Meal frequency and energy balance | British Journal of Nutrition | Cambridge Core (original) (raw)

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.

Several epidemiological studies have observed an inverse relationship between people's habitual frequency of eating and body weight, leading to the suggestion that a ‘nibbling’ meal pattern may help in the avoidance of obesity. A review of all pertinent studies shows that, although many fail to find any significant relationship, the relationship is consistently inverse in those that do observe a relationship. However, this finding is highly vulnerable to the probable confounding effects of post hoc changes in dietary patterns as a consequence of weight gain and to dietary under-reporting which undoubtedly invalidates some of the studies. We conclude that the epidemiological evidence is at best very weak, and almost certainly represents an artefact. A detailed review of the possible mechanistic explanations for a metabolic advantage of nibbling meal patterns failed to reveal significant benefits in respect of energy expenditure. Although some short-term studies suggest that the thermic effect of feeding is higher when an isoenergetic test load is divided into multiple small meals, other studies refute this, and most are neutral. More importantly, studies using whole-body calorimetry and doubly-labelled water to assess total 24h energy expenditure find no difference between nibbling and gorging. Finally, with the exception of a single study, there is no evidence that weight loss on hypoenergetic regimens is altered by meal frequency. We conclude that any effects of meal pattern on the regulation of body weight are likely to be mediated through effects on the food intake side of the energy balance equation.

References

Acheson, K. J., Flatt, J.-P. & Jéquier, E. (1982). Glycogen synthesis versus lipogenesis after a 500 gram carbohydrate meal in man. Metabolism 31, 1234–1240.CrossRef Google Scholar PubMed

Adams, C. E. & Morgan, K. J. (1981). Periodicity of eating: implications for human food consumption. Nutrition Research 1, 525–550.CrossRef Google Scholar

Anderson, I. & Rossner, S. (1996). Meal patterns in obese and normal weight men: The ‘Gustaf’ study. European Journal of Clinical Nutrition 50, 639–646.Google Scholar

Belko, A. Z. & Barbieri, T. F. (1987). Effect of meal size and frequency on the thermic effect of food. Nutrition Research 7, 237–242.CrossRef Google Scholar

Bellisle, F. (1995). Grignotage et distribution circadienne de la consommation alimentaire (Nibbling and circadian distribution of food consumption). Cahiers de Nutrition Dietetique 30, 387–394.Google Scholar

Black, A. E., Prentice, A. M., Goldberg, G. R., Jebb, S. A., Bingham, S. A., Livingstone, M. B. E. & Coward, W. A. (1993). Measurements of total energy expenditure provide insights into the validity of dietary measurements of energy intake. Journal of the American Dietetic Association 93, 572–579.CrossRef Google Scholar PubMed

Bortz, W. M., Wroldsen, A., Issekutz, B. & Rodahl, K. (1966). Weight loss and frequency of feeding. New England Journal of Medicine 274, 376–379.CrossRef Google Scholar PubMed

Charzewska, J., Kulesza, W., Brzezinska, J. & Chwojnowska, Z. (1981). Relationship between obesity or overweight development and the frequency of meals, their distribution during the day and consumption of atherogenic food products. Zywienie Czlowieka 8, 217–227 (in Polish).Google Scholar

Cohn, C. & Allweiss, M. D. (1963). Fats, rats, chickens, and men - results of feeding frequency. American Journal of Clinical Nutrition 12, 255–265.Google Scholar

Dallosso, H., Murgatroyd, P. R. & James, W. P. T. (1982). Feeding frequency and energy balance in adult males. Human Nutrition: Clinical Nutrition 36C, 25–39.Google Scholar PubMed

de Castro, J. (1997). Socio-cultural determinants of meal size and frequency. British Journal of Nutrition 77, Suppl. 1, S39–S55.CrossRef Google Scholar PubMed

Debry, G., Azouaou, R., Vassilitch, I. & Mottaz, G. (1973). Ponderal losses in obese subjects submitted to restricted diets differing by nibbling and by lipid and carbohydrate. In Energy Balance in Man, pp. 305–310 [Apfelbaum, M.editor]. Paris: Masson.Google Scholar

Dreon, D. M., Frey-Hewitt, B., Ellsworth, N., Williams, P. T., Terry, E. B. & Wood, P. D. (1988). Dietary fat: carbohydrate ratio and obesity in middle-aged men. American Journal of Clinical Nutrition 47, 995–1000.CrossRef Google Scholar PubMed

