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Journal Abstract Search

239 related items for PubMed ID: 9950784

  • 1. Effect of high-intensity exercise training on lactate/H+ transport capacity in human skeletal muscle.
    Pilegaard H, Domino K, Noland T, Juel C, Hellsten Y, Halestrap AP, Bangsbo J.
    Am J Physiol; 1999 Feb; 276(2):E255-61. PubMed ID: 9950784
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  • 2. Effect of high-intensity intermittent training on lactate and H+ release from human skeletal muscle.
    Juel C, Klarskov C, Nielsen JJ, Krustrup P, Mohr M, Bangsbo J.
    Am J Physiol Endocrinol Metab; 2004 Feb; 286(2):E245-51. PubMed ID: 14559724
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  • 3. Lactate transport studied in sarcolemmal giant vesicles from human muscle biopsies: relation to training status.
    Pilegaard H, Bangsbo J, Richter EA, Juel C.
    J Appl Physiol (1985); 1994 Oct; 77(4):1858-62. PubMed ID: 7836210
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  • 4. Endurance training, expression, and physiology of LDH, MCT1, and MCT4 in human skeletal muscle.
    Dubouchaud H, Butterfield GE, Wolfel EE, Bergman BC, Brooks GA.
    Am J Physiol Endocrinol Metab; 2000 Apr; 278(4):E571-9. PubMed ID: 10751188
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  • 5. Influence of training intensity on adaptations in acid/base transport proteins, muscle buffer capacity, and repeated-sprint ability in active men.
    McGinley C, Bishop DJ.
    J Appl Physiol (1985); 2016 Dec 01; 121(6):1290-1305. PubMed ID: 27742804
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  • 7. Training does not protect against exhaustive exercise-induced lactate transport capacity alterations.
    Eydoux N, Py G, Lambert K, Dubouchaud H, Préfaut C, Mercier J.
    Am J Physiol Endocrinol Metab; 2000 Jun 01; 278(6):E1045-52. PubMed ID: 10827007
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  • 8. High-intensity exercise acutely decreases the membrane content of MCT1 and MCT4 and buffer capacity in human skeletal muscle.
    Bishop D, Edge J, Thomas C, Mercier J.
    J Appl Physiol (1985); 2007 Feb 01; 102(2):616-21. PubMed ID: 17082373
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  • 11. Effect of two different intense training regimens on skeletal muscle ion transport proteins and fatigue development.
    Mohr M, Krustrup P, Nielsen JJ, Nybo L, Rasmussen MK, Juel C, Bangsbo J.
    Am J Physiol Regul Integr Comp Physiol; 2007 Apr 01; 292(4):R1594-602. PubMed ID: 17194727
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  • 12. Dissociation between lactate and proton exchange in muscle during intense exercise in man.
    Bangsbo J, Juel C, Hellsten Y, Saltin B.
    J Physiol; 1997 Oct 15; 504 ( Pt 2)(Pt 2):489-99. PubMed ID: 9365920
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  • 13. Characterisation of human monocarboxylate transporter 4 substantiates its role in lactic acid efflux from skeletal muscle.
    Manning Fox JE, Meredith D, Halestrap AP.
    J Physiol; 2000 Dec 01; 529 Pt 2(Pt 2):285-93. PubMed ID: 11101640
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  • 14. Distinct protein and mRNA kinetics of skeletal muscle proton transporters following exercise can influence interpretation of adaptations to training.
    McGinley C, Bishop DJ.
    Exp Physiol; 2016 Dec 01; 101(12):1565-1580. PubMed ID: 27689626
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  • 15. Monocarboxylate transporters, blood lactate removal after supramaximal exercise, and fatigue indexes in humans.
    Thomas C, Perrey S, Lambert K, Hugon G, Mornet D, Mercier J.
    J Appl Physiol (1985); 2005 Mar 01; 98(3):804-9. PubMed ID: 15531559
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  • 19. Effects of high-intensity training on muscle lactate transporters and postexercise recovery of muscle lactate and hydrogen ions in women.
    Bishop D, Edge J, Thomas C, Mercier J.
    Am J Physiol Regul Integr Comp Physiol; 2008 Dec 01; 295(6):R1991-8. PubMed ID: 18832090
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