SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4324195433> ?p ?o ?g. }

Showing items 1 to 100 of ±118 with 100 items per page.

W4324195433 endingPage "101" @default.
W4324195433 startingPage "93" @default.
W4324195433 abstract "Diffusion-weighted imaging (DWI) of the abdomen has increased dramatically for both research and clinical purposes. Motion and static field inhomogeneity related challenges limit image quality of abdominopelvic imaging with the most conventional echo-planar imaging (EPI) pulse sequence. While reversed phase encoded imaging is increasingly used to facilitate distortion correction, it typically assumes one motion independent magnetic field distribution. In this study, we describe a more generalized workflow for the case of kidney DWI in which the field inhomogeneity at multiple respiratory phases is mapped and used to correct all images in a multi-contrast DWI series.In this HIPAA-compliant and IRB-approved prospective study, 8 volunteers (6 M, ages 28-51) had abdominal imaging performed in a 3 T MRI system (MAGNETOM Prisma; Siemens Healthcare, Erlangen, Germany) with ECG gating. Coronal oblique T2-weighted HASTE images were collected for anatomical reference. Sagittal phase-contrast (PC) MRI images through the left renal artery were collected to determine systolic and diastolic phases. Cardiac triggered oblique coronal DWI were collected at 10 b-values between 0 and 800 s/mm2 and 12 directions. DWI series were distortion corrected using field maps generated by forward and reversed phase encoded b = 0 images collected over the full respiratory cycle and matched by respiratory phase. Morphologic accuracy, intraseries spatial variability, and diffusion tensor imaging (DTI) metrics mean diffusivity (MD) and fractional anisotropy (FA) were compared for results generated with no distortion correction, correction with only one respiratory bin, and correction with multiple respiratory bins across the breathing cycle.Computed field maps showed significant variation in static field with kidney laterality, region, and respiratory phase. Distortion corrected images showed significantly better registration to morphologic images than uncorrected images; for the left kidney, the multiple bin correction outperformed one bin correction. Line profile analysis showed significantly reduced spatial variation with multiple bins than one bin correction. DTI metrics were mostly similar between correction methods, with some differences observed in MD between uncorrected and corrected datasets.Our results indicate improved morphology of kidney DWI and derived parametric maps as well as reduced variability over the full image series using the motion-resolved distortion correction. This work highlights some morphologic and quantitative metric improvements can be obtained for kidney DWI when distortion correction is performed in a respiratory-resolved manner." @default.
W4324195433 created "2023-03-15" @default.
W4324195433 creator A5006642831 @default.
W4324195433 creator A5013005956 @default.
W4324195433 creator A5027828756 @default.
W4324195433 creator A5043358435 @default.
W4324195433 creator A5048872884 @default.
W4324195433 creator A5052171046 @default.
W4324195433 creator A5060491325 @default.
W4324195433 creator A5073321863 @default.
W4324195433 creator A5073572262 @default.
W4324195433 date "2023-07-01" @default.
W4324195433 modified "2023-10-12" @default.
W4324195433 title "Characterization of motion dependent magnetic field inhomogeneity for DWI in the kidneys" @default.
W4324195433 cites W2006096283 @default.
W4324195433 cites W2007486108 @default.
W4324195433 cites W2052882257 @default.
W4324195433 cites W2062042261 @default.
W4324195433 cites W2080724721 @default.
W4324195433 cites W2105865936 @default.
W4324195433 cites W2129841144 @default.
W4324195433 cites W2147989321 @default.
W4324195433 cites W2158034632 @default.
W4324195433 cites W2168144328 @default.
W4324195433 cites W2171074980 @default.
W4324195433 cites W2770468851 @default.
W4324195433 cites W2777526463 @default.
W4324195433 cites W2808607707 @default.
W4324195433 cites W2888139840 @default.
W4324195433 cites W2902438222 @default.
W4324195433 cites W2913320257 @default.
