ISMRM workshop on fat-water separation: insights, applications and progress in MRI.
about
Quantitative Imaging Biomarkers of NAFLDMinimum Field Strength Simulator for Proton Density Weighted MRI.Non-alcoholic fatty liver diseases: update on the challenge of diagnosis and treatmentImaging methods for analyzing body composition in human obesity and cardiometabolic disease.Accelerated T2*-compensated fat fraction quantification using a joint parallel imaging and compressed sensing frameworkMeasurement of interscapular brown adipose tissue of mice in differentially housed temperatures by chemical-shift-encoded water-fat MRIOn the confounding effect of temperature on chemical shift-encoded fat quantification.Fat-suppression techniques for 3-T MR imaging of the musculoskeletal system.Improving chemical shift encoded water-fat separation using object-based information of the magnetic field inhomogeneity.Water-fat separation from a single spatiotemporally encoded echo based on nominal k-space peaking and joint regularized estimation.Comparing average breast fat content results from two different protocols at 1.5T and 3T: can the data be pooled?Dixon-type and subtraction-type contrast-enhanced magnetic resonance angiography: A theoretical and experimental comparison of SNR and CNR.Pancreatic iron and fat assessment by MRI-R2* in patients with iron overload diseases.Validation of marrow fat assessment using noninvasive imaging with histologic examination of human bone samplesSkeletal muscle quantitative nuclear magnetic resonance imaging follow-up of adult Pompe patientsState-of-the-art MRI techniques in neuroradiology: principles, pitfalls, and clinical applications.Multisite, multivendor validation of the accuracy and reproducibility of proton-density fat-fraction quantification at 1.5T and 3T using a fat-water phantom.Fat-water MRI of a diet-induced obesity mouse model at 15.2T.Emulsion Stability Modulates Gastric Secretion and Its Mixing with Emulsified Fat in Healthy Adults in a Randomized Magnetic Resonance Imaging Study.Free-breathing volumetric fat/water separation by combining radial sampling, compressed sensing, and parallel imaging.Correction of phase errors in quantitative water-fat imaging using a monopolar time-interleaved multi-echo gradient echo sequence.Skeletal Muscle Quantitative Nuclear Magnetic Resonance Imaging and Spectroscopy as an Outcome Measure for Clinical TrialsTwo-point magnitude MRI for rapid mapping of brown adipose tissue and its application to the R6/2 mouse model of Huntington diseaseWater-fat MRI for assessing changes in bone marrow composition due to radiation and chemotherapy in gynecologic cancer patients.Brown adipose tissue quantification in human neonates using water-fat separated MRIA method for the automatic segmentation of brown adipose tissue.Chemical Shift magnetization transfer magnetic resonance imaging.Use of dual-energy computed tomography to measure skeletal-wide marrow composition and cancellous bone mineral density.Dual echo dixon imaging with a constrained phase signal model and graph cuts reconstruction.Preventing diabetes in obese Latino youth with prediabetes: a study protocol for a randomized controlled trial.Combined quantification of fatty infiltration, T 1-relaxation times and T 2*-relaxation times in normal-appearing skeletal muscle of controls and dystrophic patients.Measurement of vertebral bone marrow proton density fat fraction in children using quantitative water-fat MRI.Quantitative MRI and spectroscopy of bone marrow.T1 bias in chemical shift-encoded liver fat-fraction: role of the flip angleEvaluation of MRI fat fraction in the liver and spine pre and post SPIO infusion.Proton density fat-fraction: a standardized MR-based biomarker of tissue fat concentration.Investigating the quantitative fidelity of prospectively undersampled chemical shift imaging in muscular dystrophy with compressed sensing and parallel imaging reconstruction.Quantifying fat replacement of muscle by quantitative MRI in muscular dystrophy.Linearity, Bias, and Precision of Hepatic Proton Density Fat Fraction Measurements by Using MR Imaging: A Meta-Analysis.Measuring liver triglyceride content in mice: non-invasive magnetic resonance methods as an alternative to histopathology.
