TY - JOUR
T1 - Discrimination of nonobstructive hypertrophic cardiomyopathy from hypertensive left ventricular hypertrophy on the basis of strain rate imaging by tissue Doppler ultrasonography
AU - Kato, Tomoko S.
AU - Noda, Akiko
AU - Izawa, Hideo
AU - Yamada, Akira
AU - Obata, Koji
AU - Nagata, Kohzo
AU - Iwase, Mitsunori
AU - Murohara, Toyoaki
AU - Yokota, Mitsuhiro
N1 - Copyright:
Copyright 2008 Elsevier B.V., All rights reserved.
PY - 2004/12/21
Y1 - 2004/12/21
N2 - Background-The differentiation of hypertrophic cardiomyopathy (HCM) from hypertensive left ventricular hypertrophy (H-LVH) on the basis of morphological information obtained by conventional echocardiography is occasionally problematic. We investigated whether strain rate (SR) imaging derived from tissue Doppler imaging (TDI) is able to discriminate HCM from H-LVH. Methods and Results-Conventional echocardiography and TDI were performed with 34 patients with LVH and 16 reference subjects. Mean values of systolic strain (εsys), peak systolic SR, and early diastolic SR obtained from 8 left ventricular (LV) segments were calculated. LV pressures were recorded simultaneously in the patients. Patients were diagnosed with HCM (n=20) or H-LVH (n=14) on the basis of conventional echocardiography and endomyocardial biopsy findings. Multivariate analysis revealed that septum/posterior wall thickness ratio (P=0.00013) and εsys (P<0.0001) were each able to discriminate HCM from H-LVH. A εsys cutoff value of - 10.6% discriminated between HCM and H-LVH with a sensitivity of 85.0%, specificity of 100.0%, and predictive accuracy of 91.2%. The combination of the septum/posterior wall thickness ratio and εsys discriminated HCM from H-LVH with a predictive accuracy of 96.1%. The εsys parameter was significantly correlated with pulmonary arterial wedge pressure, LV end-diastolic pressure, the peak positive first derivative of LV pressure, and the time constant of LV pressure decay. Conclusions-SR imaging is able to discriminate HCM from H-LVH, with εsys reflecting myocardial contractile and lusitropic properties.
AB - Background-The differentiation of hypertrophic cardiomyopathy (HCM) from hypertensive left ventricular hypertrophy (H-LVH) on the basis of morphological information obtained by conventional echocardiography is occasionally problematic. We investigated whether strain rate (SR) imaging derived from tissue Doppler imaging (TDI) is able to discriminate HCM from H-LVH. Methods and Results-Conventional echocardiography and TDI were performed with 34 patients with LVH and 16 reference subjects. Mean values of systolic strain (εsys), peak systolic SR, and early diastolic SR obtained from 8 left ventricular (LV) segments were calculated. LV pressures were recorded simultaneously in the patients. Patients were diagnosed with HCM (n=20) or H-LVH (n=14) on the basis of conventional echocardiography and endomyocardial biopsy findings. Multivariate analysis revealed that septum/posterior wall thickness ratio (P=0.00013) and εsys (P<0.0001) were each able to discriminate HCM from H-LVH. A εsys cutoff value of - 10.6% discriminated between HCM and H-LVH with a sensitivity of 85.0%, specificity of 100.0%, and predictive accuracy of 91.2%. The combination of the septum/posterior wall thickness ratio and εsys discriminated HCM from H-LVH with a predictive accuracy of 96.1%. The εsys parameter was significantly correlated with pulmonary arterial wedge pressure, LV end-diastolic pressure, the peak positive first derivative of LV pressure, and the time constant of LV pressure decay. Conclusions-SR imaging is able to discriminate HCM from H-LVH, with εsys reflecting myocardial contractile and lusitropic properties.
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U2 - 10.1161/01.CIR.0000150334.69355.00
DO - 10.1161/01.CIR.0000150334.69355.00
M3 - Article
C2 - 15583080
AN - SCOPUS:11144278247
SN - 0009-7322
VL - 110
SP - 3808
EP - 3814
JO - Circulation
JF - Circulation
IS - 25
ER -