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Journal Abstract Search

220 related items for PubMed ID: 8457428

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  • 4. Absolute quantification of phosphorus metabolite concentrations in human muscle in vivo by 31P MRS: a quantitative review.
    Kemp GJ, Meyerspeer M, Moser E.
    NMR Biomed; 2007 Oct; 20(6):555-65. PubMed ID: 17628042
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  • 6. Skeletal muscle metabolism during exercise and recovery in patients with respiratory failure.
    Thompson CH, Davies RJ, Kemp GJ, Taylor DJ, Radda GK, Rajagopalan B.
    Thorax; 1993 May; 48(5):486-90. PubMed ID: 8322233
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  • 7. Use of phosphocreatine kinetics to determine the influence of creatine on muscle mitochondrial respiration: an in vivo 31P-MRS study of oral creatine ingestion.
    Smith SA, Montain SJ, Zientara GP, Fielding RA.
    J Appl Physiol (1985); 2004 Jun; 96(6):2288-92. PubMed ID: 14978006
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  • 8. Bioenergetics of skeletal muscle in mitochondrial myopathy.
    Taylor DJ, Kemp GJ, Radda GK.
    J Neurol Sci; 1994 Dec 20; 127(2):198-206. PubMed ID: 7707079
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  • 9. Comparative determination of energy production rates and mitochondrial function using different 31P MRS quantitative methods in sedentary and trained subjects.
    Layec G, Bringard A, Le Fur Y, Vilmen C, Micallef JP, Perrey S, Cozzone PJ, Bendahan D.
    NMR Biomed; 2011 May 20; 24(4):425-38. PubMed ID: 20963767
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  • 11. Skeletal muscle bioenergetics in myotonic dystrophy.
    Taylor DJ, Kemp GJ, Woods CG, Edwards JH, Radda GK.
    J Neurol Sci; 1993 Jun 20; 116(2):193-200. PubMed ID: 8336166
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  • 12. Improved brain and muscle mitochondrial respiration with CoQ. An in vivo study by 31P-MR spectroscopy in patients with mitochondrial cytopathies.
    Barbiroli B, Iotti S, Lodi R.
    Biofactors; 1999 Jun 20; 9(2-4):253-60. PubMed ID: 10416038
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  • 13. Physical training improves skeletal muscle metabolism in patients with chronic heart failure.
    Adamopoulos S, Coats AJ, Brunotte F, Arnolda L, Meyer T, Thompson CH, Dunn JF, Stratton J, Kemp GJ, Radda GK.
    J Am Coll Cardiol; 1993 Apr 20; 21(5):1101-6. PubMed ID: 8459063
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  • 14. Theoretical modelling of some spatial and temporal aspects of the mitochondrion/creatine kinase/myofibril system in muscle.
    Kemp GJ, Manners DN, Clark JF, Bastin ME, Radda GK.
    Mol Cell Biochem; 1998 Jul 20; 184(1-2):249-89. PubMed ID: 9746325
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  • 15. Phosphorus 31 nuclear magnetic resonance spectroscopy suggests a mitochondrial defect in claudicating skeletal muscle.
    Pipinos II, Shepard AD, Anagnostopoulos PV, Katsamouris A, Boska MD.
    J Vasc Surg; 2000 May 20; 31(5):944-52. PubMed ID: 10805885
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  • 16. Mitochondrial respiration in creatine-loaded muscle: is there 31P-MRS evidence of direct effects of phosphocreatine and creatine in vivo?
    Kemp G.
    J Appl Physiol (1985); 2006 Apr 20; 100(4):1428-9; author reply 1429-30. PubMed ID: 16540719
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  • 17. Value of dynamic ³¹P magnetic resonance spectroscopy technique in in vivo assessment of the skeletal muscle mitochondrial function in type 2 diabetes.
    Wu FY, Tu HJ, Qin B, Chen T, Xu HF, Qi J, Wang DH.
    Chin Med J (Engl); 2012 Jan 20; 125(2):281-6. PubMed ID: 22340560
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  • 18. Investigation of human mitochondrial myopathies by phosphorus magnetic resonance spectroscopy.
    Arnold DL, Taylor DJ, Radda GK.
    Ann Neurol; 1985 Aug 20; 18(2):189-96. PubMed ID: 4037759
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  • 19. Physiological constraints on changes in pH and phosphorus metabolite concentrations in ischemically exercising muscle: implications for metabolic control and for the interpretation of 31P-magnetic resonance spectroscopic studies.
    Kemp GJ.
    MAGMA; 1997 Sep 20; 5(3):231-41. PubMed ID: 9351027
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  • 20. Muscle phosphorus magnetic resonance spectroscopy oxidative indices correlate with physical activity.
    Tartaglia MC, Chen JT, Caramanos Z, Taivassalo T, Arnold DL, Argov Z.
    Muscle Nerve; 2000 Feb 20; 23(2):175-81. PubMed ID: 10639607
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