Right Ventricular Dissipative Energy Loss Detected by Vector Flow Mapping in Children: Characteristics of Normal Values

Objectives The feasible application of vector flow mapping (VFM)–derived right ventricular (RV) energy loss (EL) is lacking. This study was designed to determine reference values of VFM–derived EL within the right ventricle and evaluate potential correlated variables. Methods A total of 90 healthy c...

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Published inJournal of ultrasound in medicine Vol. 38; no. 1; pp. 131 - 140
Main Authors Chen, Zhongxiu, Li, Yajiao, Li, Chen, Tang, Hong, Wang, Hui, Zhong, Yue, Cai, Yuyan, Rao, Li
Format Journal Article
LanguageEnglish
Published Hoboken, USA John Wiley & Sons, Inc 01.01.2019
Subjects
cardiac function
children
echocardiography
right ventricular energy loss
vector flow mapping
cardiac function
children
right ventricular energy loss
vector flow mapping
echocardiography
Online AccessGet full text
ISSN0278-4297
1550-9613
1550-9613
DOI10.1002/jum.14674

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Abstract Objectives The feasible application of vector flow mapping (VFM)–derived right ventricular (RV) energy loss (EL) is lacking. This study was designed to determine reference values of VFM–derived EL within the right ventricle and evaluate potential correlated variables. Methods A total of 90 healthy children were enrolled. Velocity vector fields of the intra‐RV outflow tract and pulmonary trunk (OP) and RV blood flow were obtained from the parasternal short‐axis view and RV focused apical 4‐chamber view, respectively. RV‐EL and OP‐EL values during diastole and systole were calculated using VFM analysis. The potential relationships between demographic and echocardiographic parameters and the dissipative EL were also identified. Results Mean subject age was 8.99 ± 5.35 years. The median (interquartile range) values were 8.82 (5.47–14.30) W/m for RV diastolic EL, 3.17 (2.11–5.54) W/m for RV systolic EL, 18.82 (13.93–24.92) W/m for OP diastolic EL, and 29.88 (20.62–40.78) W/m for OP systolic EL, respectively. The dissipative EL values were negatively correlated with age and RV global strain, and positively correlated with heart rate and RV Tei index. Multivariate analysis showed that age was the primary independent predictor of these 4 types of EL, while heart rate and strain were contributors of the RV diastolic EL and OP systolic EL. Conclusions The present study initially validated the application of vector flow mapping–derived EL analysis in right ventricle and established reference values for the future assessment of children with cardiopulmonary disease. Age, heart rate, and strain were independent variables correlated with the dissipative EL.
AbstractList The feasible application of vector flow mapping (VFM)-derived right ventricular (RV) energy loss (EL) is lacking. This study was designed to determine reference values of VFM-derived EL within the right ventricle and evaluate potential correlated variables. A total of 90 healthy children were enrolled. Velocity vector fields of the intra-RV outflow tract and pulmonary trunk (OP) and RV blood flow were obtained from the parasternal short-axis view and RV focused apical 4-chamber view, respectively. RV-EL and OP-EL values during diastole and systole were calculated using VFM analysis. The potential relationships between demographic and echocardiographic parameters and the dissipative EL were also identified. Mean subject age was 8.99 ± 5.35 years. The median (interquartile range) values were 8.82 (5.47-14.30) W/m for RV diastolic EL, 3.17 (2.11-5.54) W/m for RV systolic EL, 18.82 (13.93-24.92) W/m for OP diastolic EL, and 29.88 (20.62-40.78) W/m for OP systolic EL, respectively. The dissipative EL values were negatively correlated with age and RV global strain, and positively correlated with heart rate and RV Tei index. Multivariate analysis showed that age was the primary independent predictor of these 4 types of EL, while heart rate and strain were contributors of the RV diastolic EL and OP systolic EL. The present study initially validated the application of vector flow mapping-derived EL analysis in right ventricle and established reference values for the future assessment of children with cardiopulmonary disease. Age, heart rate, and strain were independent variables correlated with the dissipative EL.
Objectives The feasible application of vector flow mapping (VFM)–derived right ventricular (RV) energy loss (EL) is lacking. This study was designed to determine reference values of VFM–derived EL within the right ventricle and evaluate potential correlated variables. Methods A total of 90 healthy children were enrolled. Velocity vector fields of the intra‐RV outflow tract and pulmonary trunk (OP) and RV blood flow were obtained from the parasternal short‐axis view and RV focused apical 4‐chamber view, respectively. RV‐EL and OP‐EL values during diastole and systole were calculated using VFM analysis. The potential relationships between demographic and echocardiographic parameters and the dissipative EL were also identified. Results Mean subject age was 8.99 ± 5.35 years. The median (interquartile range) values were 8.82 (5.47–14.30) W/m for RV diastolic EL, 3.17 (2.11–5.54) W/m for RV systolic EL, 18.82 (13.93–24.92) W/m for OP diastolic EL, and 29.88 (20.62–40.78) W/m for OP systolic EL, respectively. The dissipative EL values were negatively correlated with age and RV global strain, and positively correlated with heart rate and RV Tei index. Multivariate analysis showed that age was the primary independent predictor of these 4 types of EL, while heart rate and strain were contributors of the RV diastolic EL and OP systolic EL. Conclusions The present study initially validated the application of vector flow mapping–derived EL analysis in right ventricle and established reference values for the future assessment of children with cardiopulmonary disease. Age, heart rate, and strain were independent variables correlated with the dissipative EL.
