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Doppler flow velocity waveforms of human fetal ductus arteriosus and branch pulmonary artery.

Doppler waveforms of the human fetal ductus arteriosus and the branch pulmonary artery are distinct in their shape and might reflect fetal cardiovascular hemodynamics and vessel wall characteristics. The waveform of ductus arteriosus had two peaks, a higher one in systole and a lower one in diastole...

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Detalles Bibliográficos
Autores principales: Choi, J. Y., Park, J. D., Jung, M. J., Kim, H. S.
Formato: Texto
Lenguaje:English
Publicado: Korean Academy of Medical Sciences 1997
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3054298/
https://www.ncbi.nlm.nih.gov/pubmed/9364298
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author Choi, J. Y.
Park, J. D.
Jung, M. J.
Kim, H. S.
author_facet Choi, J. Y.
Park, J. D.
Jung, M. J.
Kim, H. S.
author_sort Choi, J. Y.
collection PubMed
description Doppler waveforms of the human fetal ductus arteriosus and the branch pulmonary artery are distinct in their shape and might reflect fetal cardiovascular hemodynamics and vessel wall characteristics. The waveform of ductus arteriosus had two peaks, a higher one in systole and a lower one in diastole. Both peaks had slow acceleration and deceleration and looked like two narrow base isosceles triangles. This unique waveform might be due to vessel wall characteristics and an instantaneous pressure gradient between the main pulmonary artery and descending aorta. The waveform of the branch pulmonary artery showed very steep acceleration with the onset of ejection followed by steep decline, then low velocity flow during diastole. The characteristic shape of the branch pulmonary artery might be related to high vascular resistance, decreased capacitance and the earlier reflection wave of pulmonary vessels.
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spelling pubmed-30542982011-03-15 Doppler flow velocity waveforms of human fetal ductus arteriosus and branch pulmonary artery. Choi, J. Y. Park, J. D. Jung, M. J. Kim, H. S. J Korean Med Sci Research Article Doppler waveforms of the human fetal ductus arteriosus and the branch pulmonary artery are distinct in their shape and might reflect fetal cardiovascular hemodynamics and vessel wall characteristics. The waveform of ductus arteriosus had two peaks, a higher one in systole and a lower one in diastole. Both peaks had slow acceleration and deceleration and looked like two narrow base isosceles triangles. This unique waveform might be due to vessel wall characteristics and an instantaneous pressure gradient between the main pulmonary artery and descending aorta. The waveform of the branch pulmonary artery showed very steep acceleration with the onset of ejection followed by steep decline, then low velocity flow during diastole. The characteristic shape of the branch pulmonary artery might be related to high vascular resistance, decreased capacitance and the earlier reflection wave of pulmonary vessels. Korean Academy of Medical Sciences 1997-10 /pmc/articles/PMC3054298/ /pubmed/9364298 Text en
spellingShingle Research Article
Choi, J. Y.
Park, J. D.
Jung, M. J.
Kim, H. S.
Doppler flow velocity waveforms of human fetal ductus arteriosus and branch pulmonary artery.
title Doppler flow velocity waveforms of human fetal ductus arteriosus and branch pulmonary artery.
title_full Doppler flow velocity waveforms of human fetal ductus arteriosus and branch pulmonary artery.
title_fullStr Doppler flow velocity waveforms of human fetal ductus arteriosus and branch pulmonary artery.
title_full_unstemmed Doppler flow velocity waveforms of human fetal ductus arteriosus and branch pulmonary artery.
title_short Doppler flow velocity waveforms of human fetal ductus arteriosus and branch pulmonary artery.
title_sort doppler flow velocity waveforms of human fetal ductus arteriosus and branch pulmonary artery.
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3054298/
https://www.ncbi.nlm.nih.gov/pubmed/9364298
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