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The leadless pacemaker: An innovative design to enhance pacemaking capabilities.无导线起搏器:一种增强起搏能力的创新设计。
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Soft Tissue and Skin Reinforcement with Acellular Dermal Matrix to Protect Implanted Cardioverters/Defibrillators and Pacemakers.使用脱细胞真皮基质进行软组织和皮肤强化以保护植入式心脏复律除颤器和起搏器。
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Accelerometer-based atrioventricular synchronous pacing with a ventricular leadless pacemaker: Results from the Micra atrioventricular feasibility studies.基于加速度计的房室同步起搏与无导线心室起搏器:Micra 房室可行性研究结果。
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老年及消瘦个体的设备植入袋挑战

Device Pocket Challenges in Elderly and Thin Individuals.

作者信息

Goel Ramil

机构信息

Cardiovascular Disease, University of Florida, Gainesville, USA.

出版信息

Cureus. 2021 Jan 25;13(1):e12902. doi: 10.7759/cureus.12902.

DOI:10.7759/cureus.12902
PMID:33654587
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7904505/
Abstract

Aging results in loss of subcutaneous body fat as well as lean body mass. Elderly patients are also more likely to require cardiac implantable electronic devices (CIED) due to rising cardiovascular disease prevalence. A majority of the currently available devices require placement in a pocket created in the subcutaneous space between the subcutaneous fat tissue and the underlying chest wall muscle. Deficient subcutaneous fat tissue can result in device protrusion and even erosion through the skin. This can lead to significant morbidity and mortality especially when associated with device infection and need for device system extraction. This article reviews the scope of the problem and some of the strategies that can be employed to address the lack of subcutaneous soft tissue at the time of device implant.

摘要

衰老会导致皮下身体脂肪以及瘦体重的流失。由于心血管疾病患病率上升,老年患者也更有可能需要心脏植入式电子设备(CIED)。目前大多数可用设备需要放置在皮下脂肪组织与下方胸壁肌肉之间的皮下空间中创建的口袋里。皮下脂肪组织不足会导致设备突出,甚至穿透皮肤。这可能导致严重的发病率和死亡率,尤其是在与设备感染和需要取出设备系统相关时。本文回顾了该问题的范围以及在设备植入时可用于解决皮下软组织不足的一些策略。