Validation of diffusion tensor MRI-based muscle fiber tracking.
about
Age-related differences in diffusion tensor indices and fiber architecture in the medial and lateral gastrocnemiusFocus on diffusion MR investigations of musculoskeletal tissue to improve osteoporosis diagnosis: a brief practical reviewDynamic diffusion-tensor measurements in muscle tissue using the single-line multiple-echo diffusion-tensor acquisition technique at 3THeterogeneity of muscle sizes in the lower limbs of children with cerebral palsy.Assessment of diffusion tensor imaging indices in calf muscles following postural change from standing to supine position.Multi-parametric MRI characterization of healthy human thigh muscles at 3.0 T - relaxation, magnetization transfer, fat/water, and diffusion tensor imaging.Evaluation of skeletal muscle DTI in patients with duchenne muscular dystrophy.Diffusional kurtosis MRI of the lower leg: changes caused by passive muscle elongation and shortening.Skeletal muscle diffusion tensor-MRI fiber tracking: rationale, data acquisition and analysis methods, applications and future directions.Effect of biological factors on successful measurements with skeletal-muscle (1)H-MRS.Compartmental relaxation and diffusion tensor imaging measurements in vivo in lambda-carrageenan-induced edema in rat skeletal muscle.Pubovisceralis Muscle Fiber Architecture Determination: Comparison Between Biomechanical Modeling and Diffusion Tensor Imaging.How does passive lengthening change the architecture of the human medial gastrocnemius muscle?Modeling tumor growth and treatment response based on quantitative imaging dataArchitecture of healthy and dystrophic muscles detected by optical coherence tomography.Absence of a significant extravascular contribution to the skeletal muscle BOLD effect at 3 T.A comparative study of muscle force estimates using Huxley's and Hill's muscle model.Transverse Strains in Muscle Fascicles during Voluntary Contraction: A 2D Frequency Decomposition of B-Mode Ultrasound Images.Comparison of twice refocused spin echo versus stimulated echo diffusion tensor imaging for tracking muscle fibers.Diffusion-Tensor MRI Based Skeletal Muscle Fiber Tracking.Joint radius-length distribution as a measure of anisotropic pore eccentricity: an experimental and analytical framework.Magnetic resonance imaging at 7T reveals common events in age-related sarcopenia and in the homeostatic response to muscle sterile injury.Human soleus muscle architecture at different ankle joint angles from magnetic resonance diffusion tensor imagingCombined diffusion and strain tensor MRI reveals a heterogeneous, planar pattern of strain development during isometric muscle contraction.Reproducibility analysis of diffusion tensor indices and fiber architecture of human calf muscles in vivo at 1.5 Tesla in neutral and plantarflexed ankle positions at restRepeatability of DTI-based skeletal muscle fiber trackingDiffusion tensor MRI to assess damage in healthy and dystrophic skeletal muscle after lengthening contractions.Quantitative diffusion tensor MRI-based fiber tracking of human skeletal muscle.Anisotropic Smoothing Improves DT-MRI-Based Muscle Fiber Tractography.Diffusion Tensor MRI Assessment of Skeletal Muscle Architecture.Magnetic Resonance Imaging Allows the Evaluation of Tissue Damage and Regeneration in a Mouse Model of Critical Limb Ischemia.Polynomial fitting of DT-MRI fiber tracts allows accurate estimation of muscle architectural parameters.Effect of Transducer Orientation on Errors in Ultrasound Image-Based Measurements of Human Medial Gastrocnemius Muscle Fascicle Length and Pennation.Diffusion tensor tractography reveals muscle reconnection during axolotl limb regeneration.Quantitative study of prostate cancer using three dimensional fiber tractographyMagnetic resonance imaging of mouse skeletal muscle to measure denervation atrophy.Stimulated echo diffusion tensor imaging and SPAIR T2 -weighted imaging in chronic exertional compartment syndrome of the lower leg muscles.Skeletal muscle evaluation by MRI in a rabbit model of acute ischaemia.DTI-based muscle fiber tracking of the quadriceps mechanism in lateral patellar dislocation.Multiple-echo diffusion tensor acquisition technique (MEDITATE) on a 3T clinical scanner.
