The repeatability of echocardiographic determination of right ventricular output in the newborn

B. Tsai-Goodman; R. P. Martin; N. Marlow; J. R. Skinner

doi:10.1017/S1047951101000099

Abstract

Background: Non-invasive measurement of left ventricular output has been shown to be a repeatable technique. Little is known about the repeatability using echocardiography in determining pulmonary arterial diameters or right ventricular output. Aims: To find the most repeatable point at which to measure pulmonary arterial diameter, and to compare the repeatability of determining right ventricular output with left ventricular output. Methods: We assessed the Intra-observer and inter-observer repeatability for measuring the diameter of the pulmonary trunk in 24 term and 26 preterm infants, respectively. Interobserver repeatability was assessed for the diameters of the pulmonary trunk and aorta, for stroke distance, and for left and right ventricular output. Results: The coefficients of variation for intra-observer repeatability were 4%, 7.5% and 9% respectively for measurements of the pulmonary valve, the pulmonary trunk, and the right ventricular outflow tract. There were significant differences between observers for measurement of the pulmonary trunk (p< 0.001) and right ventricular outflow tract (p= 0.011) but not for the pulmonary valve measured in either its long (p= 0.22) or short axis (p= 0.22). Significant differences between observers were also found for the pulmonary stroke distance measured in the long axis (p= 0.004) and aortic diameter at end-diastole (p< 0.001). The other parameters did not differ significantly and were used to calculate right and left ventricular output, respectively. Mean left ventricular output was 241 mls/kg/min, with mean differences between observers of 0.6 mls/kg/min (95% confidence interval (CI): −39.2 to 40.3 mls/kg/min). Mean right ventricular output was 255 mls/kg/min, with mean differences of 0.3 mls/kg/min (95% CI: −24.1 to 23.4 mls/kg/min). Conclusion: Measuring the diameter of the pulmonary trunk at the base of the valvar hinge points was most repeatable. Repeatability of right ventricular output was similar to that of left, with absolute values similar to those published by other workers.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Groves, Alan M. Kuschel, Carl A. and Skinner, Jonathan R. 2006. International Perspectives. NeoReviews, Vol. 7, Issue. 8, p. e391.

West, Claire R Groves, Alan M Williams, Chris E Harding, Jane E Skinner, Jonathan R Kuschel, Carl A and Battin, Malcolm R 2006. Early Low Cardiac Output Is Associated with Compromised Electroencephalographic Activity in Very Preterm Infants. Pediatric Research, Vol. 59, Issue. 4 Part 1, p. 610.

Groves, A M Kuschel, C A Knight, D B and Skinner, J R 2008. Relationship between blood pressure and blood flow in newborn preterm infants. Archives of Disease in Childhood - Fetal and Neonatal Edition, Vol. 93, Issue. 1, p. F29.

Groves, Alan M Kuschel, Carl A Knight, David B and Skinner, Jon R 2008. Does Retrograde Diastolic Flow in the Descending Aorta Signify Impaired Systemic Perfusion in Preterm Infants?. Pediatric Research, Vol. 63, Issue. 1, p. 89.

Abdel-Hady, Hesham Matter, Mohamed Hammad, Ayman El-Refaay, Ahmed and Aly, Hany 2008. Hemodynamic Changes During Weaning From Nasal Continuous Positive Airway Pressure. Pediatrics, Vol. 122, Issue. 5, p. e1086.

Groves, A M Kuschel, C A Knight, D B and Skinner, J R 2008. Echocardiographic assessment of blood flow volume in the superior vena cava and descending aorta in the newborn infant. Archives of Disease in Childhood - Fetal and Neonatal Edition, Vol. 93, Issue. 1, p. F24.

