A new noninvasive measurement system for wave intensity: evaluation of carotid arterial wave intensity and reproducibility |
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Authors: | Niki Kiyomi Sugawara Motoaki Chang Dehua Harada Akimitsu Okada Takashi Sakai Ryoichi Uchida Keisuke Tanaka Rie Mumford Catherine E |
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Affiliation: | (1) Department of Cardiovascular Sciences, The Heart Institute of Japan, Tokyo Women's Medical University School of Medicine, 8-1 Kawada-cho, Shinjuku-ku, Tokyo 162-8666, Japan. mniki@nora.hij.twmu.ac.jp, JP;(2) Research Laboratory, Aloka Co. Ltd., Tokyo, Japan, JP;(3) Research and Development Center, Nihon Kohden Corp., Saitama, Japan, JP;(4) Department of Cardiology, Wales Heart Research Institute, University of Wales College of Medicine, Cardiff CF14 4XN, UK, GB |
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Abstract: | Wave intensity (WI) is a new hemodynamic index that provides information about the dynamic behavior of the heart and the vascular system and their interaction. Carotid arterial wave intensity in normal subjects has two positive peaks. The first peak, W1, occurs during early systole, the magnitude of which increases with increases in cardiac contractility. The second peak, W2, which occurs towards the end of ejection, is related to the ability of the left ventricle to actively stop aortic blood flow. Between the two positive peaks, a negative area, NA, is often observed, which signifies reflections from the cerebral circulation. The time interval between the R-wave of ECG and the first peak (R − W1) corresponds to the pre-ejection period, and that between the first and second peaks (W1 − W2) corresponds to ejection time. We developed a new ultrasonic on-line system for obtaining WI and arterial stiffness (β). The purpose of this study was (1) to report normal values of various indices derived from WI and β measured with this system, and (2) to evaluate the intraobserver and interobserver reproducibility of the measurements. The measurement system is composed of a computer, a WI unit, and an ultrasonic machine. The WI unit gives the instantaneous change in diameter of the artery and the instantaneous mean blood velocity through the sampling gate. Using these parameters and blood pressure measured with a cuff-type manometer, the computer gives WI and β. We applied this method to the carotid artery in 135 normal subjects. The mean values of W1, W2, NA, R − W1, and W1 − W2 were 8 940 ± 3 790 mmHg m/s3, 1 840 ± 880 mmHg m/s3, 27 ± 13 mmHg m/s2, 104 ± 14 ms, and 270 ± 19 ms, respectively. These values did not show a significant correlation with age. The mean value of β was 10.4 ± 4.8 and the values significantly correlated with age (men: r = 0.66, P < 0.0001; women: r = 0.81, P < 0.0001). The reproducibility was evaluated by intraobserver intrasession (IA), intraobserver intersession (IE), and interobserver intrasession variability (IO). The reproducibility of R − W1 and W1 − W2 was high: the mean coefficient of variation (mCV) of IA was less than 3%; 95% confidence limits from the mean values (CL) were less than 8% for IE and less than 4% for IO. The reproducibility of W1 and β was good: mCV for IA was less than 10%; CL for IE and IO were less than 17%. W2 and NA showed a higher variability than other indices: mCV for IA was less than 13%, and CL for IE and IO were less than 36%. However, two sessions by the same observer and two sessions by different observers were not biased. Wave intensity measurements with this system are clinically acceptable. Received: March 25, 2002 / Accepted: June 17, 2002 Acknowledgments K.N. and M.S. were supported by Grants-in-Aid for Scientific Research (B)-11695092 and (C)-11670713 from the Ministry of Education, Science, Sports and Culture of Japan. Correspondence to K. Niki |
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Keywords: | Wave intensity Reproducibility Carotid artery Echo-tracking Color Doppler |
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