In-vivo characterization of left-ventricle pressure-volume telemetry system in swine model

被引：1

作者：

Fricke, Kyle ^{[1
]}

Konecny, Filip ^{[5
]}

El-Warrak, Alexander ^{[3
,4
]}

Hodgson, Chad ^{[5
]}

Cadieux-Pitre, Heather ^{[3
,4
]}

Hill, Tracy ^{[3
,4
]}

Sobot, Robert ^{[1
,2
]}

机构：

[1] Western Univ, Dept Elect & Comp Engn, London, ON, Canada

[2] Univ Cergy Pontoise, CNRS, ENSEA, Pontoise, France

[3] Western Univ, Anim Care Serv, London, ON, Canada

[4] Western Univ, Vet Serv, London, ON, Canada

[5] Transon Scisense Inc, London, ON, Canada

来源：

BIOMEDICAL MICRODEVICES | 2016年 / 18卷 / 05期

基金：

加拿大自然科学与工程研究理事会;

关键词：

Conductance based catheter; Pressure-volume; Swine heart; Cardiac; Pathology; Biomedical telemetry; HEART-FAILURE; CONDUCTANCE; ADMITTANCE; LOOPS; TIME;

D O I：

10.1007/s10544-016-0094-7

中图分类号：

R318 [生物医学工程];

学科分类号：

0831 ;

摘要：

We present in-vivo study related to the use of our implantable RF telemetry system for pressure-volume (PV) cardiac monitoring in a animal subject. We implant a commercial MEMS PV sensor into the subject's heart left-ventricle (LV), while the telemetry system is implanted outside of the heart and connected to the sensor with a 7-microwires tether. The RF telemetry system is suitable for commercial application in medium sized subjects, its total volume of 2.475cm(3) and a weight of 4.0g. Our designed system is 58 % smaller in volume, 44 % in weight and has a 55 % reduction in sampling power over the last reported research in PV telemetry. In-vivo data was captured in both an acute and a freely moving setting over a 24 hour period. We experimentally demonstrated viability of the methodology that includes the surgical procedure and real-time monitoring of the in-vivo data in a freely moving subject. Further improvements in catheter design will improve the data quality and safety of the subject. This real-time implantable technology allows for researchers to quantify cardiac pathologies by extracting real-time pressure-volume loops, wirelessly from within freely moving subjects.

引用

页数：17

共 50 条

[1] In–vivo characterization of left–ventricle pressure–volume telemetry system in swine model
Kyle Fricke
Filip Konecny
Alexander El-Warrak
Chad Hodgson
Heather Cadieux-Pitre
Tracy Hill
Robert Sobot
Biomedical Microdevices, 2016, 18
[2] NONLINEAR PRESSURE-VOLUME RELATION IN LEFT-VENTRICLE
SHOUCRI, RM
JAPANESE HEART JOURNAL, 1991, 32 (03): : 337 - 346
[3] SYSTOLIC PRESSURE-VOLUME RELATIONS OF LEFT-VENTRICLE
SCHIERECK, P
BOOM, HBK
ARCHIVES INTERNATIONALES DE PHYSIOLOGIE DE BIOCHIMIE ET DE BIOPHYSIQUE, 1976, 84 (03): : 557 - 559
[4] CHARACTERIZATION OF THE RIGHT VENTRICULAR PRESSURE-VOLUME RELATIONSHIP - COMPARISON WITH THE LEFT-VENTRICLE
REDINGTON, AN
GRAY, H
DAWSON, RD
HODSON, ME
OLDERSHAW, PJ
CLINICAL SCIENCE, 1986, 71 : P55 - P55
[5] PRESSURE-VOLUME RELATION IN THE PULMONARY VENOUS SYSTEM AS A PRELOAD OF THE LEFT-VENTRICLE
TERASHIMA, Y
GOTOH, K
YAMAMOTO, N
TSUKAMOTO, T
TAKATSU, H
YAGI, Y
HIRAKAWA, S
JAPANESE CIRCULATION JOURNAL-ENGLISH EDITION, 1987, 51 (08): : 958 - 958
[6] DIASTOLIC PRESSURE-VOLUME RELATIONSHIPS OF LEFT-VENTRICLE IN CARDIOMYOPATHY
ZIADY, G
RAPHAEL, MJ
MURRAY, JA
EVANS, T
OAKLEY, CM
CIRCULATION, 1974, 50 (04) : 252 - 252
[7] THE DIASTOLIC PRESSURE-VOLUME RELATIONSHIP OF THE LEFT-VENTRICLE - STUDIED BY CANINE ISOVOLUMETRIC CONTRACTING LEFT-VENTRICLE
SAKAMOTO, S
YASUDA, H
MURAKAMI, R
ANDO, M
NISHINO, T
JAPANESE CIRCULATION JOURNAL-ENGLISH EDITION, 1982, 46 (01): : 84 - 91
[8] DIASTOLIC PRESSURE-VOLUME RELATIONS AND DISTRIBUTION OF FIBER EXTENSION IN A MODEL LEFT-VENTRICLE
FEIT, TS
BIOPHYSICAL JOURNAL, 1979, 25 (02) : A217 - A217
[9] DIASTOLIC PRESSURE-VOLUME RELATIONS AND DISTRIBUTION OF FIBER EXTENSION IN A MODEL LEFT-VENTRICLE
FEIT, TS
FEDERATION PROCEEDINGS, 1979, 38 (03) : 991 - 991
[10] THEORETICAL CONTRIBUTION TO THE STUDY OF PRESSURE-VOLUME RELATION IN LEFT-VENTRICLE
SHOUCRI, RM
HERZ KREISLAUF, 1993, 25 (05): : 150 - 153

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