The feasible application of vector flow mapping (VFM)-derived right ventricular (RV) energy loss (EL) is lacking. This study was designed to determine reference values of VFM-derived EL within the right ventricle and evaluate potential correlated variables.OBJECTIVESThe feasible application of vector flow mapping (VFM)-derived right ventricular (RV) energy loss (EL) is lacking. This study was designed to determine reference values of VFM-derived EL within the right ventricle and evaluate potential correlated variables.A total of 90 healthy children were enrolled. Velocity vector fields of the intra-RV outflow tract and pulmonary trunk (OP) and RV blood flow were obtained from the parasternal short-axis view and RV focused apical 4-chamber view, respectively. RV-EL and OP-EL values during diastole and systole were calculated using VFM analysis. The potential relationships between demographic and echocardiographic parameters and the dissipative EL were also identified.METHODSA total of 90 healthy children were enrolled. Velocity vector fields of the intra-RV outflow tract and pulmonary trunk (OP) and RV blood flow were obtained from the parasternal short-axis view and RV focused apical 4-chamber view, respectively. RV-EL and OP-EL values during diastole and systole were calculated using VFM analysis. The potential relationships between demographic and echocardiographic parameters and the dissipative EL were also identified.Mean subject age was 8.99 ± 5.35 years. The median (interquartile range) values were 8.82 (5.47-14.30) W/m for RV diastolic EL, 3.17 (2.11-5.54) W/m for RV systolic EL, 18.82 (13.93-24.92) W/m for OP diastolic EL, and 29.88 (20.62-40.78) W/m for OP systolic EL, respectively. The dissipative EL values were negatively correlated with age and RV global strain, and positively correlated with heart rate and RV Tei index. Multivariate analysis showed that age was the primary independent predictor of these 4 types of EL, while heart rate and strain were contributors of the RV diastolic EL and OP systolic EL.RESULTSMean subject age was 8.99 ± 5.35 years. The median (interquartile range) values were 8.82 (5.47-14.30) W/m for RV diastolic EL, 3.17 (2.11-5.54) W/m for RV systolic EL, 18.82 (13.93-24.92) W/m for OP diastolic EL, and 29.88 (20.62-40.78) W/m for OP systolic EL, respectively. The dissipative EL values were negatively correlated with age and RV global strain, and positively correlated with heart rate and RV Tei index. Multivariate analysis showed that age was the primary independent predictor of these 4 types of EL, while heart rate and strain were contributors of the RV diastolic EL and OP systolic EL.The present study initially validated the application of vector flow mapping-derived EL analysis in right ventricle and established reference values for the future assessment of children with cardiopulmonary disease. Age, heart rate, and strain were independent variables correlated with the dissipative EL.CONCLUSIONSThe present study initially validated the application of vector flow mapping-derived EL analysis in right ventricle and established reference values for the future assessment of children with cardiopulmonary disease. Age, heart rate, and strain were independent variables correlated with the dissipative EL.
Author Li, Chen
Li, Yajiao
Rao, Li
Chen, Zhongxiu
Wang, Hui
Zhong, Yue
Cai, Yuyan
Tang, Hong
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  email: lrlz1989@163.com
  organization: West China Hospital of Sichuan University
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Keywords cardiac function
children
right ventricular energy loss
vector flow mapping
echocardiography
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Snippet Objectives The feasible application of vector flow mapping (VFM)–derived right ventricular (RV) energy loss (EL) is lacking. This study was designed to...
The feasible application of vector flow mapping (VFM)-derived right ventricular (RV) energy loss (EL) is lacking. This study was designed to determine...
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SubjectTerms cardiac function
children
echocardiography
right ventricular energy loss
vector flow mapping
Title Right Ventricular Dissipative Energy Loss Detected by Vector Flow Mapping in Children: Characteristics of Normal Values
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fjum.14674
https://www.ncbi.nlm.nih.gov/pubmed/30027672
https://www.proquest.com/docview/2073332985
Volume 38
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