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Microcirculation Volume 4, 1997 - Issue 2
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Original Article

Femoral Artery Ligation Stimulates Capillary Growth and Limits Training-Induced Increases in Oxidative Capacity In Rats

Karl C. Roberts Departments of Physiology and Biophysics and Surgery, Indiana University School of Medicine, Indianapolis, Indiana, USA
,
Craig Nixon Departments of Physiology and Biophysics and Surgery, Indiana University School of Medicine, Indianapolis, Indiana, USA
,
Joseph L. Unthank Departments of Physiology and Biophysics and Surgery, Indiana University School of Medicine, Indianapolis, Indiana, USA
&
Julia M. Lash Departments of Physiology and Biophysics and Surgery, Indiana University School of Medicine, Indianapolis, Indiana, USA
Pages 253-260 | Received 21 Jan 1996, Accepted 06 Feb 1997, Published online: 10 Jul 2009

References

  • Alpert JS, Larsen OA, Lassen NA. Exercise and intermittent claudication: blood flow in the calf muscle during walking studied by the xenon-133 clearance method. Circulation 1969; 39: 353–359
  • Angersbach D, Jukna JJ, Nicholson CD, Ochlich P, Wilke R. The effect of short-term and long-term femoral artery ligation on rat calf muscle oxygen tension, blood flow, metabolism and function. Int J Microcirc Clin Exp 1987; 7: 15–30
  • Bylund A-C, Hammersten J, Holm J, Schersten T. Enzyme activities in skeletal muscles from patients with peripheral arterial insufficiency. Eur J Clin Invest 1976; 6: 425–429
  • Challiss R AJ, Hayes DJ, Petty R FH, Radda GK. An investigation of arterial insufficiency in rat hindlimb: a combined P-n.m.r. and bloodflow study. Biochem J 1986; 236: 461–467
  • Dahllof A-G, Bjorntorp P, Holm J, Schersten T. Metabolic activity of skeletal muscle in patients with peripheral arterial insufficiency: effect of physical training. Eur J Clin Invest 1974; 4: 9–15
  • Dawson JM, Hudlicka O. Changes in the microcirculation in slow and fast skeletal muscles with long term limitations of blood supply. Cardiovasc Res 1990; 24: 390–395
  • Dudley GA, Abraham WM, Terjung RL. Influence of exercise intensity and duration on biochemical adaptations in skeletal muscle. J Appl Physiol 1982; 53: 844–850
  • Elander A, Idstrom J-P, Schersten T, Bylund-Fellenius A-C. Metabolic adaptations to reduced muscle blood flow: I. Enzyme and metabolic alterations. Am J Physiol 1985; 249: E63–E69
  • Erney TP, Mathien GM, Terjung RL. uscle adaptations in trained rats with peripheral arterial insufficiency. Am J Physiol 1991; 260: H445–H452
  • Gute D, Laughlin MH, Amann JF. Regional changes in capillary supply in skeletal muscle of interval-spring and low-intensity, endurance-trained rats. Microcirculation 1994; 1: 183–193
  • Hammersten J, Bylund-Fellenius A-C, Holm J, Scherstein T, Krotkiewski M. Capillary supply and muscle fibre types in patients with intermittent claudication: relationships between morphology and metabolism. Eur J Clin Invest 1980; 10: 301–305
  • Hiatt WR, Regensteiner JG, Hargarten ME, Wolfel EE, Brass EP. Benefit of exercise conditioning for patients with peripheral arterial disease. Circulation 1990; 81: 602–609
  • Hudlicka O, Brown M, Egginton S. Angiogenesis in skeletal and cardiac muscle. Physiol Rev 1992; 72: 369–417
  • Hudlicka O, Brown MD, Egginton S, Dawson JM. Effect of long-term electrical stimulation on vascular supply and fatigue in chronically ischemic muscles. J Appl Physiol 1994; 77: 1317–1324
  • Hudlicka O, Price S. The role of blood flow and/or muscle hypoxia in capillary growth in chronically stimulated fast muscles. Pflugers Arch 1990; 417: 67–72
  • John HT, Warren R. The stimulus to collateral circulation. Surgery 1961; 49: 14–24
  • Johnson EC, Voyles WF, Atterbom H-A, Pathak D, Sutton MF, Greene ER. Effects of exercise training on common femoral artery blood flow in patients with intermittent claudication. Circulation 1989; 80
  • Lash JM, Nixon J-C, Unthank JL. Exercise training effects on collateral and microvascular resistances in rat model of arterial insufficiency. Am J Physiol 1995; 268: H125–H137
  • Lundgren F, Dahllof A-G, Schersten T, Bylund-Fellenius A-C. Muscle enzyme adaptations in patients with peripheral arterial insufficiency, spontaneous adaptation, effect of different treatments and consequences on walking performance. Clin Sci 1989; 77: 485–493
  • Mannarino E, Pasqualini L, Menna M, Maragoni G, Orlandi U. Effects of physical training on peripheral vascular disease: a controlled study. Angiology 1989; 40: 5–10
  • Mathien GM, Terjung RL. Influence of training following bilateral stenosis of the femoral artery in rats. Am J Physiol 1986; 250: H1050–H1059
  • Mathien GM, Terjung RL. Muscle blood flow in trained rats with peripheral arterial insufficiency. Am J Physiol 1990; 258: H759–H765
  • Maxwell LC, White TP, Faulkner JA. Oxidative capacity, blood flow, and capillarity of skeletal muscles. J Appl Physiol 1980; 49: 627–633
  • Nicholson CD, Angersbach D, Wilke R. The effect of physical training on rat calf muscle, oxygen tension, blood flow, metabolism and function in an animal model of chronic occlusive peripheral vascular disease. Int J Sports Med 1992; 13: 60–64
  • Paskins-Hurlburt AJ, Hollenburg NK. “Tissue need” and limb collateral arterial growth: skeletal contractile power and perfusion during collateral development in the rat. Circ Res 1992; 70: 546–553
  • Sorlie D, Myhre K. Effects of physical training in intermittent claudication. Scand J Clin Lab Invest 1978; 38: 217–222
  • Srere PA. Citrate svnthase. Methods Enzymol 1969; 13: 3–5
  • Weiss T, Fujita Y, Kreimeier U, Messmer K. Effect of intensive walking exercise on skeletal muscle blood flow in intermittent claudication. Angiology 1992; 43: 63–71
  • Yang HT, Dinn RF, Terjung RL. Training increases muscle blood flow in rats with peripheral arterial insufficiency. J Appl Physiol 1990; 69: 1353–1359
  • Yang HT, Ogilvie RW, Terjung RL. Low-intensity training produces muscle adaptations in rats with femoral artery stenosis. J Appl Physiol 1991; 71: 1822–1829
  • Yang HT, Ogilvie RW, Terjung RL. Peripheral adaptations in trained aged rats with femoral artery stenosis. Circ Res 1994; 74: 235–243
  • Yang HT, Ogilvie RW, Terjung RL. Training increases collateral-dependent muscle blood flow in aged rats. Am J Physiol 1995; 268: H1174–H1180
  • Zumstein A, Mathieu O, Howald H, Hoppeller H. Morphometric analysis of the capillary supply in skeletal muscles of trained and untrained subjects—its limitations in muscle biopsies. Pflugers Arch 1983; 397: 277–283

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