Hostname: page-component-586b7cd67f-dsjbd Total loading time: 0 Render date: 2024-11-25T02:12:11.203Z Has data issue: false hasContentIssue false
  • English
  • Français

Thermogenic responses to graded doses of noradrenaline in undernourished Indian male subjects

Published online by Cambridge University Press:  09 March 2007

A. V. Kurpad ,
R. N. Kulkarni ,
M. L. Sheela  and
P. S. Shetty
A. V. Kurpad
Affiliation:
Nutrition Research Centre (ICMR), Department of Physiology, St John's Medical College, Bangalore 560 034, India
R. N. Kulkarni
Affiliation:
Nutrition Research Centre (ICMR), Department of Physiology, St John's Medical College, Bangalore 560 034, India
M. L. Sheela
Affiliation:
Nutrition Research Centre (ICMR), Department of Physiology, St John's Medical College, Bangalore 560 034, India
P. S. Shetty
Affiliation:
Nutrition Research Centre (ICMR), Department of Physiology, St John's Medical College, Bangalore 560 034, India
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

1. Seventeen male subjects with an energy intake of 10.6 (sd 1.7) MJ/d and ten male undernourished labourers with an energy intake of 8.0 (sd 1.2) MJ/d were studied. The controls were subdivided into ten underweight controls with a body mass index (weight/height2; BMI) < 18 (17.2 (sd 0.9)) and seven normal-weight controls with a BMI > 20 (21.3 (sd 1.6)), while the undernourished labourers had a BMI < 18 (16.8 (sd 1.2)).

2. Comparison of thermogenic responses to increasing doses of noradrenaline showed no overall significant inter-group differences when subjected to a nested analysis of variance (ANOVA). For the initial doses of 0.05 and 0.1 μg noradrenaline, significantly lower responses were seen in the undernourished subjects, while the highest dose showed comparable responses in all three groups. Thermogenic responses to the initial two doses, when corrected for fat-free mass (FFM) differences, were 40 % lower in the undernourished group when compared with the underweight group with similar BMI and FFM values. However, this finding was not statistically significant.

3. The basal oxygen consumption of the undernourished group, expressed per unit FFM, was significantly higher than that of the controls.

Type
Research Article
Information
British Journal of Nutrition , Volume 61 , Issue 2 , March 1989 , pp. 201 - 208
Copyright
Copyright © The Nutrition Society 1989

References

Avadhany, S. T. & Shetty, P. S. (1986) Determination of total body water in vivo by ethanol dilution in man. Indian Journal of Medical Research 84, 217222.Google ScholarPubMed
Brozek, J. (1955) Nutrition and behaviour; psychologic changes in acute starvation with hard physical work. Journal of the American Dietetic Association 31, 7792.CrossRefGoogle ScholarPubMed
Durnin, J. V. G. A. & Womersley, J. (1974) Body fat assessed from total body density and its estimation from skinfold thickness; measurements on 481 men and women aged 16-72 years. British Journal of Nutrition 32, 7792.CrossRefGoogle Scholar
Holliday, M. A., Potter, D., Jarrah, A. & Bearg, S. (1967) The relation of metabolic rate to body weight and organ size. Pediatric Research 1, 185195.CrossRefGoogle ScholarPubMed
James, W. P. T. & Shetty, P. S. (1982) Metabolic adaptation and energy requirements in developing countries. Human Nutrition: Clinical Nutrition 36C, 331336.Google Scholar
James, W. P. T. & Trayhurn, P. (1976) The metabolic basis of subnormal thermogenesis in obesity. Lancet ii, 770772.CrossRefGoogle Scholar
James, W. P. T., Trayhurn, P. & Garlick, P. (1987). An integrated view of the metabolic and genetic basis for obesity. In Recent Advances in Obesity Research Vol. 3, pp. 220227 [Bjorntorp, P., Cairella, M. and Howard, A.N., editors]. London: John Libbey.Google Scholar
Jéquier, E. (1984) Energy expenditure in obesity. Clinical Endocrinology and Metabolism 13, 563580.Google Scholar
Jung, R. T., Shetty, P. S. & James, W. P. T. (1979) Reduced thermogenesis in obesity. Nature 279, 322323.CrossRefGoogle ScholarPubMed
Katzeff, H. L., O'Connel, N., Horton, E. S., Danforth, E. Jr, Houng, J. B. & Landsberg, L. (1986) Metabolic studies in human obesity during over nutrition and undernutrition; thermogenic and hormonal responses to NE. Metabolism 35,166175.CrossRefGoogle Scholar
Keys, A., Brozeck, J., Henschel, A., Mickelson, O. & Taylor, H. B. (1950) The Biology of Human Starvation. Minneapolis: University of Minnesota Press.CrossRefGoogle Scholar
Kurpad, A. V., Kulkarni, R. N. & Shetty, P. S. (1988) Potentiation of thermogenic responses during norepinephrine infusions in human subjects. Medical Science Research 16, 997998.Google Scholar
Norgan, N. G. & Ferro-Luzzi, A. (1985) The estimation of body density in man: are general equations general? Annals of Human Biology 12, 115.Google Scholar
Sheela, M. L., Kurpad, A. V., Kulkarni, R. N. & Shetty, P. S. (1988) Prediction of steady state oxygen consumption during norepinephrine infusions in man. Metabolism 37, 907909.CrossRefGoogle Scholar
Shetty, P. S. (1980). Studies on protein and energy restriction and dietary thermogenesis in obesity and chronic undernutrition. PhD Thesis, University of Cambridge.Google Scholar
Shetty, P. S., Sheela, M. L., Murgatroyd, P. R. & Kurpad, A. V. (1987) An open-circuit indirect whole body calorimeter for the continuous measurement of energy expenditure of man in the tropics. Indian Journal of Medical Research 85, 453460.Google Scholar
Trayhurn, P. & James, W. P. T. (1981). Thermogenesis: dietary and non-dietary aspects. In The Body Weight Regulatory System: Normal and Disturbed Mechanisms, pp. 97105 [Cioffi, L.A., James, W. P. T. and Van Itallie, T. B., editors]. New York: Raven Press.Google Scholar
Welle, S. & Campbell, R. G. (1983) Studies of thermogenesis by carbohydrate overfeeding. Evidence against sympathetic nervous system activation. Journal of Clinical Investigation 72, 916925.Google Scholar