FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2997479537> ?p ?o ?g. }

• W2997479537 endingPage "1736" @default.
• W2997479537 startingPage "1727" @default.
• W2997479537 abstract "Background Muscle water T 2 (T 2w ) has been proposed as a biomarker to monitor disease activity and therapy effectiveness in patients with neuromuscular diseases (NMD). Multi‐echo spin‐echo (MESE) is known to be affected by fatty infiltration. A T 2 ‐prepared 3D turbo spin echo (TSE) is an alternative method for T 2 mapping, but has been only applied in healthy muscles. Purpose To examine the performance of T 2 ‐prepared 3D TSE in combination with spectral adiabatic inversion recovery (SPAIR) in measuring T 2w in fatty infiltrated muscles based on simulations and in vivo measurements in thigh muscles of patients with NMD. Study Type Prospective. Subjects One healthy volunteer, 34 NMD patients. Field Strength/Sequence T 2 ‐prepared stimulated echo acquisition mode (STEAM) magnetic resonance spectroscopy (MRS), SPAIR STEAM MRS, and SPAIR T 2 ‐prepared STEAM MRS were performed in the subcutaneous fat of a healthy volunteer's thigh. T 2 mapping based on SPAIR 2D MESE and SPAIR T 2 ‐prepared 3D TSE was performed in the NMD patients' thigh region. Multi‐TE STEAM MRS was performed for measuring a reference T 2w at different thigh locations. Assessment The behavior of the fat spectrum in the SPAIR T 2 ‐prepared 3D TSE was simulated using Bloch simulations. The in vivo T 2 results of the imaging methods were compared to the in vivo T 2w MRS results. Statistical Tests Pearson correlation coefficient with slope and intercept, relative error. Results The simulated T 2 for the SPAIR T 2 ‐prepared 3D TSE sequence remained constant within a relative error of not more than 4% up to a fat fraction of 80%. In vivo T 2 values of SPAIR T 2 ‐prepared 3D TSE were in good agreement with the T 2w values of STEAM MRS (R = 0.86; slope = 1.12; intercept = –1.41 ms). In vivo T 2 values of SPAIR 2D MESE showed large deviations from the T 2w values of STEAM MRS (R = 0.14; slope = 0.32; intercept = 38.83 ms). Data Conclusion The proposed SPAIR T 2 ‐prepared 3D TSE shows reduced sensitivity to fatty infiltration for T 2w mapping in the thigh muscles of NMD patients. Level of Evidence: 1 Technical Efficacy: Stage 1 J. Magn. Reson. Imaging 2020;51:1727–1736." @default.
• W2997479537 created "2020-01-10" @default.
• W2997479537 creator A5002229712 @default.
• W2997479537 creator A5003938965 @default.
• W2997479537 creator A5009551717 @default.
• W2997479537 creator A5011366044 @default.
• W2997479537 creator A5021553008 @default.
• W2997479537 creator A5039404447 @default.
• W2997479537 creator A5051002965 @default.
• W2997479537 creator A5057310110 @default.
• W2997479537 creator A5074658986 @default.
• W2997479537 creator A5076962775 @default.
• W2997479537 creator A5083768671 @default.
• W2997479537 creator A5085312364 @default.
• W2997479537 date "2019-12-24" @default.
• W2997479537 modified "2023-10-18" @default.
• W2997479537 title "Water T ₂ Mapping in Fatty Infiltrated Thigh Muscles of Patients With Neuromuscular Diseases Using a T ₂ ‐Prepared 3D Turbo Spin Echo With SPAIR" @default.
• W2997479537 cites W1585579342 @default.
• W2997479537 cites W1922964466 @default.
• W2997479537 cites W1933565955 @default.
• W2997479537 cites W1936873203 @default.
• W2997479537 cites W1999000690 @default.
• W2997479537 cites W2001506755 @default.
• W2997479537 cites W2005656974 @default.
• W2997479537 cites W2011412251 @default.
• W2997479537 cites W2017318574 @default.
• W2997479537 cites W2041793850 @default.
