[HTML][HTML] Fetal body organ T2* relaxometry at low field strength (FOREST)
Abstract Fetal Magnetic Resonance Imaging (MRI) at low field strengths is an exciting new
field in both clinical and research settings. Clinical low field (0.55 T) scanners are beneficial …
field in both clinical and research settings. Clinical low field (0.55 T) scanners are beneficial …
T2* relaxometry of fetal brain structures using low‐field (0.55T) MRI
Purpose Human brain development during gestation is complex, as both structure and
function are rapidly forming. Structural imaging methods using MRI are well developed to …
function are rapidly forming. Structural imaging methods using MRI are well developed to …
Functional assessment of brain development in fetuses that subsequently deliver very preterm: An MRI pilot study
Objectives To evaluate changes occurring in the fetal brain prior to very preterm delivery
using MRI T2* relaxometry, an indirect assessment of tissue perfusion. Method Fetuses that …
using MRI T2* relaxometry, an indirect assessment of tissue perfusion. Method Fetuses that …
Scanner-based real-time 3D brain+ body slice-to-volume reconstruction for T2-weighted 0.55 T low field fetal MRI
Purpose Integrating the SVRTK methods within the Gadgetron framework enables
automated 3D fetal brain and body reconstruction in the low-field 0.55 T MRI scanner within …
automated 3D fetal brain and body reconstruction in the low-field 0.55 T MRI scanner within …
Multi-Center Fetal Brain Tissue Annotation (FeTA) Challenge 2022 Results
K Payette, C Steger, R Licandro, P de Dumast… - ar** human fetal brain. There have
been vast improvements in automatic segmentation methods in the past several years, and …
been vast improvements in automatic segmentation methods in the past several years, and …
In vivo T2 measurements of the fetal brain using single‐shot fast spin echo sequences
S Bhattacharya, AN Price, A Uus… - Magnetic resonance …, 2024 - Wiley Online Library
Purpose We propose a quantitative framework for motion‐corrected T2 fetal brain
measurements in vivo and validate the single‐shot fast spin echo (SS‐FSE) sequence to …
measurements in vivo and validate the single‐shot fast spin echo (SS‐FSE) sequence to …
Fully automated planning for anatomical fetal brain MRI on 0.55 T
Purpose Widening the availability of fetal MRI with fully automatic real‐time planning of
radiological brain planes on 0.55 T MRI. Methods Deep learning‐based detection of key …
radiological brain planes on 0.55 T MRI. Methods Deep learning‐based detection of key …
The fetal spleen in low-risk pregnancies and prior to preterm birth: Observational study of the role of anatomical and functional MRI
Spontaneous preterm birth complicates~ 7% of pregnancies and causes morbidity and
mortality. Although infection is a common aetiology, our understanding of the fetal immune …
mortality. Although infection is a common aetiology, our understanding of the fetal immune …
Deep Dive into MRI: Exploring Deep Learning Applications in 0.55 T and 7T MRI
The development of magnetic resonance imaging (MRI) for medical imaging has provided a
leap forward in diagnosis, providing a safe, non-invasive alternative to techniques involving …
leap forward in diagnosis, providing a safe, non-invasive alternative to techniques involving …
AutOmatic floW planning for fetaL MRI (OWL)
SN Silva, T Woodgate, S McElroy, M Cleri… - arxiv preprint arxiv …, 2024 - arxiv.org
Two subsequent deep learning networks, one localizing the fetal chest and one identifying a
set of landmarks on a coronal whole-uterus balanced steady-state free precession scan …
set of landmarks on a coronal whole-uterus balanced steady-state free precession scan …