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

F Seemann, A Javed, R Chae, R Ramasawmy… - Journal of …, 2022 - Elsevier
Background Quantitative assessment of dynamic lung water accumulation is of interest to
unmask latent heart failure. We develop and validate a free-breathing 3D ultrashort echo …
被引用次数:11 相关文章
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[HTML][HTML] Imaging gravity-induced lung water redistribution with automated inline processing at 0.55 T cardiovascular magnetic resonance

F Seemann, A Javed, R Chae… - Journal of …, 2022 - ncbi.nlm.nih.gov
Background Quantitative assessment of dynamic lung water accumulation is of interest to
unmask latent heart failure. We develop and validate a free-breathing 3D ultrashort echo …
[HTML] journalofcmr.com

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

F Seemann, A Javed, R Chae… - Journal of …, 2022 - journalofcmr.com
Background Quantitative assessment of dynamic lung water accumulation is of interest to
unmask latent heart failure. We develop and validate a free-breathing 3D ultrashort echo …
[HTML] biomedcentral.com

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

F Seemann, A Javed, R Chae… - Journal of …, 2022 - jcmr-online.biomedcentral.com
Quantitative assessment of dynamic lung water accumulation is of interest to unmask latent
heart failure. We develop and validate a free-breathing 3D ultrashort echo time (UTE) …

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

F Seemann, A Javed, R Chae… - Journal of …, 2022 - search.proquest.com
Background Quantitative assessment of dynamic lung water accumulation is of interest to
unmask latent heart failure. We develop and validate a free-breathing 3D ultrashort echo …
[HTML] springer.com

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

F Seemann, A Javed, R Chae, R Ramasawmy… - Journal of …, 2022 - Springer
Background Quantitative assessment of dynamic lung water accumulation is of interest to
unmask latent heart failure. We develop and validate a free-breathing 3D ultrashort echo …

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

F Seemann, A Javed, R Chae… - … : official journal of …, 2022 - pubmed.ncbi.nlm.nih.gov
Background Quantitative assessment of dynamic lung water accumulation is of interest to
unmask latent heart failure. We develop and validate a free-breathing 3D ultrashort echo …

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

F Seemann, A Javed, R Chae… - Journal of …, 2022 - search.ebscohost.com
Background: Quantitative assessment of dynamic lung water accumulation is of interest to
unmask latent heart failure. We develop and validate a free-breathing 3D ultrashort echo …

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

F Seemann, A Javed, R Chae… - … : Official Journal of the …, 2022 - europepmc.org
Background Quantitative assessment of dynamic lung water accumulation is of interest to
unmask latent heart failure. We develop and validate a free-breathing 3D ultrashort echo …
[PDF] biomedcentral.com

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

F Seemann, A Javed, R Chae… - Journal of …, 2022 - jcmr-online.biomedcentral.com
Background: Quantitative assessment of dynamic lung water accumulation is of interest to
unmask latent heart fail‑ure. We develop and validate a free‑breathing 3D ultrashort echo …