Relationship between maximum aerobic power and resting metabolic rate in young adult women.

@article{Smith1997RelationshipBM,
  title={Relationship between maximum aerobic power and resting metabolic rate in young adult women.},
  author={D. A. Smith and James Dollman and R. T. Withers and M. Brinkman and John P. Keeves and D. G. Clark},
  journal={Journal of applied physiology},
  year={1997},
  volume={82 1},
  pages={
          156-63
        },
  url={https://api.semanticscholar.org/CorpusID:39769617}
}
The results suggest that 1) FFM accounts for most of the differences in RMR between subjects of varyingVO2max values and 2) the RMR per unit of FFM in young healthy women is unrelated to VO2max.
View on PubMed
jap.physiology.org
32 Citations
Background Citations
9
Methods Citations
1
Results Citations
2

Tables from this paper

32 Citations

The relationship of mode and intensity of training on resting metabolic rate in women.

The data presented show that there was no significant difference in resting metabolic rate between resistance-trained, aerobically trained, and control subjects, however, when grouped by intensity of training, there was a trend for an increased resting metabolic rates in the highly trained subjects, regardless of mode of training.

Energy metabolism in sedentary and active 49- to 70-yr-old women.

Cross-sectional data on 49- to 70-yr-old women suggest that aerobic-type training results in a greater RMR per unit of body mass and also when statistical control is exerted for the effect of the metabolically active fat-free mass, there is a large range in the energy intake necessary to maintain energy balance.

Is There a Chronic Elevation in Organ-Tissue Sleeping Metabolic Rate in Very Fit Runners?

No significant correlation between V·O2peak and the difference in measured sleeping EE and calculated REE was observed for all subjects, and aerobic endurance training does not result in a chronic elevation in the organ-tissue metabolic rate in cases with V· O2peak of approximately 60 mL/min/kg.

A Comparison of the Effects of Post Exercise Basal Metabolic Rate among Continuous Aerobic, Intermittent Aerobic, and Resistance Exercise: Implications for Weight Control.

The results suggest that RE has greater effects on BMR compared to CA and IA, indicating the importance of further research to examine a possible role for RE in controlling body weight.

Resting metabolic rate after endurance exercise training.

The effect of a 12-wk endurance exercise training program on RMR is examined to provide insight into the mechanisms responsible for alterations in RMR that may occur after exercise training and the mechanism for the decrease in CON is unknown.

Resting metabolic rate of cyclists estimated by mathematical equations and obtained by indirect calorimetry

The results confirm that the equations evaluated in this study are not appropriate to estimate the RMR of athletes, and an equation considering the FFM and age variables is created to better estimate athletes´ RMR.

Resting metabolic rate, body composition and aerobic fitness comparisons between active and sedentary 54 –71 year old males

There are no RMR (MJ/d) differences between LE and LNE 54–71 y old males when statistical control is exerted for the effect of FFM and the higher value of the former group for RMR normalised to body mass disappears when this ratio is corrected for statistical bias.

Effects of endurance and resistance training on total daily energy expenditure in young women: a controlled randomized trial.

The energy-enhancing benefits of exercise training are primarily derived from the direct energy cost of exercise and not from a chronic elevation in daily energy expenditure in young, nonobese women.

Resting metabolic rate is not reduced in obese adults with Down syndrome.

It is shown that individuals with Down syndrome do not have lower RMR than their nondisabled peers, suggesting that reduced RMR does not explain the high incidence of obesity in this population.

Effect of 3 weeks of detraining on the resting metabolic rate and body composition of trained males

3-weeks detraining is not associated with a decrease in RMR (kJ/h, kJ.kg FFM−1) in trained males; hence, the data do not support a potentiation of the RMR via exercise training.

57 References

The effects of aerobic fitness on resting metabolic rate.

The results of this study strongly suggest that RMR is independent of both a person's current aerobic level and training status.

Aerobic fitness and resting energy expenditure in young adult males.

Resting metabolic rate and postprandial thermogenesis by level of aerobic fitness in young women.

The results suggest that women who exhibit high levels of exercise and aerobic fitness may be less energy efficient during the non-exercise portion of the day then their less active counterparts.

The effect of exercise-training on resting metabolic rate in lean and moderately obese individuals.

Data reported here suggest that aerobic exercise-training is associated with an elevated RMR per unit of fat free mass in both lean and moderately obese individuals.

Influence of age and endurance training on metabolic rate and hormones in healthy men.

It is concluded that endurance-trained and older men have a higher RMR than untrained younger and Older men that is independent of differences in FFW.

Resting energy metabolism and cardiovascular disease risk in resistance-trained and aerobically trained males.

Influence of physical activity and dietary restraint on resting energy expenditure in young nonobese females.

The influence of endurance training and self-reported dietary restraint on resting metabolic rate and fasting plasma hormones in 44 nonobese females characterized for body composition, maximal aerobic power (VO2 max), and daily energy intake was examined.

Resting metabolic rate and coronary-heart-disease risk factors in aerobically and resistance-trained women.

Aerobic training in young women seems to increase the rate of metabolic activity of resting tissues whereas resistance training does not, and no differences were found in cardiovascular risk in young nonobese women of differing exercise status.

Endurance training does not enhance total energy expenditure in healthy elderly persons.

It is concluded that in healthy elderly persons, endurance training enhances cardiovascular fitness, but does not increase TEE because of a compensatory decline in physical activity during the remainder of the day.

Resting metabolic rate and postprandial thermogenesis in highly trained and untrained males.

Results support a higher RMR in endurance athletes and a lower TEM even after control is exerted over differences in body composition and when groups were matched for FFW and body fat.
...