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超声心动图曲线M型应变率成像研究冠心病心肌缺血 被引量:3

Study on myocardial ischemia in coronary heart disease by echocardiographic curved M-mode strain rate imaging
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摘要 目的应用曲线M型应变率成像(CMM-SRI)技术研究冠心病缺血心肌的图像特点,重点探讨收缩-舒张转换时间(Tcec)的改变。方法冠心病组和正常对照组各60例,观察左心室CMM-SRI图像特点,定量检测各节段Tcec,冠状动脉造影确定缺血节段,比较冠心病组左心室壁各节段与对照组之间Tcec的差异。结果无缺血节段的室壁,CMM-SRI图像红、蓝颜色转换的交界线基本呈直线,有缺血节段的室壁,交界线呈不规则曲线;缺血节段Tcec延长,与对照组比较绝大多数缺血节段差异有统计学意义。结论CMM-SRI可定量分析缺血心肌Tcec的改变,提示CMM-SRI技术可用于检测缺血心肌。 Objective To study the characteristics ofechocardiographic curved M-mode strain rate imaging (CMM-SRI) on ischemic myocardium in coronary heart disease, especially the change of time to compression/expansion crossover (Tcec). Methods Sixty patients with coronary heart disease and sixty healthy subjects (controls) were examined. The CMM-SRI characteristics of left ventricle and Tcec were observed and detected quantitatively. Coronary artery visualization was used to differentiate myocardium segments of patients into ischemic and non-ischemic ones. In the quantitative analysis system of curved M-mode of strain rate imaging, Tcec was compared between myocardium segments of patients and those of healthy subjects. Results The borderlines of red/blue crossover of CMM-SRI were almost straight in non-ischemic ventricular walls while irregularly curve in ischemic ventricular walls. Most of ischemic myocardium segments had significantly longer Tcec than myocardial segments in healthy subjects. Conclusion The CMM-SRI can quantitatively analyze the change of Tcec and can be used in detecting ischemic myocardium segments.
作者 宋艳 钱蕴秋 张海滨 李红玲 朱霆 贺建国
机构地区 第四军医大学西京医院超声科
出处 《生物医学工程与临床》 CAS 2006年第5期304-306,F0003,共4页 Biomedical Engineering and Clinical Medicine
关键词 超声心动图 应变率成像 曲线M型 冠心病 echocardiography strain rate imaging curved M-mode coronary heart disease
分类号 R541.4 [医药卫生—心血管疾病]
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参考文献7

  • 1Belohlavek M,Pislaru C,Bae RY,et al.Real-time strain rate echocardiographic imaging:temporal and spatial analysis of postsystolic compression in acutely ischemic myocardium[J].J Am Soc Echocardiogr,2001,14 (5):360-369.
  • 2Hoffmann R,Altiok E,Nowak B,et al.Strain rate analysis allows detection of differences in diastolic function between viable and nonviable myocardial segments[J].J Am Soc Echocardiogr,2005,18(4):330-335.
  • 3Dogdelen S,Yuce M,Emiroglu Y,et al.Correlation between the tissue Doppler,strain rate,strain imaging during the dobutamine infusion and coronary fractional flow reserve during catheterization:a comparative study[J].Int J Cardiol,2005,102(1):127-136.
  • 4Pislaru C,Anagnostopoulos PC,Seward JB,et al.Higher myocardial strain rates during isovolumic relaxation phase than during ejection characterize acutely ischemic myocardium[J].J Am Coll Cardiol,2002,40 (8):1487-1494.
  • 5Carlhall C,Wranne B,Jurkevicius R.Is left ventricular postsystolic long-axis shortening a marker for severity of hypertensive heart disease[J]? Am J Cardiol,2003,91 (12):1490-1493.
  • 6Doyle R,Foex P,Ryder WA,et al.Differences in ischemic dysfunction after gradual and abrupt coronary occlusion:effects on isovolumic relaxation[J].Cardiovasc Res,1987,21 (7):507-514.
  • 7孟祥春,孙锟,张玉奇,张志芳,沈蓉,朱铭,陈树宝.超声应变率显像技术估测犬的右心室长轴收缩功能[J].中国超声医学杂志,2005,21(5):321-324. 被引量:16

二级参考文献13

  • 1孙锟,陈树宝.二维超声技术检测右心室容量[J].中华医学杂志,1993,73(9):535-540. 被引量:11
  • 2Benchimol A,Desser KB,Hastreiter AR.Right ventricular volume in congenital heart disease.Am J Cardiol,1975,36(1):67-75.
  • 3Kukulski,Hubbert L,Arnlod M,et al.Normal regional right ventr-icular function and its change with age:a Doppler myocardial imaging study.J Am Soc Echocardiogr,2000,13:194-204.
  • 4Frommelt PC,Ballweg JA,Whitstone BN,et al.Usefulness of Dop-pler tissue imaging analysis of tricuspid annular motion for determination of right ventricular function in normal infants and children.Am J Cardiol,2002,89(3):610-613.
  • 5Watanabe M,Ono S,Tomomasa T,et al.Measurement of tricuspid annular diastolic velocities by Doppler tissue imaging to assess right ventricular function in patents with congenital heart disease.Pediatr Cardiol,2003,24(5),463-467.
  • 6Kapusta L,Thijssen JM,Cuypers MH,et al.Assessment of myoc-ardial velocities in healthy children using tissue Doppler imaging.Ultrasound Med Biol,2000,26(2):229-237.
  • 7Heimdal A,D`hooge J,Bijnens B,et al.In vitro validation of in plane strain rate imaging,a new ultrasound technique for evaluating regional myocardial deformation based on tissue Doppler imaging.Echocardiography,1998,15(part 2):S40,Abstract.
  • 8Heimdal A,Stoylen A,Torp H,et al.Real-time strain rate imaging of the left ventricle by ultrasound.J Am Soc Echocardiogra,1998,11(11):1 013-1 019.
  • 9Fogel MA,Rychik J.Right ventricular functin in congenital heart disease:pressure and volume overload lesions.Prog Cardiovasc Dis,1998,40:343-356.
  • 10Pellerin D,Sharma R,Elliott P,et al.Tissue Doppler,strain,and strain rate echocardiography for the assessment of left and right systolic ventricular function.Heart,2003,89:9-17.

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生物医学工程与临床
2006年 第5期

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