Published in Am J Physiol on May 01, 1979
Blood flows within and among rat muscles as a function of time during high speed treadmill exercise. J Physiol (1983) 1.59
Temporal profile of rat skeletal muscle capillary haemodynamics during recovery from contractions. J Physiol (2006) 0.86
Dynamic characteristics of T2*-weighted signal in calf muscles of peripheral artery disease during low-intensity exercise. J Magn Reson Imaging (2016) 0.75
Filament ultrastructure and organization in vertebrate smooth muscle. Contraction hypothesis based on localization of actin and myosin. J Cell Biol (1967) 1.83
Calcium, tropomyosin, and actomyosin as controls of calcium binding by troponin. Recent Adv Stud Cardiac Struct Metab (1975) 1.75
Regulation of VO2 in red muscle: do current biochemical hypotheses fit in vivo data? Am J Physiol (1989) 1.49
Defining hypoxia: a systems view of VO2, glycolysis, energetics, and intracellular PO2. J Appl Physiol (1985) (1990) 1.40
Capillary recruitment in exercise: rate, extent, uniformity, and relation to blood flow. Am J Physiol (1980) 1.26
Direct measurement of intercapillary distance in beating rat heart in situ under various conditions of O 2 supply. Microvasc Res (1969) 1.14
O2 gradients from sarcolemma to cell interior in red muscle at maximal VO2. Am J Physiol (1986) 1.13
Active and passive capillary control in red muscle at rest and in exercise. Am J Physiol (1982) 1.12
Lactate accumulation in fully aerobic, working, dog gracilis muscle. Am J Physiol (1984) 1.11
Locus and state of aggregation of myosin in tissue sections of vertebrate smooth muscle. J Cell Biol (1970) 1.08
Capillary diameter in rat heart in situ: relation to erythrocyte deformability, O2 transport, and transmural O2 gradients. Microvasc Res (1976) 1.05
Influence of initial resistance on magnitude of response to vasomotor stimuli. Am J Physiol (1969) 1.04
Dual effect of oxygen on magnitude and uniformity of coronary intercapillary distance. Am J Physiol (1974) 1.01
Capillary lengths, anastomoses, and estimated capillary transit times in skeletal muscle. Am J Physiol (1977) 1.01
Minimum intracellular PO2 for maximum cytochrome turnover in red muscle in situ. Am J Physiol (1987) 1.00
Intracellular PO2 in long axis of individual fibers in working dog gracilis muscle. Am J Physiol (1988) 0.97
O2 transport and Vo2 in resting muscle: significance for tissue-capillary exchange. Am J Physiol (1971) 0.95
Role of adenosine in exercise vasodilation in dog gracilis muscle. Am J Physiol (1980) 0.93
Intracellular PO2 in individual cardiac myocytes in dogs, cats, rabbits, ferrets, and rats. Am J Physiol (1991) 0.93
Direct measurement of intracellular O2 gradients; role of convection and myoglobin. Adv Exp Med Biol (1983) 0.92
Myoglobin saturation and calculated PO2 in single cells of resting gracilis muscles. Adv Exp Med Biol (1978) 0.92
Lactate efflux is unrelated to intracellular PO2 in a working red muscle in situ. J Appl Physiol (1985) (1986) 0.91
Intercapillary distances and capillary reserve in right and left ventricles: significance for control of tissue po2. Microvasc Res (1976) 0.89
Energy sources in fully aerobic rest-work transitions: a new role for glycolysis. Am J Physiol (1985) 0.88
Muscle O2 gradients from hemoglobin to cytochrome: new concepts, new complexities. Adv Exp Med Biol (1984) 0.87
Amount and distribution of Rb-86 transported into myocardium from ventricular lumen. Am J Physiol (1966) 0.87
Neurons intrinsic to arterioles initiate postcontraction vasodilation. Am J Physiol (1976) 0.85
Calculated dispersion of capillary transit times: significance for oxygen exchange. Am J Physiol (1981) 0.85
Oxygen transport in rest-work transition illustrates new functions for myoglobin. Am J Physiol (1985) 0.84
Reversible interaction between halothane and Ca++ on cardiac actomyosin adenosine triphosphatase: mechanism and significance. J Pharmacol Exp Ther (1974) 0.84
An upper bound on the minimum PO2 for O2 consumption in red muscle. Adv Exp Med Biol (1985) 0.83
Effect of Ca++ on Vmax measured in absence of external or internal load. Eur J Cardiol (1976) 0.83
