Lipid content in the musculature of the lower leg assessed by fat selective MRI: intra- and interindividual differences and correlation with anthropometric and metabolic data.
about
Mitochondrial fatty acid oxidation in obesityThe Need for Standardized Assessment of Muscle Quality in Skeletal Muscle Function Deficit and Other Aging-Related Muscle Dysfunctions: A Symposium Report.The multidomain mobility lab in older persons: from bench to bedside. The assessment of body composition in older persons at risk of mobility limitationsQuantitative proton MR techniques for measuring fatTwo-dimensional spectroscopic imaging with combined free induction decay and long-TE acquisition (FID echo spectroscopic imaging, FIDESI) for the detection of intramyocellular lipids in calf muscle at 7 T.Fat quantification in skeletal muscle using multigradient-echo imaging: Comparison of fat and water references.Reproducible MRI measurement of adipose tissue volumes in genetic and dietary rodent obesity models.Quantification of absolute fat mass using an adipose tissue reference signal model.Comparison of fat-water MRI and single-voxel MRS in the assessment of hepatic and pancreatic fat fractions in humansAssessment of relevant hepatic steatosis in obese adolescents by rapid fat-selective GRE imaging with spatial-spectral excitation: a quantitative comparison with spectroscopic findings.Echo planar correlated spectroscopic imaging: implementation and pilot evaluation in human calf in vivo.Comparison of clinical semi-quantitative assessment of muscle fat infiltration with quantitative assessment using chemical shift-based water/fat separation in MR studies of the calf of post-menopausal women.ISMRM workshop on fat-water separation: insights, applications and progress in MRI.Investigation of Fat Metabolism during Antiobesity Interventions by Magnetic Resonance Imaging and Spectroscopy.Assessment of abdominal adipose tissue and organ fat content by magnetic resonance imaging.Quantitative Three-Dimensional Imaging of Lipid, Protein, and Water Contents via X-Ray Phase-Contrast Tomography.Role of lipid-derived mediators in skeletal muscle insulin resistance.Liver fat content determined by magnetic resonance imaging and spectroscopy.Recent advances in imaging hepatic fibrosis and steatosis.Tissue segmentation: a crucial tool for quantitative MRI and visualization of anatomical structures.Association between intramuscular fat in the arm following arm training and INSIG2.Consumption of sucrose and high-fructose corn syrup does not increase liver fat or ectopic fat deposition in muscles.The effect of obesity on the contractile performance of isolated mouse soleus, EDL, and diaphragm muscles.Characterization of T1 bias in skeletal muscle from fat in MOLLI and SASHA pulse sequences: Quantitative fat-fraction imaging with T1 mapping.
P2860
Q26820838-B9D36EBE-9D71-41FE-B0E8-3B0F85CEE03BQ30235428-0A9A8D03-7C28-471B-9CA3-6B23968D34D0Q30423102-5DE72BCD-5696-42DA-BC07-B30B3801CA1DQ30677112-A33B9095-36D1-43A0-AAFA-F06388C7F2BCQ30830040-FB489BD6-2DB7-4512-8E04-40AF50E78CEEQ30975614-3AC691AA-54A8-4369-8703-79C5071DF0FFQ33372404-E933CAC6-CAAC-4673-BAA5-7C1461D08CD0Q33386356-6DD1D1D6-9D69-457B-9946-72F0CE61857EQ33510900-39230CCB-19DA-407C-B49F-ABD209B8018DQ33709013-02E85CD4-E959-4254-AC6A-902FB796D075Q34159175-2406022C-4B00-4E4D-8931-44AC05BEA652Q34192522-9748F6D0-C49D-490A-8408-50AC36C6C1C3Q34302041-F49B4D2F-FEE3-46C9-9B90-18CBE4347B38Q34609483-6CCB7AA1-8AA4-4793-9975-A32927F3D151Q34819626-31ADB487-005A-4E05-B630-F50AE30EAD2AQ35966131-5BB24B5D-82DB-4F67-8ECB-4D6DC51102DDQ37551374-5C852FA4-75A1-4600-88D1-818504E21F16Q37721939-7ADF7441-C29E-4082-BC4E-8DA4B03D0310Q37839093-7BFAE15D-4BB1-4715-A69F-4EEDE0A55893Q43893279-B19C6649-8274-42C5-8A34-850D1F1145FCQ44477430-9129CBD2-EEC1-4355-B639-39F147344E46Q45011736-8D50FFF7-9763-40D3-9A81-0F43D6E58BA9Q47619835-508D60CE-AB27-4D5E-84D5-5709B748947CQ50716412-225E5C4F-4D29-463B-967F-58A73572EE95
P2860
Lipid content in the musculature of the lower leg assessed by fat selective MRI: intra- and interindividual differences and correlation with anthropometric and metabolic data.
description
2003 nî lūn-bûn
@nan
2003 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի մարտին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Lipid content in the musculatu ...... ropometric and metabolic data.
@ast
Lipid content in the musculatu ...... ropometric and metabolic data.
@en
type
label
Lipid content in the musculatu ...... ropometric and metabolic data.
@ast
Lipid content in the musculatu ...... ropometric and metabolic data.
@en
prefLabel
Lipid content in the musculatu ...... ropometric and metabolic data.
@ast
Lipid content in the musculatu ...... ropometric and metabolic data.
@en
P2093
P2860
P356
P1476
Lipid content in the musculatu ...... ropometric and metabolic data.
@en
P2093
Beate Wietek
Bernhard Klumpp
Claus D Claussen
Dominik B Dahl
Fritz Schick
Hans-U Häring
Jürgen Machann
Klaus Brechtel
Oliver P Bachmann
Stephan Jacob
P2860
P304
P356
10.1002/JMRI.10255
P577
2003-03-01T00:00:00Z