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Journal Abstract Search

291 related items for PubMed ID: 17065339

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  • 3. Quantitative assessment of glucose transport in human skeletal muscle: dynamic positron emission tomography imaging of [O-methyl-11C]3-O-methyl-D-glucose.
    Bertoldo A, Price J, Mathis C, Mason S, Holt D, Kelley C, Cobelli C, Kelley DE.
    J Clin Endocrinol Metab; 2005 Mar; 90(3):1752-9. PubMed ID: 15613423
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  • 4. Interactions among glucose delivery, transport, and phosphorylation that underlie skeletal muscle insulin resistance in obesity and type 2 Diabetes: studies with dynamic PET imaging.
    Goodpaster BH, Bertoldo A, Ng JM, Azuma K, Pencek RR, Kelley C, Price JC, Cobelli C, Kelley DE.
    Diabetes; 2014 Mar; 63(3):1058-68. PubMed ID: 24222345
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  • 5. Glucose transport and phosphorylation in skeletal muscle in obesity: insight from a muscle-specific positron emission tomography model.
    Williams KV, Bertoldo A, Mattioni B, Price JC, Cobelli C, Kelley DE.
    J Clin Endocrinol Metab; 2003 Mar; 88(3):1271-9. PubMed ID: 12629118
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  • 6. Insulin regulation of glucose transport and phosphorylation in skeletal muscle assessed by PET.
    Kelley DE, Williams KV, Price JC.
    Am J Physiol; 1999 Aug; 277(2):E361-9. PubMed ID: 10444433
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  • 7. Exercise training favors increased insulin-stimulated glucose uptake in skeletal muscle in contrast to adipose tissue: a randomized study using FDG PET imaging.
    Reichkendler MH, Auerbach P, Rosenkilde M, Christensen AN, Holm S, Petersen MB, Lagerberg A, Larsson HB, Rostrup E, Mosbech TH, Sjödin A, Kjaer A, Ploug T, Hoejgaard L, Stallknecht B.
    Am J Physiol Endocrinol Metab; 2013 Aug 15; 305(4):E496-506. PubMed ID: 23800880
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  • 8. Determination of the lumped constant for [18F] fluorodeoxyglucose in human skeletal muscle.
    Kelley DE, Williams KV, Price JC, Goodpaster B.
    J Nucl Med; 1999 Nov 15; 40(11):1798-804. PubMed ID: 10565773
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  • 9. Lumped constant for [(18)F]fluorodeoxyglucose in skeletal muscles of obese and nonobese humans.
    Peltoniemi P, Lönnroth P, Laine H, Oikonen V, Tolvanen T, Grönroos T, Strindberg L, Knuuti J, Nuutila P.
    Am J Physiol Endocrinol Metab; 2000 Nov 15; 279(5):E1122-30. PubMed ID: 11052968
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  • 10. Weight loss-induced plasticity of glucose transport and phosphorylation in the insulin resistance of obesity and type 2 diabetes.
    Williams KV, Bertoldo A, Kinahan P, Cobelli C, Kelley DE.
    Diabetes; 2003 Jul 15; 52(7):1619-26. PubMed ID: 12829624
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  • 11. Evidence for dissociation of insulin stimulation of blood flow and glucose uptake in human skeletal muscle: studies using [15O]H2O, [18F]fluoro-2-deoxy-D-glucose, and positron emission tomography.
    Raitakari M, Nuutila P, Ruotsalainen U, Laine H, Teräs M, Iida H, Mäkimattila S, Utriainen T, Oikonen V, Sipilä H, Haaparanta M, Solin O, Wegelius U, Knuuti J, Yki-Järvinen H.
    Diabetes; 1996 Nov 15; 45(11):1471-7. PubMed ID: 8866549
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  • 12. Dynamic PET imaging reveals heterogeneity of skeletal muscle insulin resistance.
    Ng JM, Bertoldo A, Minhas DS, Helbling NL, Coen PM, Price JC, Cobelli C, Kelley DE, Goodpaster BH.
    J Clin Endocrinol Metab; 2014 Jan 15; 99(1):E102-6. PubMed ID: 24170108
    [Abstract] [Full Text] [Related]

  • 13. Interactions of impaired glucose transport and phosphorylation in skeletal muscle insulin resistance: a dose-response assessment using positron emission tomography.
    Williams KV, Price JC, Kelley DE.
    Diabetes; 2001 Sep 15; 50(9):2069-79. PubMed ID: 11522673
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  • 14. Limitations to exercise- and maximal insulin-stimulated muscle glucose uptake.
    Halseth AE, Bracy DP, Wasserman DH.
    J Appl Physiol (1985); 1998 Dec 15; 85(6):2305-13. PubMed ID: 9843557
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  • 15. The effect of non-insulin-dependent diabetes mellitus and obesity on glucose transport and phosphorylation in skeletal muscle.
    Kelley DE, Mintun MA, Watkins SC, Simoneau JA, Jadali F, Fredrickson A, Beattie J, Thériault R.
    J Clin Invest; 1996 Jun 15; 97(12):2705-13. PubMed ID: 8675680
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  • 16. Exercise restores skeletal muscle glucose delivery but not insulin-mediated glucose transport and phosphorylation in obese subjects.
    Slimani L, Oikonen V, Hällsten K, Savisto N, Knuuti J, Nuutila P, Iozzo P.
    J Clin Endocrinol Metab; 2006 Sep 15; 91(9):3394-403. PubMed ID: 16772346
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  • 17. Enhanced stimulation of glucose uptake by insulin increases exercise-stimulated glucose uptake in skeletal muscle in humans: studies using [15O]O2, [15O]H2O, [18F]fluoro-deoxy-glucose, and positron emission tomography.
    Nuutila P, Peltoniemi P, Oikonen V, Larmola K, Kemppainen J, Takala T, Sipilä H, Oksanen A, Ruotsalainen U, Bolli GB, Yki-Järvinen H.
    Diabetes; 2000 Jul 15; 49(7):1084-91. PubMed ID: 10909962
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  • 18. Human adipose tissue glucose uptake determined using [(18)F]-fluoro-deoxy-glucose ([(18)F]FDG) and PET in combination with microdialysis.
    Virtanen KA, Peltoniemi P, Marjamäki P, Asola M, Strindberg L, Parkkola R, Huupponen R, Knuuti J, Lönnroth P, Nuutila P.
    Diabetologia; 2001 Dec 15; 44(12):2171-9. PubMed ID: 11793018
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  • 19. Role of blood flow in regulating insulin-stimulated glucose uptake in humans. Studies using bradykinin, [15O]water, and [18F]fluoro-deoxy-glucose and positron emission tomography.
    Nuutila P, Raitakari M, Laine H, Kirvelä O, Takala T, Utriainen T, Mäkimattila S, Pitkänen OP, Ruotsalainen U, Iida H, Knuuti J, Yki-Järvinen H.
    J Clin Invest; 1996 Apr 01; 97(7):1741-7. PubMed ID: 8601640
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  • 20. Quantification, Variability, and Reproducibility of Basal Skeletal Muscle Glucose Uptake in Healthy Humans Using 18F-FDG PET/CT.
    Gheysens O, Postnov A, Deroose CM, Vandermeulen C, de Hoon J, Declercq R, Dennie J, Mixson L, De Lepeleire I, Van Laere K, Klimas M, Chakravarthy MV.
    J Nucl Med; 2015 Oct 01; 56(10):1520-6. PubMed ID: 26229142
    [Abstract] [Full Text] [Related]

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