Takahashi, S Kakiuchi, S Nanba, Y Tsukamoto, K Nakamura, T and Ito, Y 2010. The perfusion index derived from a pulse oximeter for predicting low superior vena cava flow in very low birth weight infants. Journal of Perinatology, Vol. 30, Issue. 4, p. 265.

de Waal, Koert A. 2012. The Methodology of Doppler-Derived Central Blood Flow Measurements in Newborn Infants. International Journal of Pediatrics, Vol. 2012, Issue. , p. 1.

Seri, Istvan and Markovitz, Barry 2012. Avery's Diseases of the Newborn. p. 714.

de Waal, Koert Kluckow, Martin and Evans, Nick 2013. Weight corrected percentiles for blood vessel diameters used in flow measurements in preterm infants. Early Human Development, Vol. 89, Issue. 12, p. 939.

Beker, Friederike Davis, Peter G Sehgal, Arvind and Rogerson, Sheryle 2014. Echocardiographic assessment of left ventricular outflow tract diameter in preterm infants. Australasian Journal of Ultrasound in Medicine, Vol. 17, Issue. 4, p. 146.

van Vonderen, Jeroen J. Roest, Arno A.W. Siew, Melissa L. Blom, Nico A. van Lith, Jan M. Walther, Frans J. Hooper, Stuart B. and te Pas, Arjan B. 2014. Noninvasive measurements of hemodynamic transition directly after birth. Pediatric Research, Vol. 75, Issue. 3, p. 448.

Beker, Friederike Rogerson, Sheryle R. Hooper, Stuart B. Wong, Connie and Davis, Peter G. 2014. The Effects of Nasal Continuous Positive Airway Pressure on Cardiac Function in Premature Infants with Minimal Lung Disease: A Crossover Randomized Trial. The Journal of Pediatrics, Vol. 164, Issue. 4, p. 726.

Weisz, Dany E. Jain, Amish Ting, Joseph McNamara, Patrick J. and EL-Khuffash, Afif 2014. Non-Invasive Cardiac Output Monitoring in Preterm Infants Undergoing Patent Ductus Arteriosus Ligation: A Comparison with Echocardiography. Neonatology, Vol. 106, Issue. 4, p. 330.

Katheria, Anup C Wozniak, Madeline Harari, David Arnell, Kathy Petruzzelli, Deborah and Finer, Neil N 2015. Measuring cardiac changes using electrical impedance during delayed cord clamping: a feasibility trial. Maternal Health, Neonatology and Perinatology, Vol. 1, Issue. 1,

van der Laan, Michelle E. Roofthooft, Marcus T. R. Fries, Marian W. A. Schat, Trijntje E. Bos, Arend F. Berger, Rolf M. F. and Kooi, Elisabeth M. W. 2016. Multisite Tissue Oxygenation Monitoring Indicates Organ-Specific Flow Distribution and Oxygen Delivery Related to Low Cardiac Output in Preterm Infants With Clinical Sepsis. Pediatric Critical Care Medicine, Vol. 17, Issue. 8, p. 764.

Singh, Yogen 2017. Echocardiographic Evaluation of Hemodynamics in Neonates and Children. Frontiers in Pediatrics, Vol. 5, Issue. ,

Noori, Shahab Azhibekov, Timur Lee, Ben and Seri, Istvan 2018. Avery's Diseases of the Newborn. p. 741.

McGovern, Matthew and Miletin, Jan 2018. Cardiac Output Monitoring in Preterm Infants. Frontiers in Pediatrics, Vol. 6, Issue. ,

de Boode, Willem P. van der Lee, Robin Horsberg Eriksen, Beate Nestaas, Eirik Dempsey, Eugene Singh, Yogen Austin, Topun and El-Khuffash, Afif 2018. The role of Neonatologist Performed Echocardiography in the assessment and management of neonatal shock. Pediatric Research, Vol. 84, Issue. S1, p. 57.

Download full list

Article contents

The repeatability of echocardiographic determination of right ventricular output in the newborn

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

The repeatability of echocardiographic determination of right ventricular output in the newborn

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests