Noninvasive measurement of small local vibrations in the heart or arterial wall

Abstract

In order to diagnose ventricular dysfunction or arteriosclerosis based on the acoustic characteristics of the heart muscle or the arterial walls, it is necessary to noninvasively measure small vibration signals from various parts of the ventricular or arterial walls. This is, however, difficult using previously proposed ultrasonic diagnostic methods or systems. The authors have already proposed a method for overcoming this problem and measuring small vibrations of the ventricle wall using ultrasound. Here, the authors propose a new method to accurately track the heart/aortic wall movement from both of the phase and magnitude of the demodulated signal to determine the position of the object, from which the velocity is estimated. By this method, small vibrations of heart wall or the aortic wall with amplitudes of 10/spl sim/100 /spl mu/m resulting from the motion due to the heart beats with a large amplitude of 10 mm are successfully detected in the frequency range up to 1 kHz continuously for more than ten beat periods. The new method offers potential for research in acoustical diagnosis of heart dysfunction and atherosclerosis. >