Literature DB >> 30443925

Whole knee joint T1 values measured in vivo at 3T by combined 3D ultrashort echo time cones actual flip angle and variable flip angle methods.

Ya-Jun Ma1, Wei Zhao1, Lidi Wan1, Tan Guo1, Adam Searleman1, Hyungseok Jang1, Eric Y Chang1,2, Jiang Du1.   

Abstract

PURPOSE: To measure T1 relaxations for the major tissues in whole knee joints on a clinical 3T scanner.
METHODS: The 3D UTE-Cones actual flip angle imaging (AFI) method was used to map the transmission radiofrequency field (B1 ) in both short and long T2 tissues, which was then used to correct the 3D UTE-Cones variable flip angle (VFA) fitting to generate accurate T1 maps. Numerical simulation was carried out to investigate the accuracy of T1 measurement for a range of T2 values, excitation pulse durations, and B1 errors. Then, the 3D UTE-Cones AFI-VFA method was applied to healthy volunteers (N = 16) to quantify the T1 of knee tissues including cartilage, meniscus, quadriceps tendon, patellar tendon, anterior cruciate ligament (ACL), posterior cruciate ligament (PCL), marrow, and muscles at 3T.
RESULTS: Numerical simulation showed that the 3D UTE-Cones AFI-VFA technique can provide accurate T1 measurements (error <1%) when the tissue T2 is longer than 1 ms and a 150 μs excitation RF pulse is used and therefore is suitable for most knee joint tissues. The proposed 3D UTE-Cones AFI-VFA method showed an average T1 of 1098 ± 67 ms for cartilage, 833 ± 47 ms for meniscus, 800 ± 66 ms for quadriceps tendon, 656 ± 43 ms for patellar tendon, 873 ± 38 ms for ACL, 832 ± 49 ms for PCL, 379 ± 18 ms for marrow, and 1393 ± 46 ms for muscles.
CONCLUSION: The 3D UTE-Cones AFI-VFA method allows volumetric T1 measurement of the major tissues in whole knee joints on a clinical 3T scanner.
© 2018 International Society for Magnetic Resonance in Medicine.

Entities:  

Keywords:  actual flip angle imaging; knee joint; ultrashort echo time; variable flip angle

Mesh:

Year:  2018        PMID: 30443925      PMCID: PMC6347520          DOI: 10.1002/mrm.27510

Source DB:  PubMed          Journal:  Magn Reson Med        ISSN: 0740-3194            Impact factor:   4.668


  47 in total

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3.  Accurate T1 mapping of short T2 tissues using a three-dimensional ultrashort echo time cones actual flip angle imaging-variable repetition time (3D UTE-Cones AFI-VTR) method.

Authors:  Ya-Jun Ma; Xing Lu; Michael Carl; Yanchun Zhu; Nikolaus M Szeverenyi; Graeme M Bydder; Eric Y Chang; Jiang Du
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9.  Analysis and correction of biases in cross-relaxation MRI due to biexponential longitudinal relaxation.

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Review 10.  Qualitative and quantitative ultrashort-TE MRI of cortical bone.

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1.  To measure T1 of short T2 species using an inversion recovery prepared three-dimensional ultrashort echo time (3D IR-UTE) method: A phantom study.

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3.  Fat suppression for ultrashort echo time imaging using a single-point Dixon method.

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5.  Knee osteochondral junction imaging using a fast 3D T1-weighted ultrashort echo time cones sequence at 3T.

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6.  Convincing evidence for magic angle less-sensitive quantitative T imaging of articular cartilage using the 3D ultrashort echo time cones adiabatic T  (3D UTE cones-AdiabT ) sequence.

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7.  Magic angle effect on adiabatic T imaging of the Achilles tendon using 3D ultrashort echo time cones trajectory.

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10.  Quantitative three-dimensional ultrashort echo time cones imaging of the knee joint with motion correction.

Authors:  Mei Wu; Wei Zhao; Lidi Wan; Lena Kakos; Liang Li; Saeed Jerban; Hyungseok Jang; Eric Y Chang; Jiang Du; Ya-Jun Ma
Journal:  NMR Biomed       Date:  2019-11-12       Impact factor: 4.044
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