Lund University Publications

@phdthesis{d72969fc-cd88-4ee6-8c5c-cba0af071d42,
  abstract     = {{Placental dysfunction resulting in intrauterine growth restriction (IUGR) is a common complication of pregnany<br/><br>
and severe IUGR, with ensuing fetal hypoxia is an important cause of perinatal mortality and morbidity. Doppler<br/><br>
studies of fetal and maternal vessels are routinely used for fetal surveillance and alterations in fetal venous blood<br/><br>
flow has been demonstrated as a late sign of fetal compromise. However, the role of venous blood flow<br/><br>
investigations in decisions on delivery has not been clearly defined and abnormal ductus venosus blood flow has<br/><br>
shown moderate accuracy in predicting adverse perinatal outcome. The mechanisms behind ductus venosus<br/><br>
dilatation in fetal hypoxia, the transmissions of pulses in the fetal venous system and the association between<br/><br>
venous blood flow and cardiac function have also not been completely clarified.<br/><br>
We investigated ductus venosus and umbilical venous blood flow patterns and the association between<br/><br>
alterations in the two vessels and adverse perinatal outcome. Changes in ductus venosus blood flow during<br/><br>
systole occurred more rarely than diastolic changes and were more often associated with adverse periatal<br/><br>
outcome. UV-pulsations seemed to be an independent indicator of fetal compromise, regardless of ductus<br/><br>
venosus pulsatility index for veins (PIV), which was not a reliable indicator of fetal compromise as an isolated<br/><br>
finding.<br/><br>
The heart is a crucial organ for fetal adaptation to placental insufficiency. Studies have indicated cardiac damage<br/><br>
and remodelling during chronic hypoxia and estimations of cardiac function may therefore be useful for fetal<br/><br>
surveillance in IUGR. The best suited parameters, however, remain to be established. Methods that analyze<br/><br>
cardiac deformation have recently been developed and have shown promise. Using the novel speckle tracking<br/><br>
technique Velocity Vector Imaging, strain, strain rate and velocity of the ventricular and atrial walls were<br/><br>
measured in a cohort of 250 healthy fetuses and compared to results in a group of 38 fetuses with signs of<br/><br>
impaired placental function. Reference ranges were constructed for the control group. Cardiac strain did not<br/><br>
differ between the control and study groups and there was no association between ductus venosus PIV, umbilical<br/><br>
vein pulsations and ventricular or atrial strain, strain rate or velocity. This indicates that during fetal hypoxia,<br/><br>
circulatory redistribution results in preservation of cardiac deformation thereby maintaining cardiac output<br/><br>
intact}},
  author       = {{Dahlbäck, Charlotte}},
  isbn         = {{978-91-7619-181-1}},
  issn         = {{1652-8220}},
  keywords     = {{pregnancy; fetus; strain; speckle tracking; cardiac function; umbilical vein; venous; ductus venosus; Doppler}},
  language     = {{eng}},
  publisher    = {{Research Unit for Urogynaecology and Reproductive Pharmacology}},
  school       = {{Lund University}},
  series       = {{Lund University Faculty of Medicine Doctoral Dissertation Series}},
  title        = {{Fetal Cardiac Function and Venous Circulation - Experiences with Velocity Vector Imaging}},
  url          = {{https://lup.lub.lu.se/search/files/4008897/8055300.pdf}},
  volume       = {{2015-102}},
  year         = {{2015}},
}