Evaluation of left ventricular long axis systolic function in healthy subjects and patients with coronary ;artery disease by two-dimensional strain rate imaging
10.3877/cma.j.issn.1672-6448.2014.03.004
- VernacularTitle:二维应变率成像技术评价健康人及冠状动脉粥样硬化性心脏病患者左心室局部长轴收缩功能
- Author:
Xiuxiu, FU
;
Zhibin, WANG
;
Yan, LI
;
Yong, LI
- Publication Type:Journal Article
- Keywords:
Echocardiography;
Coronary artery disease;
Ventricular function,left
- From:
Chinese Journal of Medical Ultrasound (Electronic Edition)
2014;(3):13-17
- CountryChina
- Language:Chinese
-
Abstract:
Objective To evaluate the regional long-axis systolic function of left ventricular in patients with coronary artery disease and healthy subjects by two-dimensional strain rate imaging (2D-SRI). Methods During October 2011 to August 2012 , 53 inpatients with coronary artery disease in the department cardiology from the Afifliated Hospital of Medical College, Qingdao University were enrolled. Twenty-nine patients with anterior wall infarction induced by left front-descending coronary artery disease (group LCA) and twenty-four with interior wall infarction induced by right coronary artery disease (group RCA) proved by coronary angiography and echocardiography were enrolled into the study and thirty healthy volunteers in the control group. High frame rate two-dimensional dynamic images were recorded in apical four-chamber view and two-chamber view of the left ventricle. Using two-dimensional strain software, peak systolic longitudinal strain rate (PSRs) of interventricular septum, anterior wall, lateral wall and interior wall of left ventricle were measured. All data of 3 groups were analyzed using One-Way analysis of variance, and LSD-q test used to compare the 2 groups. Results The PSRs were (4.61±0.60) s-1, (5.18±0.87) s-1, (5.60±0.70) s-1, (6.05±0.74) s-1 from interventricular septum, anterior wall, lateral wall to interior wall in the control group. There were signiifcant differences among the groups (F=20.95, P=0.00), and there were signiifcant gradient changes from intervetrivular septum, anterior wall, lateral wall to interior wall in the control group. The PSRs were (4.31±0.85) s-1, (1.96±0.93) s-1, (5.54±0.83) s-1, (5.93±0.80) s-1 from interventricular septum, anterior wall, lateral wall to interior wall in the LCA group respectively. There were signiifcant differences among the different walls (F=127.25, P=0.00), which was signiifcant lower in ischemic anterior wall than interventricular septum, lateral wall and interior wall, and the significant differences were identified in anterior wall with lateral wall and interior wall (q=22.62, 25.04, both P<0.01). The PSRs were (4.51±0.62) s-1, (4.99±1.13) s-1, (5.31±0.81) s-1, (2.84±0.85) s-1 from interventricular septum, anterior wall, lateral wall to interior wall in RCA group respectively. There were signiifcant differences among the different walls (F=38.12, P=0.00), which were signiifcant lower in ischemic interior wall than interventricular septum, anterior wall, and lateral wall, and the signiifcant differences were identiifed in interior wall with lateral wall and interior wall (q=13.88, 12.08, both P<0.01). Comparing the same part among 3 groups, signiifcant differences were identiifed as following:the PSRs of anterior wall in group LCA vs control group (q=20.17, P<0.01), the PSRs of interior wall in group RCA vs control group (q=19.98, P<0.01). Conclusions Longitudinal systolic function changes of left ventricular regional myocardium in patients with coronary artery disease and healthy subjects could be accurately analyzed by 2D-SRI. The early changes in ischemic myocardium would be assessed quickly in patients with coronary artery disease using 2D-SRI.
