Fetal Post-Processing Analysis
Ali Gholipour-Baboli1
1Boston Children's Hospital, Harvard Medical School, United States

Synopsis

Advances in in-vivo fetal magnetic resonance imaging (MRI) have driven a vastly improved analysis of prenatal brain development, in-utero. In this presentation, we review post-acquisition processing techniques for fetal MRI. Our journey begins with a review of motion-corrected super-resolution slice-to-volume reconstruction techniques that have been at the center of the advances in fetal MRI. We will then discuss the applications of these techniques, including the construction of normative, spatiotemporal MRI atlases of the fetal brain, and techniques for image segmentation and group analysis. This talk covers techniques for the analysis of T2-weighted, diffusion-weighted, and functional MRI of the fetal brain.

Advances in in-vivo fetal magnetic resonance imaging (MRI) have driven a vastly improved analysis of prenatal brain development, in-utero. In this presentation, we review post-acquisition processing techniques for fetal MRI. Our journey begins with a review of motion-corrected super-resolution slice-to-volume reconstruction techniques that have been at the center of the advances in fetal MRI. We will then discuss the applications of these techniques, including the construction of normative, spatiotemporal MRI atlases of the fetal brain, and techniques for image segmentation and group analysis. This talk covers techniques for the analysis of T2-weighted, diffusion-weighted, and functional MRI of the fetal brain.

Acknowledgements

No acknowledgement found.

References

No reference found.
Proc. Intl. Soc. Mag. Reson. Med. 30 (2022)