Miniaturized wireless gastric pacing via inductive power transfer with non-invasive monitoring using cutaneous Electrogastrography.

Andrew Perley, Mehrdad Roustaei, Marcelo Aguilar-Rivera, David C Kunkel, Tzung K Hsiai, Todd P Coleman, Parinaz Abiri
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引用次数: 2

Abstract

Background: Gastroparesis is a debilitating disease that is often refractory to pharmacotherapy. While gastric electrical stimulation has been studied as a potential treatment, current devices are limited by surgical complications and an incomplete understanding of the mechanism by which electrical stimulation affects physiology.

Methods: A leadless inductively-powered pacemaker was implanted on the gastric serosa in an anesthetized pig. Wireless pacing was performed at transmitter-to-receiver distances up to 20 mm, frequency of 0.05 Hz, and pulse width of 400 ms. Electrogastrogram (EGG) recordings using cutaneous and serosal electrode arrays were analyzed to compute spectral and spatial statistical parameters associated with the slow wave.

Results: Our data demonstrated evident change in EGG signal patterns upon initiation of pacing. A buffer period was noted before a pattern of entrainment appeared with consistent and low variability in slow wave direction. A spectral power increase in the EGG frequency band during entrainment also suggested that pacing increased strength of the slow wave.

Conclusion: Our preliminary in vivo study using wireless pacing and concurrent EGG recording established the foundations for a minimally invasive approach to understand and optimize the effect of pacing on gastric motor activity as a means to treat conditions of gastric dysmotility.

Abstract Image

Abstract Image

Abstract Image

微型无线胃起搏通过感应功率传输和无创监测使用皮肤胃电图。
背景:胃轻瘫是一种使人衰弱的疾病,药物治疗往往难治性。虽然胃电刺激已被研究为一种潜在的治疗方法,但目前的设备受到手术并发症和对电刺激影响生理机制的不完全理解的限制。方法:在麻醉猪胃浆膜上植入无导线感应式起搏器。无线起搏在发射器到接收器的距离为20 mm,频率为0.05 Hz,脉冲宽度为400 ms时进行。利用皮肤和浆膜电极阵列对胃电图(EGG)记录进行分析,计算与慢波相关的光谱和空间统计参数。结果:我们的数据显示在起搏开始时EGG信号模式有明显的变化。在慢波方向出现一致和低变异性的夹带模式之前,注意到一个缓冲期。在夹带期间,EGG频带的频谱功率增加也表明起搏增加了慢波的强度。结论:我们使用无线起搏和同步EGG记录的初步体内研究为微创方法了解和优化起搏对胃运动活动的影响奠定了基础,并将其作为治疗胃运动障碍的一种手段。
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
CiteScore
6.90
自引率
0.00%
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审稿时长
8 weeks
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