P2860
Q27333974-11C40719-9F39-4930-BF3A-4B952BA5F72DQ28083472-061CFB70-3C1E-41D8-B359-DB2F5B6AB73FQ28647438-5736DE98-040E-4931-9F1D-24B04B4FC36CQ30278093-F2B9F8DB-E41B-4949-95E6-709F3AB34608Q30705736-66B34814-00D9-487C-A60E-2B555982AF21Q30838955-6030B92D-BA84-4DDD-9F79-26F40C1B15A1Q31003448-8508CDA5-4284-4089-AFD4-26A39E2840F2Q31072507-5974D7F3-592A-4E5C-B342-618EC85F4FA0Q31105329-05500A46-1FEA-46C5-830F-72C0F33EE2FEQ31120146-C7909BAA-AE9D-43BC-9D32-CA68A241EC9CQ31137898-EE031A77-891E-4141-BC75-B9BE76DDE610Q31155181-73C876C9-8A49-4B75-9F47-D5A852668D3CQ31155477-8E517D2C-F0AD-443C-B9B5-064B516E9FBEQ33623804-853FA202-56B0-43D8-A040-E258981F9681Q33841744-87ADCDFC-65EB-47CE-863A-0FAB48778B9BQ34038730-45BABDD2-034E-451B-ACAB-185D8463DDAEQ34263616-0CDDA2AB-E6C8-4F2B-A0CD-10043B6AC525Q34330161-90CB5F04-4977-40CB-B67F-161B3DAA1A57Q34506206-3A3B5C5D-7B5D-4370-8E5D-6D497FCE90D1Q34561762-03D0BEEB-2ED1-46FF-96E8-B95CAC43A622Q34642740-66B0EA92-B75A-4400-8EA7-B977DDD26138Q34648977-B5D49CBD-3BC2-4399-A91C-1F4DC21D1ED2Q34753817-133D8511-EA8B-4409-97A9-DE1DB76C71ECQ34979601-35C3739E-ACF9-440E-BDF5-75445C248833Q35064565-D7DBCEE9-2B77-4CAE-8F69-C18AC49AA0B1Q35558604-96C8CF9D-86FE-4178-98A8-6AD8417CF7B6Q35586572-E1BFEA39-C01B-400D-A26A-2BC0AA905E07Q35633524-8D7E7DDE-EC43-4545-B133-0DEB54E3951BQ35641577-44497AD8-BD51-4477-863B-19BA7DC50CB7Q35734294-952E55A2-81E1-42CA-A8F3-2EE0CDF6D062Q35836941-1F188192-9AB5-493B-9A97-5DC6CC353A78Q35947043-EA938A59-2171-4A53-8920-E96911B3C29CQ36050134-CE2D8420-705C-490A-A0DF-AC5AB864C949Q36295492-7F7C1967-94DD-4EB4-9A50-86187ED48612Q36823624-892634D2-80FA-4E09-A212-BB06FB983D35Q36868828-BE87027F-91A3-4D0E-A1D0-37013B9E6518Q36877724-11250EED-2BBC-46C6-8F4B-667DB9D56106Q36879171-865368CE-C343-4BD7-9317-ACBFB12E65FAQ37177514-4A5FEE8E-AF4C-4CB5-8B0A-C4A5A7EC6BC3Q37239452-A5F81BB9-DFBC-4197-BB86-C68F2ECE9286
P2860
Validation of diffusion tensor MRI-based muscle fiber tracking.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年学术文章
@wuu
2002年学术文章
@zh
2002年学术文章
@zh-cn
2002年学术文章
@zh-hans
2002年学术文章
@zh-my
2002年学术文章
@zh-sg
2002年學術文章
@yue
2002年學術文章
@zh-hant
name
Validation of diffusion tensor MRI-based muscle fiber tracking.
@en
Validation of diffusion tensor MRI-based muscle fiber tracking.
@nl
type
label
Validation of diffusion tensor MRI-based muscle fiber tracking.
@en
Validation of diffusion tensor MRI-based muscle fiber tracking.
@nl
prefLabel
Validation of diffusion tensor MRI-based muscle fiber tracking.
@en
Validation of diffusion tensor MRI-based muscle fiber tracking.
@nl
P2093
P2860
P356
P1476
Validation of diffusion tensor MRI-based muscle fiber tracking.
@en
P2093
Adam W Anderson
Andrea S Freyer
Bruce M Damon
John C Gore
Zhaohua Ding
P2860
P304
P356
10.1002/MRM.10198
P577
2002-07-01T00:00:00Z