Comparison of the right and left ventricular performance during the fetal development using velocity vector imaging

Seon Hye Kim, Kei Miyakoshi, Ikuko Kadohira, Mamoru Tanaka, Kazuhiro Minegishi, Tadashi Matsumoto, Yasunori Yoshimura

Research output: Contribution to journalArticle

14 Citations (Scopus)

Abstract

Background: Studies on myocardial characteristics examined by speckle-tracking echocardiography are limited. Aims: To compare myocardial performance between the right and left ventricles during the fetal development using velocity vector imaging (VVI). Subjects and study design: Echocardiograms of 95 uncomplicated singleton fetuses (19-36. weeks pregnancy) were retrospectively analyzed by VVI to measure global longitudinal peak velocity, strain, and strain rate of both the right ventricle (RV) and left ventricle (LV). The regional values were calculated for three segments (base, mid, and apex) of the ventricular free wall and segment. Outcome measures: The VVI-derived measurements were examined for gestational age and compared between ventricles. Results: The global peak systolic and diastolic velocity values of both ventricles significantly increased over gestation examined, whereas the global systolic strain and strain rate were stable (RV: strain -. 22.6. ±5.0%, strain rate -. 2.6. ±. 0.7/s; LV: strain -. 21.5. ±. 5.6%, strain rate -. 2.5. ±. 0.7/s). Compared to the LV, the RV showed significantly higher global velocity in systole and diastole (P =0.001 for systole, P<. 0.001 for diastole). The global systolic velocity of the LV increased close to the RV toward term, whereas the RV was dominant in diastole throughout the examined gestation. Basal strain and strain rate in the RV were significantly greater than that of the LV, although there were no significant differences in the middle and apical values between ventricles. Conclusion: Our findings suggest the RV predominance of longitudinal contraction and dilatation, compared to the LV in uncomplicated fetuses.

Original languageEnglish
Pages (from-to)675-681
Number of pages7
JournalEarly Human Development
Volume89
Issue number9
DOIs
Publication statusPublished - 2013 Sep

Fingerprint

Fetal Development
Heart Ventricles
Diastole
Systole
Pregnancy
Fetus
Gestational Age
Echocardiography
Dilatation

Keywords

  • Fetus
  • Myocardial performance
  • Peak velocity
  • Speckle tracking
  • Strain
  • Strain rate
  • Velocity vector imaging

ASJC Scopus subject areas

  • Pediatrics, Perinatology, and Child Health
  • Obstetrics and Gynaecology

Cite this

Comparison of the right and left ventricular performance during the fetal development using velocity vector imaging. / Kim, Seon Hye; Miyakoshi, Kei; Kadohira, Ikuko; Tanaka, Mamoru; Minegishi, Kazuhiro; Matsumoto, Tadashi; Yoshimura, Yasunori.

In: Early Human Development, Vol. 89, No. 9, 09.2013, p. 675-681.

Research output: Contribution to journalArticle

Kim, Seon Hye ; Miyakoshi, Kei ; Kadohira, Ikuko ; Tanaka, Mamoru ; Minegishi, Kazuhiro ; Matsumoto, Tadashi ; Yoshimura, Yasunori. / Comparison of the right and left ventricular performance during the fetal development using velocity vector imaging. In: Early Human Development. 2013 ; Vol. 89, No. 9. pp. 675-681.
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abstract = "Background: Studies on myocardial characteristics examined by speckle-tracking echocardiography are limited. Aims: To compare myocardial performance between the right and left ventricles during the fetal development using velocity vector imaging (VVI). Subjects and study design: Echocardiograms of 95 uncomplicated singleton fetuses (19-36. weeks pregnancy) were retrospectively analyzed by VVI to measure global longitudinal peak velocity, strain, and strain rate of both the right ventricle (RV) and left ventricle (LV). The regional values were calculated for three segments (base, mid, and apex) of the ventricular free wall and segment. Outcome measures: The VVI-derived measurements were examined for gestational age and compared between ventricles. Results: The global peak systolic and diastolic velocity values of both ventricles significantly increased over gestation examined, whereas the global systolic strain and strain rate were stable (RV: strain -. 22.6. ±5.0{\%}, strain rate -. 2.6. ±. 0.7/s; LV: strain -. 21.5. ±. 5.6{\%}, strain rate -. 2.5. ±. 0.7/s). Compared to the LV, the RV showed significantly higher global velocity in systole and diastole (P =0.001 for systole, P<. 0.001 for diastole). The global systolic velocity of the LV increased close to the RV toward term, whereas the RV was dominant in diastole throughout the examined gestation. Basal strain and strain rate in the RV were significantly greater than that of the LV, although there were no significant differences in the middle and apical values between ventricles. Conclusion: Our findings suggest the RV predominance of longitudinal contraction and dilatation, compared to the LV in uncomplicated fetuses.",
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AU - Kim, Seon Hye

