Cape Town - 2026 ISMRM-ISMRT Annual Meeting and Exhibition
9 May 2026 – 14 May 2026 · Cape Town, South Africa
302-03-002 ISMRM Abstract

Fetal Cardiac MRI to Improve the Diagnosis of Congenital Heart Disease: the FUTURE 2.0 study

Primary: Pediatrics - Prenatal
Secondary: Pediatrics - Cardiovascular
302-03-002 · Next-Level Pediatric MRI: Technical Advances To Image Children Better · Monday, 11 May, 1:50 PM–3:40 PM · Hall 1B
Keywords: Fetal Cardiac magnetic resonance imaging Black-blood Congenital Heart Disease Echocardiography
Accepted
Roos de Lange1,2, Anneloes E Bohte2, Sally-Ann B Clur3, Zina Fejzic4, Stefan Frerich5, Suzanne Gommers6, Willem S Helbing7, Ward Y R Vanagt8, Annelies E van der Hulst3, Arend W van Deutekom7, Joost van Schuppen2, Hans Breur1, Pim van Ooij 2
1Pediatric Cardiology, University Medical Center Utrecht, Utrecht, Netherlands
2Radiology and Nuclear Medicine, Amsterdam University Medical Center, University of Amsterdam, Amsterdam, Netherlands
3Pediatric Cardiology, Amsterdam University Medical Center, University of Amsterdam, Amsterdam, Netherlands
4Pediatric Cardiology, Radboud University Medical Center, Nijmegen, Netherlands
5Pediatric Cardiology, Maastricht University Medical Center, Maastricht, Netherlands
6Radiology and Nuclear Medicine, Maastricht University Medical Center, Maastricht, Netherlands
7Pediatric Cardiology, Erasmus Medical Center, Rotterdam, Netherlands
8Pediatric Cardiology, University Medical Center Groningen, Groningen, Netherlands
Presenting Author: Pim van Ooij

Synopsis

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References

1. van der Linde D, Konings EE, Slager MA, et al. Birth prevalence of congenital heart disease worldwide: a systematic review and meta-analysis. J Am Coll Cardiol. 2011;58(21):2241-2247. doi:10.1016/j.jacc.2011.08.025 [doi]
2. Oster ME, Lee KA, Honein MA, Riehle-Colarusso T, Shin M, Correa A. Temporal trends in survival among infants with critical congenital heart defects. Pediatrics. 2013;131(5):e1502-e1508. doi:10.1542/peds.2012-3435 [doi]
3. Bensemlali M, Stirnemann J, Le Bidois J, et al. Discordances Between Pre-Natal and Post-Natal Diagnoses of Congenital Heart Diseases and Impact on Care Strategies. J Am Coll Cardiol. 2016;68(9):921-930. doi:10.1016/j.jacc.2016.05.087 [doi]
4. van Velzen CL, Clur SA, Rijlaarsdam ME, et al. Prenatal diagnosis of congenital heart defects: accuracy and discrepancies in a multicenter cohort. Ultrasound Obstet Gynecol. 2016;47(5):616-622. doi:10.1002/uog.15742 [doi]
5. Lloyd DFA, Pushparajah K, Simpson JM, et al. Three-dimensional visualisation of the fetal heart using prenatal MRI with motion-corrected slice-volume registration: a prospective, single-centre cohort study. Lancet. 2019;393(10181):1619-1627. doi:10.1016/S0140-6736(18)32490-5 [doi]
6. Desmond A, Nguyen KL, Watterson CT, et al. Integration of Prenatal Cardiovascular Magnetic Resonance Imaging in Congenital Heart Disease. J Am Heart Assoc. 2023;12(22):e030640. doi:10.1161/JAHA.123.030640 [doi]
7. Suchá D, Bohte AE, van Ooij P, Leiner T, Schrauben EM, Grotenhuis HB. Fetal Cardiovascular Magnetic Resonance: History, Current Status, and Future Directions. J Magn Reson Imaging. 2025;61(6):2357-2375. doi:10.1002/jmri.29664 [doi]
8. Uus A, Zhang T, Jackson LH, et al. Deformable Slice-to-Volume Registration for Motion Correction of Fetal Body and Placenta MRI. IEEE Trans Med Imaging. 2020;39(9):2750-2759. doi:10.1109/TMI.2020.2974844 [doi]
9. Uus AU, Grigorescu I, van Poppel MPM, et al. Automated 3D reconstruction of the fetal thorax in the standard atlas space from motion-corrupted MRI stacks for 21-36 weeks GA range. Med Image Anal. 2022;80:102484. doi:10.1016/j.media.2022.102484 [doi]

Cite this abstract

http://echo.ismrm.org/p/ISMRM2026/302-03-002