Abstract: | Shoemaker, J. Kevin, Prasant Pandey, Michael D. Herr, DavidH. Silber, Qing X. Yang, Michael B. Smith, Kristen Gray, and LawrenceI. Sinoway. Augmented sympathetic tone alters muscle metabolismwith exercise: lack of evidence for functional sympatholysis. J. Appl. Physiol. 82(6):1932-1938, 1997.It is unclear whether sympathetic tone opposesdilator influences in exercising skeletal muscle. We examined highlevels of sympathetic tone, evoked by lower body negative pressure(LBNP, 60 mmHg) on intramuscular pH and phosphocreatine (PCr)levels (31P-nuclear magnetic resonance spectroscopy) duringgraded rhythmic handgrip (30 contractions/min; ~17, 34, 52 and 69%maximal voluntary contraction). Exercise was performedwith LBNP and without LBNP (Control). At the end of exercise, LBNPcaused lower levels of muscle pH (6.59 ± 0.09) comparedwith Control (6.78 ± 0.05; P < 0.05). PCr recovery, an index of mitochondrial respiration, was lessduring the recovery phase of the LBNP trial. Exercise mean arterialpressure was not altered by LBNP. The protocols were repeated withmeasurements of forearm blood flow velocity and deep venous samples(active forearm) of hemoglobin (Hb) saturation, pH, and lactate. WithLBNP, mean blood velocity was reduced at rest, during exercise, andduring recovery compared with Control (P < 0.05). Also, venous Hbsaturation and pH levels during exercise and recovery were lower withLBNP and lactate was higher compared with Control(P < 0.05). We concludethat LBNP enhanced sympathetic tone and reduced oxygen transport. Athigh workloads, there was a greater reliance on nonoxidativemetabolism. In other words, sympatholysis did not occur. |