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1.
Pulmonary gas exchange after foam sclerotherapy.
Moro, L, Rossi Bartoli, I, Cesari, M, Scarlata, S, Serino, FM, Antonelli Incalzi, R
JAMA dermatology. 2014;(2):207-9
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2.
Influence of dichloroacetate on pulmonary gas exchange and ventilation during incremental exercise in healthy humans.
Wilkerson, DP, Campbell, IT, Blackwell, JR, Berger, NJ, Jones, AM
Respiratory physiology & neurobiology. 2009;(3):224-9
Abstract
We hypothesised that dichloroacetate (DCA) would reduce blood lactate accumulation, pulmonary carbon dioxide output (.V(CO2)) and ventilation (.V(E)) at sub-maximal work rates, and improve exercise tolerance during incremental exercise in healthy humans. Nine males (mean+/-SD, age 27+/-4 years) completed, in random order, two ramp incremental cycle ergometer tests to the limit of tolerance following the intravenous infusion of DCA (75 mg/kg body mass in 80 ml saline) or an equivalent volume of saline (as placebo). Relative to control, blood [lactate] was significantly reduced by DCA immediately before exercise (CON: 0.7+/-0.2 vs. DCA: 0.5+/-0.2mM; P<0.05) and throughout exercise until 630s (P<0.05). Blood [HCO(3)(-)] was significantly higher in the DCA condition from 360s until 720s of exercise (P<0.05). .V(CO2) and .V(E) were both lower throughout exercise in the DCA condition, with the differences reaching significance at 90 and 180s for .V(CO2) (P<0.05) and at 90, 180, 450, 540, 630, and 810s for .V(E) (P<0.05). Exercise tolerance was not significantly altered (CON: 1029+/-109 vs. DCA: 1045+/-101s). Infusion of DCA resulted in reductions in blood [lactate], .V(CO2) and .V(E) during sub-maximal incremental exercise, consistent with the existence of a link between the bicarbonate buffering of metabolic acidosis and increased CO(2) output. However, the reduced blood lactate accumulation during sub-maximal exercise with DCA did not enhance exercise tolerance.
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3.
Effects of exogenous growth hormone on resting pulmonary function in children with thermal injury.
Suman, OE, Mlcak, RP, Herndon, DN
The Journal of burn care & rehabilitation. 2004;(3):287-93
Abstract
Burned children living beyond the acute phase of injury often have extensive physical functional limitations, such as impaired spirometry pulmonary function (PF). In patients with both lung disease and nutritional compromise, such as cystic fibrosis, studies suggest that growth hormone (GH) therapy improves PF. However, whether GH will improve PF in burned children is presently unknown. We therefore evaluated whether GH administration of 0.05 mg/kg/day for 1 year would improve PF in burned children. Thirty children, aged 7 to 18, with a 40% or more total body surface area burned were randomized into two groups and studied. One group received GH (n = 17) and the other received saline (n = 13). No differences were noted at hospital discharge between groups in age, % total body surface area, height, and weight. At 12 months after burn, both groups had similar height and weight. Baseline PF were below normal in both groups, but no statistical differences were noted between groups. At 1 year, there was a significant increase in PF in both groups; however, this increase in PF was similar in both groups. We conclude that the response in PF in burned children from the administration of GH prescribed for up to 1 year is limited.
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4.
The effects of a single bout of exercise on resting energy expenditure and respiratory exchange ratio.
