hearts using cardiac patches and anti-inflammatory drug delivery. In this study, we developed a paintable and adhesive hydrogel patch using dextran-aldehyde (dex-ald) and gelatin, incorporating the anti-inflammatory protein, ANGPTL4, into the hydrogel for sustained release directly to the infarcted heart to alleviate inflammation. We optimized the material composition, including polymer concentration and molecular weight, to achieve a paintable, adhesive hydrogel using 10% gelatin and 5% dex-ald, which displayed in-situ gel formation within 135 s, cardiac tissue-like modulus (40.5 kPa), suitable tissue adhesiveness (4.3 kPa), and excellent mechanical stability. ANGPTL4 was continuously released from the gelatin/dex-ald hydrogel without substantial burst release. The gelatin/dex-ald hydrogel could be conveniently painted onto the beating heart and degraded in vivo. Moreover, in vivo studies using animal models of acute myocardial infarction revealed that our hydrogel cardiac patch containing ANGPTL4 significantly improved heart tissue repair, evaluated by echocardiography and histological evaluation. The heart tissues treated with ANGPTL4-loaded hydrogel patches exhibited increased vascularization, reduced inflammatory macrophages, and structural maturation of cardiac cells. Our novel hydrogel system, which allows for facile paintability, appropriate tissue adhesiveness, and sustained release of anti-inflammatory drugs, will serve as an effective platform for the repair of various tissues, including heart, muscle, and cartilage.

摘要

再灌注后,梗死心脏会经历不可逆的病理重塑,包括左心室扩张和梗死心脏中的过度炎症反应,常常导致致命的功能损害。人们已经进行了广泛的尝试,使用心脏贴片和抗炎药物递送来减轻梗死心脏的病理重塑。在本研究中,我们使用葡聚糖醛(dex-ald)和明胶开发了一种可涂抹且具有粘性的水凝胶贴片,将抗炎蛋白血管生成素样蛋白4(ANGPTL4)纳入水凝胶中,以持续释放至梗死心脏直接减轻炎症。我们优化了材料组成,包括聚合物浓度和分子量,以使用10%的明胶和5%的dex-ald实现一种可涂抹、有粘性的水凝胶,其在135秒内原位凝胶化,具有类心脏组织的模量(40.5千帕)、合适的组织粘附性(4.3千帕)和出色的机械稳定性。ANGPTL4从明胶/dex-ald水凝胶中持续释放,无大量突释。明胶/dex-ald水凝胶可以方便地涂抹在跳动的心脏上并在体内降解。此外,使用急性心肌梗死动物模型的体内研究表明,我们含有ANGPTL4的水凝胶心脏贴片通过超声心动图和组织学评估显示显著改善了心脏组织修复。用负载ANGPTL4的水凝胶贴片处理的心脏组织表现出血管生成增加、炎症巨噬细胞减少以及心脏细胞的结构成熟。我们的新型水凝胶系统,具有易于涂抹性、合适的组织粘附性以及抗炎药物的持续释放,将成为修复包括心脏、肌肉和软骨在内的各种组织的有效平台。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a994/10481188/3b9089b88c26/gr8.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a994/10481188/2cc10c9b96c9/gr1.jpg
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