Depth-resolved surface coil MRS (DRESS)-localized dynamic31P-MRS of the exercising human gastrocnemius muscle at 7 T
Published 2014 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Depth-resolved surface coil MRS (DRESS)-localized dynamic31P-MRS of the exercising human gastrocnemius muscle at 7 T
Authors
Keywords
-
Journal
NMR IN BIOMEDICINE
Volume 27, Issue 11, Pages 1346-1352
Publisher
Wiley
Online
2014-09-09
DOI
10.1002/nbm.3196
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Exercising calf muscle T2∗ changes correlate with pH, PCr recovery and maximum oxidative phosphorylation
- (2014) Albrecht Ingo Schmid et al. NMR IN BIOMEDICINE
- In vivo31P magnetic resonance spectroscopy of the human liver at 7 T: an initial experience
- (2014) Marek Chmelik et al. NMR IN BIOMEDICINE
- Flip-angle mapping of31P coils by steady-state MR spectroscopic imaging
- (2013) Marek Chmelík et al. JOURNAL OF MAGNETIC RESONANCE IMAGING
- Method for high-resolution imaging of creatine in vivo using chemical exchange saturation transfer
- (2013) Feliks Kogan et al. MAGNETIC RESONANCE IN MEDICINE
- Interrelation of31P-MRS metabolism measurements in resting and exercised quadriceps muscle of overweight-to-obese sedentary individuals
- (2013) Ladislav Valkovič et al. NMR IN BIOMEDICINE
- Rapid 3D-imaging of phosphocreatine recovery kinetics in the human lower leg muscles with compressed sensing
- (2012) Prodromos Parasoglou et al. MAGNETIC RESONANCE IN MEDICINE
- Fully adiabatic31P 2D-CSI with reduced chemical shift displacement error at 7 T - GOIA-1D-ISIS/2D-CSI
- (2012) M. Chmelík et al. MAGNETIC RESONANCE IN MEDICINE
- Comparing localized and nonlocalized dynamic31P magnetic resonance spectroscopy in exercising muscle at 7T
- (2012) Martin Meyerspeer et al. MAGNETIC RESONANCE IN MEDICINE
- Dynamic three-dimensional imaging of phosphocreatine recovery kinetics in the human lower leg muscles at 3T and 7T: a preliminary study
- (2012) Prodromos Parasoglou et al. NMR IN BIOMEDICINE
- The Reproducibility of 31-Phosphorus MRS Measures of Muscle Energetics at 3 Tesla in Trained Men
- (2012) Lindsay M. Edwards et al. PLoS One
- Time-resolved phosphorous magnetization transfer of the human calf muscle at 3T and 7T: A feasibility study
- (2011) Ladislav Valkovič et al. EUROPEAN JOURNAL OF RADIOLOGY
- Quantitative 31P magnetic resonance spectroscopy of the human breast at 7 T
- (2011) Jannie P. Wijnen et al. MAGNETIC RESONANCE IN MEDICINE
- In vivo31P spectroscopy by fully adiabatic extended image selected in vivo spectroscopy: A comparison between 3 T and 7 T
- (2011) W. Bogner et al. MAGNETIC RESONANCE IN MEDICINE
- Semi-LASER localized dynamic31P magnetic resonance spectroscopy in exercising muscle at ultra-high magnetic field
- (2011) Martin Meyerspeer et al. MAGNETIC RESONANCE IN MEDICINE
- 7-T MR-from research to clinical applications?
- (2011) Ewald Moser et al. NMR IN BIOMEDICINE
- Lower leg muscle involvement in Duchenne muscular dystrophy: an MR imaging and spectroscopy study
- (2011) Martin Torriani et al. SKELETAL RADIOLOGY
- In vivo31P MRS detection of an alkaline inorganic phosphate pool with short T1 in human resting skeletal muscle
- (2010) H. E. Kan et al. NMR IN BIOMEDICINE
- Reproducibility assessment of metabolic variables characterizing muscle energetics in Vivo: A31P-MRS study
- (2009) Gwenael Layec et al. MAGNETIC RESONANCE IN MEDICINE
- Assessment of31P relaxation times in the human calf muscle: A comparison between 3 T and 7 T in vivo
- (2009) W. Bogner et al. MAGNETIC RESONANCE IN MEDICINE
- Effects of recovery time on phosphocreatine kinetics during repeated bouts of heavy-intensity exercise
- (2008) S. C. Forbes et al. EUROPEAN JOURNAL OF APPLIED PHYSIOLOGY
Find Funding. Review Successful Grants.
Explore over 25,000 new funding opportunities and over 6,000,000 successful grants.
ExplorePublish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn More