Novel design of a regional myocardial force transducer

Jia Jung Wang; Gary Drzewiecki; John K.J. Li; Joseph Kedem

Novel design of a regional myocardial force transducer

Jia Jung Wang, Gary Drzewiecki, John K.J. Li, Joseph Kedem

School of Engineering, Biomedical Engineering

Rutgers, The State University

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

A novel force transducer was designed to measure the circumferential regional force developed in the ventricular myocardium in vivo. The transducer is composed of a frame, a carrier bar, and a cantilever spring. Two resistance strain gauges embedded on the spring serve as force-sensing elements. The output of a Wheatstone-bridge circuit, containing these two gauges and a temperature compensation re sistor, is connected to a preamplifier. The main advantages of this prototype include the initial stretch-adjustment ability (physiologic zero) low temperature drift, high linearity (r = 0.99) with loads ranging from 0 to 100 g, and moderate sensitivity of 0.232 mV/V/g at room temperature. The transducer was validated with in-vivo canine experiments. The experimental results showed that this transducer can be used to reliably measure the myocardial force development during altered cardiac conditions, such as myocardial stunning and myocardial ischemia.

Original language	American English
Pages (from-to)	155-163
Number of pages	9
Journal	Biomedical Instrumentation and Technology
Volume	31
Issue number	2
State	Published - Mar 1997

ASJC Scopus subject areas

General Medicine

Cite this

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abstract = "A novel force transducer was designed to measure the circumferential regional force developed in the ventricular myocardium in vivo. The transducer is composed of a frame, a carrier bar, and a cantilever spring. Two resistance strain gauges embedded on the spring serve as force-sensing elements. The output of a Wheatstone-bridge circuit, containing these two gauges and a temperature compensation re sistor, is connected to a preamplifier. The main advantages of this prototype include the initial stretch-adjustment ability (physiologic zero) low temperature drift, high linearity (r = 0.99) with loads ranging from 0 to 100 g, and moderate sensitivity of 0.232 mV/V/g at room temperature. The transducer was validated with in-vivo canine experiments. The experimental results showed that this transducer can be used to reliably measure the myocardial force development during altered cardiac conditions, such as myocardial stunning and myocardial ischemia.",

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Novel design of a regional myocardial force transducer

Abstract

ASJC Scopus subject areas

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