Louise Mavaddat scite author profile

We examined vascular function in an inactive muscle bed, the forearm, during lower limb exercise and determined the contribution of endothelium-derived nitric oxide (NO) to the hyperemic response. Eight young males were randomized to participate in two studies, each consisting of two bouts of lower limb exercise, separated by a 30-min recovery. Peak forearm blood flow (PFBF) and mean blood flow (MFBF) were continuously recorded at baseline and during exercise using continuous high-resolution vascular ultrasound and Doppler flow velocity measurement. During one session, the brachial artery was cannulated to allow continuous infusion of saline or N(G)-monomethyl-L-arginine (L-NMMA), an inhibitor of NO synthase. The alternate session was performed to control for possible effects of repeated exercise. At 60, 100, and 160 W, L-NMMA significantly decreased both PFBF and MFBF compared with the saline infusion. These results suggest that systemic production of NO occurs during exercise in resting vessel beds, which do not feed metabolically active tissue. This finding provides a plausible explanation for the antiatherogenic benefits of exercise.

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Effect of Lower Limb Exercise on Forearm Blood Flow

Green¹,

Mavaddat²,

Cheetham³

et al. 2002

Medicine & Science in Sports & Exercise

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Effect of lower limb exercise and cardiac pacing on forearm blood flow: Contribution of nitric oxide (NO)?

Cheetham¹,

O’Driscoll²,

Mavaddat³

et al. 2003

Heart, Lung and Circulation

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Louise Mavaddat

Effect of lower limb exercise on forearm vascular function: contribution of nitric oxide

Effect of Lower Limb Exercise on Forearm Blood Flow

Effect of lower limb exercise and cardiac pacing on forearm blood flow: Contribution of nitric oxide (NO)?

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