RESUMO
Two groups of men consumed two levels of protein (1.4 and 2.8 g/kg body weight) during a 40-day experimental period. Physical activity and the sweat rates were fairly high during the entire experimental phase. Urinary nitrogen excretions remained fairly constant for both groups during the training and heavy physical activity periods. Nitrogen balances were positive exclusive or inclusive of the daily sweat nitrogen losses showing nitrogen retention. The essentially unchanged blood hemoglobin and serum protein levels showed that the control group was receiving an adequate protein intake to maintain nitrogen equilibrium, under conditions of fairly heavy physical acitvity. Although others may have suggested some compensatory reductions in the urinary excretion of nitrogen under conditions of profuse sweating, our data have not supported these conclusions. It appears that sweat losses of nutrients become relevant in determining requirements and will increase in importance as sweat rates are increased. The data again demonstrate that the nutrient losses during profuse sweating consitute an error that could seriously invalidate the accuracy of metabolic balance studies. In this study, although the men did increase body protein stores and muscle mass with high-protein diets, the additional body protein did not enhance physiological work performance. It is suggested that in this sutdy 100 g of protein/day was adequate for men performing fairly heavy work.
Assuntos
Proteínas Alimentares/administração & dosagem , Esforço Físico , Proteínas/metabolismo , Adulto , Proteínas Sanguíneas/metabolismo , Composição Corporal , Humanos , Masculino , Nitrogênio/metabolismo , Necessidades Nutricionais , Educação Física e Treinamento , Suor/fisiologiaRESUMO
Three commercial sport drinks, solutions of their individual minerals and glucose, and water were used to maintain water balances in six men during 4 h of physical activity in a 35 degrees C room. Each solution was provided for 5 consecutive days to each man during the 12-wk study. Complete mineral and water balances (including sweat losses) were conducted. Oxygen consumption and carbon dioxide production were measured during two levels of sub-maximal and during a maximal treadmill performance test. All of the solutions, including water, were equally effective in maintaining water and mineral balances, and moderate physical performance while the men were consuming an adequate all liquid diet. All of the solutions containing carbohydrates increased respiratory exchange ratios. These increases were significant during maximal performance for only two of the commercial products. These two products also produced the higher values for most of the performance evaluations, although they were not generally significantly different from values obtained while other solutions or water were consumed. The major benefit of these commercial sport drinks are their prevention of hypohydration due to an increase in voluntary fluid intakes.
Assuntos
Bebidas , Metabolismo Energético , Esforço Físico , Equilíbrio Hidroeletrolítico , Adulto , Peso Corporal , Eletrólitos/sangue , Humanos , MasculinoRESUMO
In studies of 12 volunteer subjects, VC and ERV significantly decreased during a 3-d sojourn at 4,300 m while VE, VT, TLC, FRC and RV were elevated. Acid-base parameters showed typical changes associated with translocation to high altitude. Thus, PaO2, PaCO2 and SaO2 were immediately reduced upon translocation to 4,300 m, while the compensatory reduction in arterial HCO3- concentration was delayed temporarily by 24 h; pH, however, remained essentially unchanged throughout the sojourn. Upon relocation to 1,600 m, there was a gradual return to VC, ERV, TLC and RV to prealtitude values. FRC, on the other hand, remained elevated as did VE and VT through the third day of relocation to 1,600 m. PaCO2 and arterial HCO3- concentration showed a slight delay in returning to prealtitude values upon relocation, while the remainder of the acid-base measurements returned to prealtitude values within 24 h. The conclusion drawn from these results indicates a physiological adjustment period as long as 3 d may be required for individuals returning from a 72-h sojourn to high altitude (4,300 m).
Assuntos
Aclimatação , Altitude , Adulto , Humanos , Medidas de Volume Pulmonar , Masculino , Fatores de TempoRESUMO
The effects of a high-glucose meal on pulmonary function were observed in seven healthy males at medium (1,600 m) and high (4,300 m) altitude. Thirty minutes after the ingestion of 410 kcal (109.9 g cerelose) of glucose, peak serum glucose values were noted with a subsequent decrease over 3 h to below fasting levels at both elevations. At the same time, triglyceride levels continued to decline from 104.2 to 83.3 mg at 1,600 m and 103.7 to 80.5 mg/100 ml at 4,300 m, with differences being significant after 2 h. Both V-E and V-T increased in response to translocation to altitude; however, only V-T increased by 10.9% and 13.3% at 0.5 h for 1,600 m and 4,300 m, respectively. The V-o-2 increased during glucose elevation at 4300 m, while P-A-O2 remained essentially unchanged except for differences associated with translocation to altitude. A 13.9% increase was noted in D-L-CO followign glucose ingestion at 4,300 m along with a decreased triglyceride levels. The elevated D-L-CO values suggest an increase in gas exchange at the alveolar-capillary (A-c) level following the ingestion of a glucose meal for individuals transported to high altitude.