• W2997479537 cites W2041876324 @default.
• W2997479537 cites W2042910646 @default.
• W2997479537 cites W2044662831 @default.
• W2997479537 cites W2045260008 @default.
• W2997479537 cites W2054335197 @default.
• W2997479537 cites W2068461272 @default.
• W2997479537 cites W2076910504 @default.
• W2997479537 cites W2086023949 @default.
• W2997479537 cites W2088764776 @default.
• W2997479537 cites W2094004734 @default.
• W2997479537 cites W2099612886 @default.
• W2997479537 cites W2102789566 @default.
• W2997479537 cites W2109367981 @default.
• W2997479537 cites W2121460492 @default.
• W2997479537 cites W2124156889 @default.
• W2997479537 cites W2130872658 @default.
• W2997479537 cites W2136247797 @default.
• W2997479537 cites W2149551991 @default.
• W2997479537 cites W2162121601 @default.
• W2997479537 cites W2172129753 @default.
• W2997479537 cites W2328069846 @default.
• W2997479537 cites W2474514554 @default.
• W2997479537 cites W2588398905 @default.
• W2997479537 cites W2744377793 @default.
• W2997479537 cites W2796447113 @default.
• W2997479537 cites W2951515206 @default.
• W2997479537 cites W4235425095 @default.
• W2997479537 doi "https://doi.org/10.1002/jmri.27032" @default.
• W2997479537 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31875343" @default.
• W2997479537 hasPublicationYear "2019" @default.
• W2997479537 type Work @default.
• W2997479537 sameAs 2997479537 @default.
• W2997479537 citedByCount "12" @default.
• W2997479537 countsByYear W29974795372020 @default.
• W2997479537 countsByYear W29974795372021 @default.
• W2997479537 countsByYear W29974795372022 @default.
• W2997479537 countsByYear W29974795372023 @default.
• W2997479537 crossrefType "journal-article" @default.
• W2997479537 hasAuthorship W2997479537A5002229712 @default.
• W2997479537 hasAuthorship W2997479537A5003938965 @default.
• W2997479537 hasAuthorship W2997479537A5009551717 @default.
• W2997479537 hasAuthorship W2997479537A5011366044 @default.
• W2997479537 hasAuthorship W2997479537A5021553008 @default.
• W2997479537 hasAuthorship W2997479537A5039404447 @default.
• W2997479537 hasAuthorship W2997479537A5051002965 @default.
• W2997479537 hasAuthorship W2997479537A5057310110 @default.
• W2997479537 hasAuthorship W2997479537A5074658986 @default.
• W2997479537 hasAuthorship W2997479537A5076962775 @default.
• W2997479537 hasAuthorship W2997479537A5083768671 @default.
• W2997479537 hasAuthorship W2997479537A5085312364 @default.
• W2997479537 hasBestOaLocation W29974795371 @default.
• W2997479537 hasConcept C105702510 @default.
• W2997479537 hasConcept C121332964 @default.
• W2997479537 hasConcept C126838900 @default.
• W2997479537 hasConcept C143409427 @default.
• W2997479537 hasConcept C192562407 @default.
• W2997479537 hasConcept C207001950 @default.
• W2997479537 hasConcept C2779018429 @default.
• W2997479537 hasConcept C2989005 @default.
• W2997479537 hasConcept C3020226503 @default.
• W2997479537 hasConcept C46141821 @default.
• W2997479537 hasConcept C54355233 @default.
• W2997479537 hasConcept C71924100 @default.
• W2997479537 hasConcept C86803240 @default.
• W2997479537 hasConceptScore W2997479537C105702510 @default.
• W2997479537 hasConceptScore W2997479537C121332964 @default.
• W2997479537 hasConceptScore W2997479537C126838900 @default.
• W2997479537 hasConceptScore W2997479537C143409427 @default.
• W2997479537 hasConceptScore W2997479537C192562407 @default.
• W2997479537 hasConceptScore W2997479537C207001950 @default.
• W2997479537 hasConceptScore W2997479537C2779018429 @default.

• next