Innovations in Vascular Repair from Mechanical Intervention to Regenerative Therapies.

IF 4.4 4区医学 Q2 CELL & TISSUE ENGINEERING

Tissue engineering and regenerative medicine Pub Date : 2025-06-01 Epub Date: 2025-02-08 DOI:10.1007/s13770-024-00700-x

Hye-Min Park, Chae-Lin Kim, Dasom Kong, Seon-Hee Heo, Hyun-Ji Park

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引用次数: 0

Abstract

Background: Vascular diseases, including atherosclerosis and thrombosis, are leading causes of morbidity and mortality worldwide, often resulting in vessel stenosis that impairs blood flow and leads to severe clinical outcomes. Traditional mechanical interventions, such as balloon angioplasty and bare-metal stents, provided initial solutions but were limited by restenosis and thrombosis. The advent of drug-eluting stents improved short-term outcomes by inhibiting vascular smooth muscle cell proliferation, however, they faced challenges including delayed reendothelialization and late-stage thrombosis.

Methods: This review highlights the progression from mechanical to biological interventions in treating vascular stenosis and underscores the need for integrated approaches that combine mechanical precision with regenerative therapies.

Results: To address long-term complications, bioresorbable stents were developed to provide temporary scaffolding that gradually dissolves, yet they still encounter challenges with mechanical integrity and optimal degradation rates. Consequently, emerging therapies now focus on biological approaches, such as gene therapy, extracellular vesicle treatments, and cell therapies, that aim to promote vascular repair at the cellular level. These strategies offer the potential for true vascular regeneration by enhancing endothelialization, modulating immune responses, and stimulating angiogenesis.

Conclusion: Integrating mechanical precision with regenerative biological therapies offers a promising future for treating vascular stenosis. A comprehensive approach combining these modalities could achieve sustainable vascular health.

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血管修复从机械干预到再生疗法的创新。

背景：血管疾病，包括动脉粥样硬化和血栓形成，是世界范围内发病率和死亡率的主要原因，通常导致血管狭窄，损害血液流动并导致严重的临床结果。传统的机械干预，如球囊血管成形术和裸金属支架，提供了初步的解决方案，但受再狭窄和血栓形成的限制。药物洗脱支架的出现通过抑制血管平滑肌细胞增殖改善了短期预后，然而，它们面临着包括延迟再内皮化和晚期血栓形成在内的挑战。方法：本综述强调了治疗血管狭窄从机械干预到生物干预的进展，并强调了将机械精度与再生治疗相结合的综合方法的必要性。结果：为了解决长期并发症，生物可吸收支架被开发出来，提供逐渐溶解的临时支架，但它们仍然面临机械完整性和最佳降解率的挑战。因此，目前新兴的治疗方法侧重于生物方法，如基因治疗、细胞外囊泡治疗和细胞治疗，目的是在细胞水平上促进血管修复。这些策略通过增强内皮化、调节免疫反应和刺激血管生成，为真正的血管再生提供了潜力。结论：机械精密与再生生物治疗相结合是治疗血管狭窄的理想方法。综合这些方式可以实现可持续的血管健康。

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

Tissue engineering and regenerative medicine CELL & TISSUE ENGINEERING-ENGINEERING, BIOMEDICAL

CiteScore

6.80

自引率

5.60%

发文量

审稿时长

6-12 weeks

期刊介绍： Tissue Engineering and Regenerative Medicine (Tissue Eng Regen Med, TERM), the official journal of the Korean Tissue Engineering and Regenerative Medicine Society, is a publication dedicated to providing research- based solutions to issues related to human diseases. This journal publishes articles that report substantial information and original findings on tissue engineering, medical biomaterials, cells therapy, stem cell biology and regenerative medicine.