AU - Miyakoshi, Kei

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AU - Minegishi, Kazuhiro

AU - Matsumoto, Tadashi

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N2 - Background: Studies on myocardial characteristics examined by speckle-tracking echocardiography are limited. Aims: To compare myocardial performance between the right and left ventricles during the fetal development using velocity vector imaging (VVI). Subjects and study design: Echocardiograms of 95 uncomplicated singleton fetuses (19-36. weeks pregnancy) were retrospectively analyzed by VVI to measure global longitudinal peak velocity, strain, and strain rate of both the right ventricle (RV) and left ventricle (LV). The regional values were calculated for three segments (base, mid, and apex) of the ventricular free wall and segment. Outcome measures: The VVI-derived measurements were examined for gestational age and compared between ventricles. Results: The global peak systolic and diastolic velocity values of both ventricles significantly increased over gestation examined, whereas the global systolic strain and strain rate were stable (RV: strain -. 22.6. ±5.0%, strain rate -. 2.6. ±. 0.7/s; LV: strain -. 21.5. ±. 5.6%, strain rate -. 2.5. ±. 0.7/s). Compared to the LV, the RV showed significantly higher global velocity in systole and diastole (P =0.001 for systole, P<. 0.001 for diastole). The global systolic velocity of the LV increased close to the RV toward term, whereas the RV was dominant in diastole throughout the examined gestation. Basal strain and strain rate in the RV were significantly greater than that of the LV, although there were no significant differences in the middle and apical values between ventricles. Conclusion: Our findings suggest the RV predominance of longitudinal contraction and dilatation, compared to the LV in uncomplicated fetuses.

AB - Background: Studies on myocardial characteristics examined by speckle-tracking echocardiography are limited. Aims: To compare myocardial performance between the right and left ventricles during the fetal development using velocity vector imaging (VVI). Subjects and study design: Echocardiograms of 95 uncomplicated singleton fetuses (19-36. weeks pregnancy) were retrospectively analyzed by VVI to measure global longitudinal peak velocity, strain, and strain rate of both the right ventricle (RV) and left ventricle (LV). The regional values were calculated for three segments (base, mid, and apex) of the ventricular free wall and segment. Outcome measures: The VVI-derived measurements were examined for gestational age and compared between ventricles. Results: The global peak systolic and diastolic velocity values of both ventricles significantly increased over gestation examined, whereas the global systolic strain and strain rate were stable (RV: strain -. 22.6. ±5.0%, strain rate -. 2.6. ±. 0.7/s; LV: strain -. 21.5. ±. 5.6%, strain rate -. 2.5. ±. 0.7/s). Compared to the LV, the RV showed significantly higher global velocity in systole and diastole (P =0.001 for systole, P<. 0.001 for diastole). The global systolic velocity of the LV increased close to the RV toward term, whereas the RV was dominant in diastole throughout the examined gestation. Basal strain and strain rate in the RV were significantly greater than that of the LV, although there were no significant differences in the middle and apical values between ventricles. Conclusion: Our findings suggest the RV predominance of longitudinal contraction and dilatation, compared to the LV in uncomplicated fetuses.

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