使用新型自动功能成像技术分析胎儿心脏的节段性和整体功能。

Analysis of segmental and global function of the fetal heart using novel automatic functional imaging.

作者信息

Ta-Shma Asaf, Perles Zeev, Gavri Sagui, Golender Julius, Tarshansky Shulamit, Shlichter Chava, Bar Tov Hadassah, Rein Azaria J J T

机构信息

Division of Pediatric Cardiology, Hadassah University Medical Center, Jerusalem, Israel.

出版信息

J Am Soc Echocardiogr. 2008 Feb;21(2):146-50. doi: 10.1016/j.echo.2007.05.007. Epub 2007 Jul 12.

DOI:10.1016/j.echo.2007.05.007

PMID:17628416

Abstract

BACKGROUND

Functional assessment of the fetal heart has always been a challenge. Automatic functional imaging (AFI), a novel non-Doppler methodology based on 2-dimensional acoustic markers tracking, measures myocardial deformation regardless of angle of interrogation. Thus, we studied the validity of AFI in segmental and global assessment of myocardial function in the fetus.

METHODS

AFI-based myocardial deformation parameters including segmental tissue velocity, strain, and strain rate as well as biventricular global strain and strain rate were measured from raw scan-line data obtained from 28 normal fetuses (20-38, median 28 weeks of gestation). Interobserver and intraobserver variability was analyzed. AFI data were compared with analogous Doppler-derived tissue velocity imaging parameters measured in the same 28 fetuses.

RESULTS

AFI was feasible in 94% of the fetuses studied with high reproducibility. AFI-based tissue velocity (3.9 +/- 1 cm/s) was comparable with tissue velocity imaging-based velocity (4 +/- 1.6 cm/s) in the right ventricle and in the left ventricle (AFI velocity 3.3 +/- 0.6 vs tissue velocity imaging 3.1 +/- 0.9 cm/s). Strain rate obtained by these two methods was also similar. Biventricular global strain and strain rate measured 16 +/- 4% and 1.6 +/- .5 seconds(-1), respectively. Tissue velocity increased whereas segmental strain rate decreased throughout gestation. Strain remained unchanged. Global strain rate significantly decreased with gestational age (r = -0.7).

CONCLUSION

AFI, a novel non-Doppler methodology, allows fast and accurate quantification of segmental and global myocardial function in the fetus. AFI-based tissue velocity increases with gestational age whereas segmental and the new parameter global strain rate decrease throughout gestation.

摘要

背景

胎儿心脏功能评估一直是一项挑战。自动功能成像（AFI）是一种基于二维声学标记跟踪的新型非多普勒方法，可测量心肌变形，而不受询问角度的影响。因此，我们研究了AFI在胎儿心肌功能节段性和整体评估中的有效性。

方法

从28例正常胎儿（妊娠20 - 38周，中位妊娠28周）获得的原始扫描线数据中，测量基于AFI的心肌变形参数，包括节段性组织速度、应变和应变率，以及双心室整体应变和应变率。分析了观察者间和观察者内的变异性。将AFI数据与在同一28例胎儿中测量的类似多普勒衍生组织速度成像参数进行比较。

结果

在94%的研究胎儿中，AFI是可行的，具有高重复性。基于AFI的右心室和左心室组织速度（3.9±1 cm/s）与基于组织速度成像的速度（4±1.6 cm/s）相当（AFI速度3.3±0.6 vs组织速度成像3.1±0.9 cm/s）。通过这两种方法获得的应变率也相似。双心室整体应变和应变率分别为16±4%和1.6±0.5秒⁻¹。整个妊娠期组织速度增加，而节段性应变率降低。应变保持不变。整体应变率随孕周显著降低（r = -0.7）。

结论

AFI是一种新型非多普勒方法，能够快速、准确地量化胎儿心肌功能的节段性和整体性。基于AFI的组织速度随孕周增加，而节段性和新参数整体应变率在整个妊娠期降低。

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使用新型自动功能成像技术分析胎儿心脏的节段性和整体功能。

Analysis of segmental and global function of the fetal heart using novel automatic functional imaging.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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