Abstract
Objective: To reassess the validity of the Schofield equations for predicting basal metabolic rate (BMR) in the obese.
Data: The data collection compiled from many studies by Schofield in 1985.
Methods: Nonparametric curve fitting and comparison of groups.
Results: BMR increases more slowly at heavier weights in men (above about 75 kg) and women (above about 65 kg), and to ignore this is to predict overestimates of BMR. Data obtained from studies of different populations show substantial differences, which are influential when data are combined.
Conclusions: The Schofield equations are unsuitable for obese populations. Given that current Western populations exhibit prevalences of obesity many times greater than those in the Schofield database, this indicates the need for further study of suitable predictors for these individuals.
Sponsorship: Ministry of Agriculture, Fisheries and Food, UK.
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References
Chitre, RG, Moseby, AM, Thien, K & Hla Pe, U (1959). Studies on basal metabolism of Burmese people. J. Postgrad. Med., 5, 129–137.
DOH (1999). Health Survey for England, 1999, London: UK Department of Health available at www.doh.gov.uk/public/summary1.htm
FAO/WHO/UNU (1985). Energy and protein requirements, Technical Report Series no. 724 Geneva: WHO
Felloni, G (1936). Contributo alla conoscenza de metabolismo di base degli Italiani. Nota I: il metabolismo di base di sogetti dai 19 ai 25 anni. Quad. Nutr., 3, 419–442.
Forbes, GB (1982). Human Body Composition: Growth, Ageing, Nutrition and Activity, New York: Springer
Forbes, GB (1987). Lean body mass–fat interrelationship in humans. Nutr. Rev., 45, 225–231.
Hastie, TJ & Tibshirani, RJ (1990). Generalized Additive Models, London: Chapman and Hall
Hayter, JE & Henry, CJK (1994). A reexamination of basal metabolic-rate predictive equations—the importance of geographic origin of subjects in sample selection. Eur. J. Clin. Nutr., 48, 702–707.
James, WPT (1992). From S.D.A. to D.I.T. to T.E.F. InEnergy Metabolism: Tissue Determinants and Cellular Corollaries, ed. JM Kinney
Jequier, E (1984). Energy expenditure in obesity. Clin. Endocrinol. Metab., 13, (3) 563–580.
Lenti, C (1937). Contributo alla conoscenza de metabolismo di base degli Italiani. Nota IV: il metabolismo di base di sogetti dai 20 ai 25 anni. Quad. Nutr., 4, 192–225.
McNeill, G, Rivers, JPW, Payne, PR, de Britto, JS & Abel, R (1987). Basal metabolic rate of Indian man. No evidence of metabolic adaptation to a low plane of nutrition. Hum. Nutr. Clin. Nutr., 41c, 473–483.
Miller, CD & Benedict, FG (1937). I: Basal Metabolism of Normal Young Men and Women of Various Races in Hawaii, University of Hawaii Research Publications, no. 15, p 1 Honolulu: University of Hawaii
Miller, AT & Blyth, CS (1953). Lean body mass as a metabolic reference standard. J. Appl. Physiol., 5, 311–316.
Occhuito, A & Pepe, M (1940). Contributo alla conoscenza de metabolismo di base degli Italiani. Nota X: il metabolismo di base di sogetti (maschi) di oltre 20 anni. Quad. Nutr., 7, 142–154.
Pepe, M (1938). Contributo alla conoscenza de metabolismo di base degli Italiani. Nota VII: il metabolismo di base di sogetti dai 18 ai 24 anni. Quad. Nutr., 5, 206–214.
Prentice, AM, Black, AE, Murgatroyd, PR, Goldberg, GR & Coward, WA (1989). Metabolism or appetite: questions of energy balance with particular reference to obesity. J. Hum. Nutr. Diet, 2, 95–104.
Pullicino, E, Copperstone, C, Luzi, L, McNeill, G & Elia, M (1996). Relationship between anthropometric indices of body fat distribution and basal energy metabolism in healthy Maltese women. Acta Diabetol., 33, 198–204.
Rucker, RB (1978). Elevated metabolic rates in obesity. Lancet, 8080, 106–107.
Schofield, W (1985a). Predicting basal metabolic rate, new standards and review of previous work. Clin. Nutr., 39C, (Suppl 1) 5–41.
Schofield, C (1985b). An annotated bibliography of source material for basal metabolic rate data. Clin. Nutr., 39C, (Suppl 1) 42–91.
Webb, P (1981). Energy expenditure and fat free mass in men and women. J. Clin. Nutr., 34, 1816–1826.
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Horgan, G., Stubbs, J. Predicting basal metabolic rate in the obese is difficult. Eur J Clin Nutr 57, 335–340 (2003). https://doi.org/10.1038/sj.ejcn.1601542
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DOI: https://doi.org/10.1038/sj.ejcn.1601542
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