A new technique for the measurement and assessment of carotid artery wall vibrations using ultrasound RF echoes

Authors: SAMRAND SHARIFI, HAMID BEHNAM, ZAHRA ALIZADEH SANI

Abstract: Atherosclerosis is known as the leading cause of heart attacks and brain strokes. One of the symptoms of this disease is the reduction of artery wall motion caused by age. This study presents a novel method to extract high frequency components of wall motion, wall vibrations, based on discrete wavelet transform. The fractal dimension, largest Lyapunov exponent, and spectral entropy are then analyzed to indicate the chaotic behavior in wall vibrations. Phase information from demodulated radiofrequency signals is extracted and the entropy of phase-difference is computed as a statistical measure for better characterization of the artery wall tissue. The results show that these features correlate with age (P $<$ 0.001) and also increase with age. The phase-difference entropy also shows significant correlation with age (r = 0.34, P $<$ 0.001). The measurement results indicate that while age increases, vibrations of the artery wall are irregular and represent chaotic behavior. Our results raise hopes that the proposed approach may be effective in diagnosing atherosclerosis.

Keywords: Carotid wall, fractal dimension, Lyapunov exponent, entropy, phase information, radiofrequency signals

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