Using Magnetic Resonance Imaging During Childbirth to Demonstrate Fetal Head Moldability and Brain Compression: Prospective Cohort Study

Journals

1. Ami O, Maran J, Cohen A, Hendler I, Zabukovek E, Boyer L. Childbirth simulation to assess cephalopelvic disproportion and chances for failed labor in a French population. Scientific Reports 2023;13(1) View
2. Steger C, Moatti C, Payette K, De Silvestro A, Nguyen T, Coraj S, Yakoub N, Natalucci G, Kottke R, Tuura R, Knirsch W, Jakab A. Characterization of dynamic patterns of human fetal to neonatal brain asymmetry with deformation-based morphometry. Frontiers in Neuroscience 2023;17 View
3. Ballit A, Ferrandini M, Dao T. Novel hybrid rigid-deformable fetal modeling for simulating the vaginal delivery within the second stage of labor. Computer Methods and Programs in Biomedicine 2024;250:108168 View
4. Xie Q, Liao Y, He W, Wang G. Incidence and clinical analysis of asymptomatic intracranial hemorrhage in neonates with cerebral hypoxic-ischaemic risk based on multisequence MR images. Scientific Reports 2024;14(1) View
5. Nguyen T, Ballit A, Ferrandini M, Colliat J, Dao T. Fetus descent simulation with the active uterine contraction during the vaginal delivery: MRI-based evaluation and uncertainty quantification. Computer Methods in Biomechanics and Biomedical Engineering 2024:1 View