Bioenergetics of contracting skeletal muscle after partial reduction of blood flow.

  title={Bioenergetics of contracting skeletal muscle after partial reduction of blood flow.},
  author={M. Hogan and L. Gladden and B. Grassi and C. Stary and M. Samaja},
  journal={Journal of applied physiology},
  volume={84 6},
  • M. Hogan, L. Gladden, +2 authors M. Samaja
  • Published 1998
  • Medicine, Chemistry
  • Journal of applied physiology
  • The purpose of this study was to examine the bioenergetics and regulation of O2 uptake (VO2) and force production in contracting muscle when blood flow was moderately reduced during a steady-state contractile period. Canine gastrocnemius muscle (n = 5) was isolated, and 3-min stimulation periods of isometric, tetanic contractions were elicited sequentially at rates of 0.25, 0.33, and 0.5 contractions/s (Hz) immediately followed by a reduction of blood flow [ischemic (I) condition] to 46 +/- 3… CONTINUE READING
    Metabolic adaptations to repeated periods of contraction with reduced blood flow in canine skeletal muscle
    • 8
    • Open Access
    Effect of hypoxia on fatigue development in rat muscle composed of different fibre types
    • 26
    • Open Access
    Intracellular PO(2) decreases with increasing stimulation frequency in contracting single Xenopus muscle fibers.
    • 28
    • Open Access
    In vivo ATP production during free‐flow and ischaemic muscle contractions in humans
    • 79
    • Open Access


    Publications referenced by this paper.
    Effect of gradual reduction in O2 delivery on intracellular homeostasis in contracting skeletal muscle.
    • 55
    Role of O2 in regulating tissue respiration in dog muscle working in situ.
    • 166
    Role of intracellular pH in muscle fatigue.
    • 128