W4324195433 cites W2971200329 @default.
W4324195433 cites W2972257737 @default.
W4324195433 cites W2985142004 @default.
W4324195433 cites W3023929758 @default.
W4324195433 cites W3114925463 @default.
W4324195433 cites W3135456543 @default.
W4324195433 cites W4223414919 @default.
W4324195433 cites W4281571242 @default.
W4324195433 cites W4295338402 @default.
W4324195433 cites W4308056473 @default.
W4324195433 cites W86278523 @default.
W4324195433 doi "https://doi.org/10.1016/j.mri.2023.03.008" @default.
W4324195433 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36924807" @default.
W4324195433 hasPublicationYear "2023" @default.
W4324195433 type Work @default.
W4324195433 citedByCount "1" @default.
W4324195433 crossrefType "journal-article" @default.
W4324195433 hasAuthorship W4324195433A5006642831 @default.
W4324195433 hasAuthorship W4324195433A5013005956 @default.
W4324195433 hasAuthorship W4324195433A5027828756 @default.
W4324195433 hasAuthorship W4324195433A5043358435 @default.
W4324195433 hasAuthorship W4324195433A5048872884 @default.
W4324195433 hasAuthorship W4324195433A5052171046 @default.
W4324195433 hasAuthorship W4324195433A5060491325 @default.
W4324195433 hasAuthorship W4324195433A5073321863 @default.
W4324195433 hasAuthorship W4324195433A5073572262 @default.
W4324195433 hasConcept C115961682 @default.
W4324195433 hasConcept C121332964 @default.
W4324195433 hasConcept C126322002 @default.
W4324195433 hasConcept C126780896 @default.
W4324195433 hasConcept C126838900 @default.
W4324195433 hasConcept C13483470 @default.
W4324195433 hasConcept C143409427 @default.
W4324195433 hasConcept C149550507 @default.
W4324195433 hasConcept C154945302 @default.
W4324195433 hasConcept C194257627 @default.
W4324195433 hasConcept C2779619515 @default.
W4324195433 hasConcept C2989005 @default.
W4324195433 hasConcept C41008148 @default.
W4324195433 hasConcept C46141821 @default.
W4324195433 hasConcept C46362747 @default.
W4324195433 hasConcept C49040817 @default.
W4324195433 hasConcept C55020928 @default.
W4324195433 hasConcept C71924100 @default.
W4324195433 hasConcept C89916169 @default.
W4324195433 hasConcept C99398487 @default.
W4324195433 hasConceptScore W4324195433C115961682 @default.
W4324195433 hasConceptScore W4324195433C121332964 @default.
W4324195433 hasConceptScore W4324195433C126322002 @default.
W4324195433 hasConceptScore W4324195433C126780896 @default.
W4324195433 hasConceptScore W4324195433C126838900 @default.
W4324195433 hasConceptScore W4324195433C13483470 @default.
W4324195433 hasConceptScore W4324195433C143409427 @default.
W4324195433 hasConceptScore W4324195433C149550507 @default.
W4324195433 hasConceptScore W4324195433C154945302 @default.
W4324195433 hasConceptScore W4324195433C194257627 @default.
W4324195433 hasConceptScore W4324195433C2779619515 @default.
W4324195433 hasConceptScore W4324195433C2989005 @default.
W4324195433 hasConceptScore W4324195433C41008148 @default.
W4324195433 hasConceptScore W4324195433C46141821 @default.
W4324195433 hasConceptScore W4324195433C46362747 @default.
W4324195433 hasConceptScore W4324195433C49040817 @default.
W4324195433 hasConceptScore W4324195433C55020928 @default.
W4324195433 hasConceptScore W4324195433C71924100 @default.
W4324195433 hasConceptScore W4324195433C89916169 @default.
W4324195433 hasConceptScore W4324195433C99398487 @default.
W4324195433 hasFunder F4320332161 @default.