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Journal Abstract Search

438 related items for PubMed ID: 6237550

  • 1. Enzyme levels in pools of microdissected human muscle fibres of identified type. Adaptive response to exercise.
    Essén-Gustavsson B, Henriksson J.
    Acta Physiol Scand; 1984 Apr; 120(4):505-15. PubMed ID: 6237550
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  • 2. Enzyme levels of the NADH shuttle systems: measurements in isolated muscle fibres from humans of differing physical activity.
    Schantz PG, Henriksson J.
    Acta Physiol Scand; 1987 Apr; 129(4):505-15. PubMed ID: 3591372
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  • 3. Activity patterns of phosphofructokinase, glyceraldehydephosphate dehydrogenase, lactate dehydrogenase and malate dehydrogenase in microdissected fast and slow fibres from rabbit psoas and soleus muscle.
    Spamer C, Pette D.
    Histochemistry; 1977 Jun 08; 52(3):201-16. PubMed ID: 142072
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  • 4. Skeletal muscle of trained and untrained paraplegics and tetraplegics.
    Schantz P, Sjöberg B, Widebeck AM, Ekblom B.
    Acta Physiol Scand; 1997 Sep 08; 161(1):31-9. PubMed ID: 9381947
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  • 5. Enzyme activities in type I and II muscle fibres of human skeletal muscle in relation to age and torque development.
    Borges O, Essén-Gustavsson B.
    Acta Physiol Scand; 1989 May 08; 136(1):29-36. PubMed ID: 2773660
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  • 6. Effect of exercise on muscle fibre composition and enzyme activities of skeletal muscles in young rats.
    Melichna J, Macková EV, Semiginovský B, Tolar M, Stichová J, Slavícek A, Vanková S, Bartůnĕk Z.
    Physiol Bohemoslov; 1987 May 08; 36(4):321-8. PubMed ID: 2958891
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  • 10. Enzyme activities in the tibialis anterior muscle of young moderately active men and women: relationship with body composition, muscle cross-sectional area and fibre type composition.
    Jaworowski A, Porter MM, Holmbäck AM, Downham D, Lexell J.
    Acta Physiol Scand; 2002 Nov 08; 176(3):215-25. PubMed ID: 12392501
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  • 12. Differences in ultrastructural and metabolic profiles within the same type of fibres in various muscles of young and adult rats.
    Takekura H, Kasuga N, Yoshioka T.
    Acta Physiol Scand; 1994 Mar 08; 150(3):335-44. PubMed ID: 8010140
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  • 13. Endurance but not resistance training increases intra-myocellular lipid content and β-hydroxyacyl coenzyme A dehydrogenase activity in active elderly men.
    Ngo KT, Denis C, Saafi MA, Feasson L, Verney J.
    Acta Physiol (Oxf); 2012 May 08; 205(1):133-44. PubMed ID: 22017921
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  • 14. Beta-adrenergic blockade and training in human subjects: effects on muscle metabolic capacity.
    Svedenhag J, Henriksson J, Juhlin-Dannfelt A.
    Am J Physiol; 1984 Sep 08; 247(3 Pt 1):E305-11. PubMed ID: 6089581
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  • 15. Different metabolic adaptation of heart and skeletal muscles to moderate-intensity treadmill training in the rat.
    Zonderland ML, Bär PR, Reijneveld JC, Spruijt BM, Keizer HA, Glatz JF.
    Eur J Appl Physiol Occup Physiol; 1999 Apr 08; 79(5):391-6. PubMed ID: 10208246
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  • 16. Skeletal muscle adaptation to endurance training in patients with chronic obstructive pulmonary disease.
    Maltais F, LeBlanc P, Simard C, Jobin J, Bérubé C, Bruneau J, Carrier L, Belleau R.
    Am J Respir Crit Care Med; 1996 Aug 08; 154(2 Pt 1):442-7. PubMed ID: 8756820
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  • 18. Effect of endurance training on the capacity of red and white skeletal muscle of mouse to oxidize carboxyl-14C-labelled palmitate.
    Salminen A, Vihko V, Pilström L.
    Acta Physiol Scand; 1977 Nov 08; 101(3):318-28. PubMed ID: 202144
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  • 19. Quantitative measures of enzyme activities in type I and type II muscle fibres of man after training.
    Henriksson J, Reitman JS.
    Acta Physiol Scand; 1976 Jul 08; 97(3):392-7. PubMed ID: 134623
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  • 20. Muscle fibre types and enzyme activities after training with local leg ischaemia in man.
    Esbjörnsson M, Jansson E, Sundberg CJ, Sylvén C, Eiken O, Nygren A, Kaijser L.
    Acta Physiol Scand; 1993 Jul 08; 148(3):233-41. PubMed ID: 8213179
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