可充电有源植入医疗器械(aimd)

IF 1.7 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Deepali Newaskar, B.P. Patil
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引用次数: 0

摘要

有源植入式医疗器械(aimd)作为救生设备。它们向组织提供电信号,并执行数据记录操作。要执行这些操作,它们需要电力。电池是这种设备的唯一来源,因为它们是侵入性地放置在人体内的。一旦电池耗尽,佩戴该设备的患者必须进行第二次手术,这有很多感染的机会,也可能危及生命。如果aimd(例如起搏器)是使用可充电电池设计的,那么这些设备可以定期充电,这可以增加设备的使用寿命并减小其尺寸。本文提出了一种利用磁谐振耦合对心脏起搏器等aimd进行无线充电的方法。电力传输频率的选择是最关键的部分,需要遵循ICNIRP指南和IEEEC95.1标准提出的基本限制(BR)标准,以确保患者的安全。这是通过考虑一些基本的限制参数,如指南中建议的比吸收率(SAR)和电流密度来提出的。在本文中,实验使用两个频率,即1.47 MHz(高频)和62 KHz(低频)。实验用的是羊肉和生理盐水溶液。次级线圈和肉浸入盐水溶液中。在较低频率下进行电池充电比在MHz范围内进行充电所需的时间更短。对于这两个频率,所有BR标准都满足,因此所提出的方法可以安全使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rechargeable Active Implantable Medical Devices (AIMDs)
Active Implantable Medical Devices (AIMDs) act as lifesaving devices. They provide electrical signals to tissues as well as perform data-logging operations. To perform these operations, they need power. The battery is the only source for such devices, as they are placed invasively inside the human body. Once the battery drains out, the patient wearing the device has to undergo medical surgery for the second time, where there are many chances of infections, and it could be life-threatening too. If the AIMDs, e.g., pacemakers are designed using rechargeable batteries, then the devices can be recharged regularly, which can increase the life of the device as well as reduce its size. Wireless charging of AIMDs such as ICDs or pacemakers is proposed in this paper using magnetic resonant coupling. The selection of frequency for power transfer is the most crucial part, as the basic restriction (BR) criteria proposed by ICNIRP guidelines and the IEEEC95.1 standard need to be followed, which ensures the safety of the patient. This is suggested by considering some basic restriction parameters, such as specific absorption rate (SAR) and current density, as suggested by guidelines. In this paper, experimentation using two frequencies is shown, i.e., 1.47 MHz (the high frequency) and 62 KHz (the low frequency). For experimentation, goat flesh and saline solution are used. Secondary coil and flesh are dipped in the saline solution. Battery recharging performed at a lower frequency took less time than with a frequency in the MHz range. All BR criteria are fulfilled for both frequencies, so the proposed methodology is safe to use.
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来源期刊
CiteScore
4.00
自引率
46.20%
发文量
143
审稿时长
12 weeks
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