Edelstein, S. L., Barrett-Connor, E. L., Wingard, D. L. & Cohn, B. A. (1992). Increased meal frequency associated with decreased cholesterol concentrations; Rancho Bernardo, CA, 1984–1987. American Journal of Clinical Nutrition 55, 664–669.CrossRef Google Scholar

Fabry, P., Fodor, J., Hejl, Z., Braun, T. & Zvolankova, K. (1964). The frequency of meals: its relation to overweight, hypercholesterolaemia, and decreased glucose tolerance. Lancet ii, 614–615.CrossRef Google Scholar

Fabry, P., Hejda, S., Cerna, K., Osoncova, K., Pechor, J. & Zvolankova, K. (1966). Effect of meal frequency in schoolchildren: changes in weight-height proportion and skinfold thickness. American Journal of Clinical Nutrition 18, 358–361.CrossRef Google Scholar PubMed

Fabry, P. & Tepperman, J. (1970). Meal frequency - a possible factor in human pathology. American Journal of Clinical Nutrition 23, 1059–1068.CrossRef Google Scholar PubMed

Finkelstein, B. & Fryer, B. A. (1971). Meal frequency and weight reduction of young women. American Journal of Clinical Nutrition 24, 465–468.CrossRef Google Scholar PubMed

Flatt, J.-P. (1985). Energetics of intermediary metabolism. Substrate and Energy Metabolism, pp. 58–69 [Garrow, J. S. and Halliday, D. editors]. London: John Libbey.Google Scholar

Garrow, J. S., Durrant, M., Blaza, S., Wilkins, D., Royston, P. & Sunkin, S. (1981). The effect of meal frequency and protein concentration on the composition of the weight lost by obese subjects. British Journal of Nutrition 45, 5–15.CrossRef Google Scholar PubMed

Gatenby, S. J. (1997). Eating frequency: methodological and dietary aspects. British Journal of Nutrition 77, Suppl. 1, S7–S20.CrossRef Google Scholar PubMed

Goldberg, G. R., Black, A. E., Jebb, S. A., Cole, T. J., Murgatroyd, P. R., Coward, W. A. & Prentice, A. M. (1991). Critical evaluation of energy intake data using fundamental principles of energy physiology. 1. Derivation of cut-off limits to identify under-recording. European Journal of Clinical Nutrition 45, 569–581.Google Scholar PubMed

Heitmann, B. L. & Lissner, L. (1995). Dietary underreporting by obese individuals - is it specific or nonspecific? British Medical Journal 311, 986–989.CrossRef Google Scholar PubMed

Hejda, S. & Fabry, P. (1964). Frequency of food intake in relation to some parameters of the nutritional status. Nutrition Dieta 6, 216–221.Google Scholar PubMed

Jenkins, D. J. A. (1997). Carbohydrate tolerance and food frequency. British Journal of Nutrition 77, Suppl. 1, S71–S81.CrossRef Google Scholar PubMed

Jéquier, E. (1992). Caloric balance versus nutrient balance. Energy Metabolism: Tissue Determinants and Cellular Corollaries, pp. 123–136 [Kinney, J. M. and Tucker, H. N.editors]. New York: Raven Press.Google Scholar

Kant, A. K. (1995). Frequency of eating occasions and weight change in NHANES I Epidemiologic Follow-up Study. International Journal of Obesity 19, 468–474.Google Scholar PubMed

Kinabo, J. L. D. & Durnin, J. V. G. A. (1990). Effect of meal frequency on the thermic effect of food in women. European Journal of Clinical Nutrition 44, 389–395.Google Scholar PubMed

King, S. M. & Gibney, M. J. (1997). The effect of dietetic advice on incorporating altered meal frequency for hyperlipidaemic patients on low-fat diets. Proceedings of the Nutrition Society 56, 131A.Google Scholar

Kulesza, W. (1980). Dietary intake of obese women. Zywienie Czlowieka 7, 69–76.Google Scholar

LeBlanc, J., Mercier, I. & Nadeau, A. (1993). Components of postprandial thermogenesis in relation to meal frequency in humans. Canadian Journal of Physiology and Pharmacology 71, 879–883.CrossRef Google Scholar PubMed

Lichtman, S. W., Pisarska, K., Berman, E. R., Pestone, H., Dowling, H., Offenbacker, E., Weisser, H., Heshka, S., Matthews, D. E. & Heymsfield, S. B. (1992). Discrepancy between self-reported and actual caloric intake and exercise in obese subjects. New England Journal of Medicine 327, 1893–1898.CrossRef Google Scholar PubMed

Livingstone, M. B. E., Prentice, A. M., Strain, J. J., Coward, W. A., Black, A. E., Barker, M. E., McKenna, P. G. & Whitehead, R. G. (1990). Accuracy of weighed dietary records in studies of diet and health. British Medical Journal 300, 708–712.CrossRef Google Scholar PubMed

Mann, J. (1997). Meal frequency and plasma lipids and lipoproteins. British Journal of Nutrition 77, Suppl. 1, S83–S90.CrossRef Google Scholar PubMed

Metzner, H. L., Lamphiear, D. E., Wheeler, N. C. & Larkin, F. A. (1977). The relationship between frequency of eating and adiposity in adult men and women in the Tecumseh Community Health Study. American Journal of Clinical Nutrition 30, 712–715.CrossRef Google Scholar PubMed

Molnar, D. (1992). The effect of meal frequency on postprandial thermogenesis in obese children. Padiatrie Padologi 27, 177–181.Google Scholar PubMed

Nunes, W. T. & Canham, J. E. (1963). The effect of varied periodicity of eating on serum lipids and carbohydrate tolerance in man. American Journal of Clinical Nutrition 12, 334–339.Google Scholar

Poppitt, S. D., Swann, D., Black, A. E. & Prentice, A. M. (1995). Is under-reporting of energy intake in obese women macronutrient specific? Covert measurements in a metabolic facility. International Journal of Obesity 19, Suppl. 2, 29.Google Scholar

Prentice, A. M., Black, A. E., Coward, W. A., Davies, H. L., Goldberg, G. R., Murgatroyd, P. R., Ashford, J., Sawyer, M. & Whitehead, R. G. (1986). High levels of energy expenditure in obese women. British Medical Journal 292, 983–987.CrossRef Google Scholar PubMed

Summerbell, C. D., Moody, R. C., Shanks, J., Stock, M. J. & Geissler, C. (1996). Relationship between feeding pattern and body mass index in 220 free-living people in four age groups. European Journal of Clinical Nutrition 50, 513–519.Google Scholar PubMed

Swindells, Y. E., Holmes, S. H. & Robinson, M. F. (1968). The metabolic response of young women to changes in the frequency of meals. British Journal of Nutrition 22, 667–680.CrossRef Google Scholar PubMed

Tai, M. M., Castillo, P. & Pi-Sunyer, F. X. (1991). Meal size and frequency: effect on the thermic effect of food. American Journal of Clinical Nutrition 54, 783–787.CrossRef Google Scholar PubMed

Thomas, J. A. & Call, D. (1973). Eating between meals - a nutritional problem among teenagers? Nutrition Reviews 31, 137–139.CrossRef Google Scholar PubMed

Verboeket-van de Venne, W. P. H. G. & Westerterp, K. R. (1991). Influence of the feeding frequency on nutrient utilisation in man: consequences for energy metabolism. European Journal of Clinical Nutrition 45, 161–169.Google Scholar PubMed

Verboeket-van de Venne, W. P. H. G. & Westerterp, K. R. (1993). Frequency of feeding, weight reduction and energy metabolism. International Journal of Obesity 17, 31–36.Google Scholar PubMed

Verboeket-van de Venne, W. P. H. G., Westerterp, K. R. & Kester, A. D. M. (1993). Effect of the pattern of food intake on human energy metabolism. British Journal of Nutrition 70, 103–115.CrossRef Google Scholar PubMed

Wolfram, G., Kirchbegner, M., Müller, H. L. & Hollomey, S. (1987). Thermogenese des Menschen bei unterschiedlicher Malzeitenhäufigkeit (Thermogenesis in human subjects with differing meal frequencies). Annals of Nutrition and Metabolism 31, 88–97.CrossRef Google Scholar

Young, C. M., Scanlon, S. S., Topping, C. M., Simko, V. & Lutwak, L. (1971). Frequency of feeding, weight reduction and body composition. Journal of the American Dietetic Association 59, 466–472.CrossRef Google Scholar PubMed