用生物粘合剂移植干细胞球状体三维贴片治疗心肌梗塞。

IF 8.1 Q1 ENGINEERING, BIOMEDICAL
Biomaterials research Pub Date : 2024-03-04 eCollection Date: 2024-01-01 DOI:10.34133/bmr.0007
Hye Ran Jeon, Jeon Il Kang, Suk Ho Bhang, Kyung Min Park, Dong-Ik Kim
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引用次数: 0

摘要

心肌梗塞(MI)的治疗采用干细胞移植,使用各种生物材料和方法,如干细胞/类球体注射、细胞片和心脏贴片。然而,目前的治疗方法存在一些局限性,包括干细胞接合率低和治疗效果差。此外,这些方法会因注射和缝合使其固定在心脏内而对心脏造成二次损伤,从而产生副作用。在这项研究中,我们开发了含有生物密封剂的干细胞球体三维(3D)补片(S_3DP)来治疗心肌梗死。这种三维补片具有双重模块,如开放式口袋,可直接输送具有旁分泌效应的球体;封闭式口袋,可保护球体免受恶劣微环境的影响,从而提高移植率。与二维培养细胞相比,S_3DP 内形成的球体显示出更高的活力和血管生成因子的表达。我们还通过硫醇-烯反应和二硫键的形成制造了明胶基组织粘合生物密封剂。与商业纤维蛋白胶相比,这种生物密封剂具有更强的组织粘附性。此外,我们成功地将 S_3DP 生物密封剂应用于大鼠心肌梗死模型,而无需进行体内缝合,从而改善了心脏功能并减少了心脏纤维化。总之,S_3DP和生物密封剂作为先进的干细胞疗法,以无需缝合的方法治疗心肌梗死具有极佳的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transplantation of Stem Cell Spheroid-Laden 3-Dimensional Patches with Bioadhesives for the Treatment of Myocardial Infarction.

Myocardial infarction (MI) is treated with stem cell transplantation using various biomaterials and methods, such as stem cell/spheroid injections, cell sheets, and cardiac patches. However, current treatment methods have some limitations, including low stem cell engraftment and poor therapeutic effects. Furthermore, these methods cause secondary damage to heart due to injection and suturing to immobilize them in the heart, inducing side effects. In this study, we developed stem cell spheroid-laden 3-dimensional (3D) patches (S_3DP) with biosealant to treat MI. This 3D patch has dual modules, such as open pockets to directly deliver the spheroids with their paracrine effects and closed pockets to improve the engraft rate by protecting the spheroid from harsh microenvironments. The spheroids formed within S_3DP showed increased viability and expression of angiogenic factors compared to 2-dimensional cultured cells. We also fabricated gelatin-based tissue adhesive biosealants via a thiol-ene reaction and disulfide bond formation. This biosealant showed stronger tissue adhesiveness than commercial fibrin glue. Furthermore, we successfully applied S_3DP using a biosealant in a rat MI model without suturing in vivo, thereby improving cardiac function and reducing heart fibrosis. In summary, S_3DP and biosealant have excellent potential as advanced stem cell therapies with a sutureless approach to MI treatment.

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