Insulin-mediated increases in limb blood flow are thought to enhance glucose uptake by skeletal muscle. Using the perfused rat hindlimb, we report that macro laser Doppler flowmetry (LDF) probes positioned on the surface of muscle detect changes in muscle capillary (nutritive) flow. With this as background, we examined the effects of insulin and adrenaline (epinephrine), which are both known to increase total leg blood flow, on the LDF signals from scanning and stationary probes on the muscle surface in vivo. The aim is to assess the relationship between capillary recruitment, total limb blood flow and glucose metabolism. Glucose infusion rate, femoral arterial blood flow (FBF) and muscle LDF, using either scanning or a stationary probe positioned over the biceps femoris muscle, were measured. With scanning LDF, animals received insulin (10 m-units·min-1·kg-1), adrenaline (0.125 µg·min-1·kg-1) or saline. By 1 h, insulin had increased the glucose infusion rate from 0 to 128 µmol·min-1·kg-1 and the scanning LDF had increased by 62±8% (P < 0.05), but FBF was unaffected. Adrenaline increased FBF by 49% at 15 min, but LDF was unchanged. With saline at 1 h, neither FBF nor LDF had changed. With the stationary LDF surface probe, insulin at 1 h had increased FBF by 47% (P < 0.05) and LDF by 47% (P < 0.05) relative to saline controls. Adrenaline increased FBF (39%), but LDF was unaltered. The stimulation of LDF by insulin is consistent with capillary recruitment (nutritive flow) as part of the action of this hormone in vivo. The recruitment may be independent of changes in total flow, as adrenaline, which also increased FBF, did not increase LDF. The time of onset suggests that LDF closely parallels glucose uptake. Thus, depending on probe design, measurement of muscle haemodynamic effects mediated by insulin in normally responsive and insulin-resistant patients should be possible.
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Research Article|
January 30 2001
Insulin stimulates laser Doppler signal by rat muscle in vivo, consistent with nutritive flow recruitment
Andrew D. H. CLARK;
Andrew D. H. CLARK
*Division of Biochemistry, Medical School, University of Tasmania, GPO Box 252–58, 7001 Hobart, Australia
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Eugene J. BARRETT;
Eugene J. BARRETT
†Health Sciences Center, University of Virginia, VA 22908, Charlottesville, U.S.A.
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Stephen RATTIGAN;
Stephen RATTIGAN
*Division of Biochemistry, Medical School, University of Tasmania, GPO Box 252–58, 7001 Hobart, Australia
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Michelle G. WALLIS;
Michelle G. WALLIS
*Division of Biochemistry, Medical School, University of Tasmania, GPO Box 252–58, 7001 Hobart, Australia
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Michael G. CLARK
*Division of Biochemistry, Medical School, University of Tasmania, GPO Box 252–58, 7001 Hobart, Australia
Correspondence: Professor Michael Clark (e-mail [email protected]).
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Publisher: Portland Press Ltd
Received:
April 14 2000
Revision Received:
September 12 2000
Accepted:
November 14 2000
Online ISSN: 1470-8736
Print ISSN: 0143-5221
The Biochemical Society and the Medical Research Society © 2001
2001
Clin Sci (Lond) (2001) 100 (3): 283–290.
Article history
Received:
April 14 2000
Revision Received:
September 12 2000
Accepted:
November 14 2000
Citation
Andrew D. H. CLARK, Eugene J. BARRETT, Stephen RATTIGAN, Michelle G. WALLIS, Michael G. CLARK; Insulin stimulates laser Doppler signal by rat muscle in vivo, consistent with nutritive flow recruitment. Clin Sci (Lond) 1 March 2001; 100 (3): 283–290. doi: https://doi.org/10.1042/cs1000283
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