Challenges and advances in device-related thrombus in left atrial appendage occlusion.

IF 1.6 Q3 CARDIAC & CARDIOVASCULAR SYSTEMS
Future cardiology Pub Date : 2024-01-01 Epub Date: 2024-07-01 DOI:10.1080/14796678.2024.2363063
Takamasa Tanaka, Kenji Kawai, Christopher R Ellis, Mukta Srivastava, Rika Kawakami, Takao Konishi, Tatsuya Shiraki, Teruo Sekimoto, Renu Virmani, Aloke V Finn
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引用次数: 0

Abstract

Oral anticoagulation therapy (OAC) is a mainstay for mitigating stroke and other embolic events in patients with atrial fibrillation (AF). Despite the demonstrated efficacy of OAC in reducing events, many patients are unable to tolerate OAC due to bleeding risks. Left atrial appendage occlusion (LAAO) devices were developed as implantable technologies to moderate stroke risk in patients with intolerance to OAC. Despite clinical data supporting near-comparable protection against thromboembolic events with OAC, device-related thrombus formation has emerged as a critical complication following LAAO that remains a potential limitation to the safety and efficacy of LAAO. Improved biocompatibility of LAAO devices with fluoropolymers, a well-established stent-coating technology used to reduce thrombus formation and promote endothelialization, may optimize outcomes after LAAO.

左心房阑尾闭塞中与设备相关血栓的挑战和进展。
口服抗凝疗法(OAC)是减轻心房颤动(AF)患者中风和其他栓塞事件的主要手段。尽管口服抗凝疗法在减少栓塞事件方面疗效显著,但由于出血风险,许多患者无法耐受口服抗凝疗法。左心房阑尾闭塞(LAAO)装置是作为植入式技术开发的,用于降低不耐受 OAC 患者的中风风险。尽管临床数据支持其对血栓栓塞事件的保护与 OAC 几乎相当,但与装置相关的血栓形成已成为 LAAO 术后的一个重要并发症,仍然是 LAAO 安全性和有效性的潜在限制因素。含氟聚合物是一种成熟的支架涂层技术,用于减少血栓形成和促进血管内皮化,使用含氟聚合物改善 LAAO 装置的生物相容性可优化 LAAO 后的预后。
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来源期刊
Future cardiology
Future cardiology CARDIAC & CARDIOVASCULAR SYSTEMS-
CiteScore
2.80
自引率
5.90%
发文量
87
期刊介绍: Research advances have contributed to improved outcomes across all specialties, but the rate of advancement in cardiology has been exceptional. Concurrently, the population of patients with cardiac conditions continues to grow and greater public awareness has increased patients" expectations of new drugs and devices. Future Cardiology (ISSN 1479-6678) reflects this new era of cardiology and highlights the new molecular approach to advancing cardiovascular therapy. Coverage will also reflect the major technological advances in bioengineering in cardiology in terms of advanced and robust devices, miniaturization, imaging, system modeling and information management issues.
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