Velocity Vector Imaging technology and standard echocardiography in evaluation of left ventricular function in patients with coronary artery disease before and after coronary bypass surgery

Abstract

Aim. To study strain and strain rate dynamics the left ventricle (LV) myocardium fibers in patients with ischemic heart disease after coronary artery bypass grafting (CABG) in the early and late periods.Material and methods. The dynamics of strain (S) and strain rate (SR) of longitudinal, circular and radial fibers in 148 patients (in 2646 LV segments) before and on the 12th day after CABG was studied using Velocity Vector Imaging technology. In the long-term (6, 12 and 24 months) 40 patients (720 LV segments) were examined.Results. A positive dynamics of SR longitudinal fibers (p = 0.0002) was on the 12th day after CABG. Weak and medium correlation was between S and SR radial (R = –0.56; R = –0.52) and circular fibers with LDG-1 and duration of aortic clamping. In the long term, patients with complaints showed a decrease in global deformation properties in the coronary artery areas. The stable result of improvement S and SR longitudinal and circular fibers and SR radial fibers was obtained in segments with initially low deformation properties.Conclusions. The use of Velocity Vector Imaging technology allows to estimate the dynamics of LV fibers deformation parameters in early and long-term periods. In the early period after CABG was a positive dynamic only from the global SR longitudinal fibers. In the long-term global deformation parameters of longitudinal and circular fibers was decrease in in the area of the coronary arteries. In the long-term was a significant improvement of the deformation parameters of segments with initially low deformation properties.