Imaging gravity-induced lung water redistribution with automated inline processing at 0.55 T cardiovascular magnetic resonance.

Felicia SeemannAhsan JavedRachel ChaeRajiv RamasawmyKendall O'BrienScott BauteHui XueRobert J LedermanAdrienne E Campbell-Washburn

Published in: Journal of cardiovascular magnetic resonance : official journal of the Society for Cardiovascular Magnetic Resonance (2022)

Redistribution of LWD due to gravitational forces can be depicted and quantified using a validated free-breathing 3D proton density weighted UTE sequence and inline automated image processing pipeline on a high-performance 0.55 T CMR system.

Keyphrases

magnetic resonance
deep learning
machine learning
high throughput
contrast enhanced
high resolution
high glucose
diabetic rats
oxidative stress
endothelial cells
mass spectrometry
single cell
electron transfer