用于充血性心力衰竭患者疾病监测和治疗的、与肺动脉内微型压力传感器的无线声学通信。

Wireless acoustic communication with a miniature pressure sensor in the pulmonary artery for disease surveillance and therapy of patients with congestive heart failure.

作者信息

Rozenman Yoseph, Schwartz Robert S, Shah Hetal, Parikh Keyur H

机构信息

The Heart Institute, E. Wolfson Medical Center, Holon, Israel.

出版信息

J Am Coll Cardiol. 2007 Feb 20;49(7):784-9. doi: 10.1016/j.jacc.2006.11.021. Epub 2007 Feb 5.

DOI:10.1016/j.jacc.2006.11.021

PMID:17306708

Abstract

OBJECTIVES

The purpose of this study was to examine the feasibility of repeated pulmonary artery (PA) pressure determinations using a newly developed acoustic wireless implanted communication system.

BACKGROUND

Congestive heart failure management strategies based on monitored intracardiac hemodynamics in patients receiving the best-available therapy may improve outcome. Although electromagnetic communication requires a large antenna for sufficient energy transfer, acoustic energy readily penetrates deep into the body, uses little energy, and uses small internal transducers for bidirectional operation.

METHODS

A miniature device was developed and implanted using right heart catheterization. The ability to obtain PA pressure from the implant using wireless acoustic communication was examined in 8 pigs and 10 patients with congestive heart failure. Macroscopic and histopathologic examinations were performed at 6 months after implantation. The accuracy of PA pressure measurement was determined by comparison with simultaneous pressures from a Millar catheter.

RESULTS

The device was successfully implanted in the PA using right heart catheterization. There were no implantation or later device-related complications. Pulmonary artery pressure tracings were repeatedly obtained from all implants. Normal reactions to intravascular implant were observed macroscopically and in histologic sections. Standard deviations of the difference between implant and Millar PA diastolic pressure were 1.45 and 1.2 mm Hg (animals and humans, respectively). Data were useful for patient management.

CONCLUSIONS

This pilot study demonstrates, for the first time, that acoustic wireless communication with a miniature implanted sensor is feasible and provides repeated PA pressure measurement. This feat makes possible multiple novel applications for monitoring and therapeutic interventions based on measurements from deeply implanted devices.

摘要

目的

本研究旨在探讨使用新开发的声学无线植入式通信系统重复测定肺动脉（PA）压力的可行性。

背景

在接受最佳可用治疗的患者中，基于监测的心腔内血流动力学的充血性心力衰竭管理策略可能会改善预后。虽然电磁通信需要大型天线来进行足够的能量传输，但声能很容易深入穿透身体，能耗低，并且使用小型内部换能器进行双向操作。

方法

开发了一种微型装置，并通过右心导管插入术进行植入。在8头猪和10例充血性心力衰竭患者中，研究了使用无线声学通信从植入物获取PA压力的能力。植入后6个月进行宏观和组织病理学检查。通过与Millar导管同时测量的压力进行比较，确定PA压力测量的准确性。

结果

通过右心导管插入术成功将该装置植入PA。没有发生植入或后期与装置相关的并发症。从所有植入物中反复获取肺动脉压力曲线。在宏观和组织学切片中均观察到对血管内植入物的正常反应。植入物与Millar肺动脉舒张压之间差异的标准差分别为1.45和1.2 mmHg（动物和人类）。这些数据对患者管理有用。

结论

这项初步研究首次证明，与微型植入式传感器进行声学无线通信是可行的，并能提供重复的PA压力测量。这一成果使基于深度植入装置测量的监测和治疗干预的多种新应用成为可能。

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用于充血性心力衰竭患者疾病监测和治疗的、与肺动脉内微型压力传感器的无线声学通信。

Wireless acoustic communication with a miniature pressure sensor in the pulmonary artery for disease surveillance and therapy of patients with congestive heart failure.

作者信息

机构信息

出版信息

OBJECTIVES

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

目的

背景

方法

结果

结论

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