Coronary intercapillary distance during growth: relation to PtO2 and aerobic capacity. Am J Physiol (1976) 0.82
Intercapillary distance and capillary reserve in hypertrophied rat hearts beating in situ. Circ Res (1977) 0.82
How large is the drop in PO2 between cytosol and mitochondrion? Am J Physiol (1987) 0.82
Hypoxia in skeletal muscle at rest and during the transition to steady work. Microvasc Res (1977) 0.82
Correlation of O2 transport on the micro and macro scale. Int J Microcirc Clin Exp (1982) 0.81
Frequency analysis of coronary intercapillary distances: site of capillary control. Am J Physiol (1978) 0.81
Depression of myosin B by catecholamine analogs: mechanism and in vivo significance. Am J Physiol (1968) 0.80
Extravascular component of oxygen transport in normal and hypertrophied hearts with special reference to oxygen therapy. Circ Res (1974) 0.80
Interaction of Ca++ binding sites of troponin: significance for Ca++ movements. Am J Physiol (1975) 0.80
A graphical analysis of the influence of red cell transit time, carrier-free layer thickness, and intracellular PO2 on blood-tissue O2 transport. Adv Exp Med Biol (1988) 0.80
Evaluation of possible adrenergic and cholinergic mechanisms in sympathetic vasodilation. Fed Proc (1969) 0.78
Lactate production in a pure red muscle in absence of anoxia: mechanisms and significance. Adv Exp Med Biol (1983) 0.78
Active muscle vasodilation in primates homologous with sympathetic vasodilation in carnivores. Am J Physiol (1971) 0.77
O2 extraction of right and left ventricles. Proc Soc Exp Biol Med (1976) 0.77
Does histamine influence vasodilation caused by prolonged arterial occlusion or heavy exercise? J Pharmacol Exp Ther (1980) 0.77
Shallow intracellular O2 gradients and absence of perimitochondrial O2 "wells" in heavily working red muscle. Adv Exp Med Biol (1986) 0.76
Role of O2 in control of the coronary capillary reserve. Adv Exp Med Biol (1973) 0.76
Ca 2+ -binding and Ca 2+ -sensitizing functions of cardiac native tropomyosin, troponin, and tropomyosin. Biochim Biophys Acta (1972) 0.76
Balance between O2 availability and VO2 in rest-work transition as measured by myoglobin saturation in subcellular volumes. Adv Exp Med Biol (1984) 0.76
Mechanochemical coupling at the actomyosin cross-bridges and the adrenergic inotropic receptor. Recent Adv Stud Cardiac Struct Metab (1974) 0.75
Capillary spacing around coronary venules suggests that diffusion distance is controlled by local tissue pO2. Microvasc Res (1978) 0.75
Control of coronary intercapillary distance: effect of arterial pCO2 and pH. Microvasc Res (1973) 0.75
Ganglion cells in arterioles of skeletal muscle: role in sympathetic vasodilation. Am J Physiol (1975) 0.75
Shortening and ATPase activities of single cardiac fibrils of normal sarcomere length. Am J Physiol (1972) 0.75
Halothane decreases actomyosin ATPase activity: a possible mechanism of the negative inotropic effect. Recent Adv Stud Cardiac Struct Metab (1975) 0.75
Effect of catecholamine analogs on control of actomyosin by native tropomyosin and calcium: the nature of the negative inotropic receptor. J Pharmacol Exp Ther (1973) 0.75
Comparison of neural controls of resistance and capillary density in resting muscle. Am J Physiol (1970) 0.75
Capillary diameter in rat heart in situ: relation to erythrocyte deformability, O2 transport, and transmural O2 gradients. Bibl Anat (1977) 0.75
The influence of adrenergic mediators and their structural analogs on cardiac actomyosin systems. Ann N Y Acad Sci (1967) 0.75
Intercapillary distance and capillary reserve in rat heart during normal growth and hypertrophy: significance for O2 transport. Bibl Anat (1977) 0.75
Mechanisms of circulation metabolism coupling in skeletal muscle. Adv Exp Med Biol (1976) 0.75
Does energy demand have an additional control in ischemia or are current models of metabolic control adequate at extremes? Adv Exp Med Biol (1994) 0.75
O2 and the number and arrangement of coronary capillaries; effect on calculated tissue PO2. Adv Exp Med Biol (1973) 0.75