Jamurtas, AZ, Koutedakis, Y, Paschalis, V, Tofas, T, Yfanti, C, Tsiokanos, A, Koukoulis, G, Kouretas, D, Loupos, D
European journal of applied physiology. 2004;(4-5):393-8
Abstract
We investigated the effects of a single bout of aerobic and resistance exercise of similar relative intensity and duration on resting energy expenditure (REE) and substrate utilisation. Ten young healthy males volunteered [age 22 (1.8) years, weight 76 (7.9) kg, height 176 (4.1) cm, percentage body fat 10.5 (4.0)%; mean (SEM)]. They randomly underwent three conditions in which they either lifted weights for 60 min at 70-75% of 1-RM (WL), ran for 60 min at 70-75% of maximal oxygen intake (R) or did not exercise (C). REE and substrate utilisation, determined via respiratory exchange ratio ( R), were measured prior to exercise, and 10, 24, 48 and 72 h post-exercise. It was revealed that REE was significantly elevated ( P<0.05) 10 and 24 h after the end of WL [2,124 (78) and 2,081 (76) kcal, respectively] compared to pre-exercise [1,972 (82) kcal]. REE was also significantly increased ( P<0.05) 10 and 48 h after the completion of R [2,150 (73) and 1,995 (74) kcal, respectively] compared to pre-exercise data [1,862 (70) kcal]. R was lower 10 and 24 h following either WL or R [0.813 (0.043); 0.843 (0.040) and 0.818 (0.021); 0.832 (0.021), respectively] compared to baseline measurements [0.870 (0.025) and 0.876 (0.04), respectively]. Creatine kinase was significantly elevated ( P<0.05) 24 h after both WL and R, whereas delayed onset muscle soreness became significantly elevated ( P<0.05) 24 h after only WL. There were no significant changes for any treatment in thyroid hormones (T(3) and T(4)). These results suggest that a single bout of either WL or R exercise, characterised by the same relative intensity and duration, increase REE and fat oxidation for at least 24 h post-exercise.
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5.
Assessment of exhaled gases in ventilated preterm infants.
Hitka, P, Cerný, M, Vízek, M, Wilhelm, J, Zoban, P
Physiological research. 2004;(5):561-4
Abstract
Hydrogen peroxide (H2O2) production in exhaled air was measured in ventilated preterm newborns at 5, 24 and 48 hours after delivery, using originally designed method of exhaled breath condensate (EBC) collection. H2O2 production in expired gas was 812+/-34 pmol/20 min during the first measurement and then declined to 389+/-21 at 24 hours and 259+/-26 pmol/20 min at 48 hours.
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6.
Insulin sensitivity measured by the minimal model: no associations with fasting respiratory exchange ratio in trained athletes.
Goedecke, JH, Levitt, NS, St Clair Gibson, A, Grobler, L, Noakes, TD, Lambert, EV
Metabolism: clinical and experimental. 2001;(11):1286-93
Abstract
The aim of this study was to examine the role of fasting insulin concentrations and tissue insulin sensitivity on whole-body substrate oxidation in 61 well-trained subjects. Subjects underwent a frequently sampled intravenous glucose tolerance test (FSIVGT) after a 10- to 12-hour overnight fast. Minimal model analysis was used to determine insulin sensitivity (S(i)). A week later, fasting (10- to 12-hour) respiratory exchange ratio (RER) was measured at rest and during exercise at 25%, 50%, and 70% of peak power output (W(peak)). Prior to these measurements, training volume, dietary intake, and muscle fiber composition, substrate concentrations, and enzyme activities were determined. The average fasting plasma insulin concentration was 7.3 +/- 2.4 microU/mL (4.0 to 10.5 microU/mL), and the mean S(i) was 14.0 +/- 6.1 x (10(-4) min(-1) x microU(-1) x mL(-1)) (2.6 to 26.3 x 10(-4) min(-1) x microU(-1) x mL(-1)). There was no significant correlation between fasting plasma insulin concentration and S(i) (r = -.14, P =.336) or between these measurements and fasting RER, measured at rest and during exercise at 25%, 50%, and 70% W(peak). Only VO(2max) and the proportion of type 1 muscle fibers were significantly correlated with S(i) (r =.30, P =.045 and r =.34, P =.026, respectively), and waist-to-hip ratio (WHR) was significantly correlated with fasting plasma insulin concentration (r =.35, P =.006). In conclusion, S(i) and fasting plasma insulin concentration were not associated with fasting RER at rest and during exercise of increasing intensity in trained athletes who have high S(i).