机械循环支持装置的能量传递和电源，以实现完全植入。

Energy transmission and power sources for mechanical circulatory support devices to achieve total implantability.

机构信息

Bonde Artificial Heart Laboratory, Yale University School of Medicine, New Haven, Connecticut.

Department of Computer Science and Engineering, University of Washington, Seattle, Washington; Department of Electrical Engineering, University of Washington, Seattle, Washington.

出版信息

Ann Thorac Surg. 2014 Apr;97(4):1467-74. doi: 10.1016/j.athoracsur.2013.10.107. Epub 2014 Feb 12.

DOI:10.1016/j.athoracsur.2013.10.107

PMID:24530103

Abstract

Left ventricular assist device therapy has radically improved congestive heart failure survival with smaller rotary pumps. The driveline used to power today's left ventricular assist devices, however, continues to be a source of infection, traumatic damage, and rehospitalization. Previous attempts to wirelessly power left ventricular assist devices using transcutaneous energy transfer systems have been limited by restrictions on separation distance and alignment between the transmit and receive coils. Resonant electrical energy transfer allows power delivery at larger distances without compromising safety and efficiency. This review covers the efforts to wirelessly power mechanical circulatory assist devices and the progress made in enhancing their energy sources.

摘要

左心室辅助装置治疗技术通过使用更小的旋转泵极大地提高了充血性心力衰竭患者的生存率。然而，目前用于驱动左心室辅助装置的动力传输线仍然是感染、创伤和再住院的根源。之前曾尝试使用经皮能量传输系统为左心室辅助装置进行无线供电，但由于传输和接收线圈之间的距离和对准限制，其效果受到限制。谐振电能传输可以在不影响安全性和效率的情况下，实现更大距离的电力传输。本文综述了为无线供电的机械循环辅助设备所做的努力，以及在增强其能源方面取得的进展。

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机械循环支持装置的能量传递和电源，以实现完全植入。

Energy transmission and power sources for mechanical circulatory support devices to achieve total implantability.

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