OBJECT: We present the first study demonstrating the feasibility of antenatal blood flow velocimetry performing ECG triggered phase-contrast (PC)-MRI in the fetal aorta by using a newly developed Doppler ultrasound trigger. MATERIALS AND METHODS: Five pregnant sheep carrying singleton fetuses (gestational age 121 days) were anesthetized to undergo fetal 2D PC-MRI in the fetal descending aorta (1.5 T) using a newly developed MR-compatible Doppler ultrasound trigger for fetal cardiac triggering. Inter-operator variability was assessed for PC-MR measurements and reproducibility was tested by repeated scans in one fetus. Inter-modality comparison was performed by Doppler ultrasound velocimetry. RESULTS: Fetal cardiac triggering was possible in all examinations. PC-MR velocimetry revealed a mean inter-operator variability of 3 ± 5%. Average peak systolic flow velocities of 62.5 ± 4.4 cm/s were in good agreement with Doppler ultrasound measurements of 62.0 ± 9.2 cm/s (p (Lord's U test) ≫ 0.05). CONCLUSION: Fetal PC-MR velocimetry was successfully performed using the newly developed MR-compatible Doppler ultrasound trigger for intrauterine fetal cardiac triggering, demonstrating high inter-operator and inter-modality agreement. This new method has the high potential for alternative assessment of hemodynamic decompensation of the fetal circulation.
OBJECT: We present the first study demonstrating the feasibility of antenatal blood flow velocimetry performing ECG triggered phase-contrast (PC)-MRI in the fetal aorta by using a newly developed Doppler ultrasound trigger. MATERIALS AND METHODS: Five pregnant sheep carrying singleton fetuses (gestational age 121 days) were anesthetized to undergo fetal 2D PC-MRI in the fetal descending aorta (1.5 T) using a newly developed MR-compatible Doppler ultrasound trigger for fetal cardiac triggering. Inter-operator variability was assessed for PC-MR measurements and reproducibility was tested by repeated scans in one fetus. Inter-modality comparison was performed by Doppler ultrasound velocimetry. RESULTS: Fetal cardiac triggering was possible in all examinations. PC-MR velocimetry revealed a mean inter-operator variability of 3 ± 5%. Average peak systolic flow velocities of 62.5 ± 4.4 cm/s were in good agreement with Doppler ultrasound measurements of 62.0 ± 9.2 cm/s (p (Lord's U test) ≫ 0.05). CONCLUSION: Fetal PC-MR velocimetry was successfully performed using the newly developed MR-compatible Doppler ultrasound trigger for intrauterine fetal cardiac triggering, demonstrating high inter-operator and inter-modality agreement. This new method has the high potential for alternative assessment of hemodynamic decompensation of the fetal circulation.
Authors: Esra Abaci Turk; Jeffrey N Stout; Christopher Ha; Jie Luo; Borjan Gagoski; Filiz Yetisir; Polina Golland; Lawrence L Wald; Elfar Adalsteinsson; Julian N Robinson; Drucilla J Roberts; William H Barth; P Ellen Grant Journal: Top Magn Reson Imaging Date: 2019-10
Authors: Fabian Kording; Jin Yamamura; Manuela Tavares de Sousa; Christian Ruprecht; Erik Hedström; Anthony H Aletras; P Ellen Grant; Andrew J Powell; Kai Fehrs; Gerhard Adam; Hendrik Kooijman; Bjoern P Schoennagel Journal: J Cardiovasc Magn Reson Date: 2018-03-12 Impact factor: 5.364
Authors: Fabian Kording; Jin Yamamura; Gunnar Lund; Friedrich Ueberle; Caroline Jung; Gerhard Adam; Bjoern Philip Schoennagel Journal: Magn Reson Med Sci Date: 2016-03-21 Impact factor: 2.471