P2860
Q26768664-CB010A41-3940-445D-A7B9-2120684CFDEFQ27348755-52CFD92D-8A14-4B6F-AD94-E7B479541C17Q28080136-B5BDC76B-E897-4C0A-AD4E-3C425D8C701BQ30377639-F3980590-07FD-4BFC-84F2-46BFEAAD12DCQ30587289-0AF0105E-48E2-40F1-A081-9033837C3703Q30615658-AFD60383-07C9-4EF8-B8FA-76553480A166Q30677177-A3C0E2A5-E8DD-451B-86BD-90A8D8B93470Q30734287-F8B3AE6B-2F1F-46AF-A654-D5D0360788C7Q30768339-A04B93DD-BAA7-45F4-85AE-8B5ABA1679A5Q30814611-D14A6ADF-488B-4A62-B3F8-D617E55E2B4CQ30834796-8DFAF568-85F5-415D-9090-64B7B8B55F0BQ30837468-89FC17AA-0F89-41FD-A17B-0CA5F7454B66Q30853786-70E61946-6BC7-4FA6-87E1-892336D7DD37Q30873483-20CD9945-F255-4602-9DAF-CFF87CB8A276Q30906462-9D7F5222-5F06-423F-A194-CF642C5EA9A8Q30928967-AF891EC1-63F8-4A6E-9D35-1851F6C72FD8Q31077527-63DFECB9-2272-4C1C-A6BA-6E5FF30EC734Q31102226-82951DDA-32E6-4A0F-8CC8-F2CFE4FE0C56Q31127449-12DFCFA1-0A06-4172-8692-41AEDB64EE2AQ31128369-1E20005F-A61F-4648-B60E-BB2FCBA0A380Q31140070-91B417D1-0E68-4003-97FF-D8E1BA586221Q31142754-7DD45A7C-6F0B-4931-9EC7-AB300E1C17EAQ34075646-83A96CE7-5086-4F6E-9341-0C5BDDF5DF24Q34602114-457476B7-85DD-4EAE-914A-E360ED623EF2Q35035774-3BD4330F-BCA6-4B16-B837-7BD9C70F2AF5Q35891281-5657DE3E-6A45-4987-A3C4-73F146ACD3A3Q36118455-9D9E1764-EEC7-457D-816A-D115B2C8B51AQ36220394-DA983DA8-21E6-4A03-9DD5-253536FAE78FQ36267152-C123C336-A853-479D-B6A2-70DBCBB62E4FQ36311249-9ED0C1CC-9E6F-4147-A58B-81567C2EBF36Q36319212-1545BA13-A005-4019-B579-40991E273F99Q36337566-CF03B056-83FE-4DB7-B272-CF3923ADA5EAQ36389213-E74B9D68-E19E-4FE2-B73D-34EE91F98348Q36669543-354A5225-A325-4426-93FD-9D909E1879B7Q36913238-534E6EAC-7CA6-46A8-B99A-040FA2AFDC93Q38797402-472E253C-FBA8-4152-BDBE-5BE40DF0238FQ39292845-94BE8421-F914-4379-A7E5-B5130828F4F9Q39409381-EC5B79A2-D166-4C47-82EB-7A2CBC7445D5Q40047726-EFEB48D6-7439-4E0C-B1A8-DA9550F2DB84Q40147031-CD43B8C8-5FC4-49AA-A19D-056A905EA772
P2860
ISMRM workshop on fat-water separation: insights, applications and progress in MRI.
description
2012 nî lūn-bûn
@nan
2012 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
ISMRM workshop on fat-water separation: insights, applications and progress in MRI.
@ast
ISMRM workshop on fat-water separation: insights, applications and progress in MRI.
@en
ISMRM workshop on fat-water separation: insights, applications and progress in MRI.
@nl
type
label
ISMRM workshop on fat-water separation: insights, applications and progress in MRI.
@ast
ISMRM workshop on fat-water separation: insights, applications and progress in MRI.
@en
ISMRM workshop on fat-water separation: insights, applications and progress in MRI.
@nl
prefLabel
ISMRM workshop on fat-water separation: insights, applications and progress in MRI.
@ast
ISMRM workshop on fat-water separation: insights, applications and progress in MRI.
@en
ISMRM workshop on fat-water separation: insights, applications and progress in MRI.
@nl
P2093
P2860
P356
P1476
ISMRM workshop on fat-water separation: insights, applications and progress in MRI.
@en
P2093
Claude Sirlin
Diego Hernando
Houchun Harry Hu
Jingfei Ma
Peter Börnert
Scott Reeder
P2860
P304
P356
10.1002/MRM.24369
P577
2012-06-12T00:00:00Z