Weight control

Contrary to the popular perception that dairy foods are ‘fattening’, a growing body of research suggests that milk and dairy foods may have a positive role in weight control in both adults and children. A number of observational studies have reported that dairy-rich diets are associated with lower body weight, less body fat, less abdominal obesity and less fat gain over time. Overall, results from intervention studies suggest that including dairy foods in a weight-reducing diet may enhance weight loss.

Dairy’s calcium and protein are likely to be involved in its effects on energy balance, including through influences on appetite and satiety, fat absorption and energy use. From the available evidence it seems likely that for those trying to lose weight, avoiding dairy or having a low dairy intake may be counterproductive.

Observational studies

Scientific evidence is accumulating to suggest that milk and dairy foods may have a positive role in weight control in both children and adults. A relationship between calcium and weight was first noticed in a cross-sectional analysis more than 30 years ago1. However, it was not until the late 1990s, when a possible mechanism linking calcium and weight was proposed, that research in this area gathered pace2. Since then, a number of other cross-sectional studies have noted a similar negative relationship between calcium and/or dairy foods and weight, body fat and abdominal obesity including some in European populations3-10.
For example, in a study of early-postmenopausal Italian women, those in the highest quartile of dairy intake had a lower BMI than those who ate the least dairy foods8. Similarly, data from the ‘Observation of Cardiovascular Risk Factors in Luxembourg’ survey found dairy intake was associated with a reduced likelihood of both overall obesity and abdominal obesity9. A recent analysis of the National Adult Nutrition Survey in Ireland also reports that higher total dairy intake, as well as higher milk and yogurt intake, were associated with lower measures of body fatness, including waist-to-hip ratio, % body fat and waist circumference10.

Some prospective studies too suggest a modest protective effect of dairy product consumption on the amount of weight gained over time11. For example, a Swedish study which examined the association between dairy intake and weight change in 19,000 peri-menopausal women over nine years, found that regularly eating one or more servings a day of cheese or whole / fermented milk (3% fat) was associated with lower weight gains in normal weight women12. In overweight French men, milk and yogurt intake were related to lower gains in weight and waist circumference over six years13.

A narrative review in 2011, concluded that data from observational studies, although not completely consistent, were suggestive of a protective effect of dairy consumption on the risk of overweight and obesity in adults6. A systematic review of prospective studies in the same year reached a similar conclusion with regard to dairy and the risk of weight gain11. A more recent analysis also reports that dairy consumption was not adversely related to changes in body weight; yogurt, in particular, showed a beneficial effect, where higher intakes were associated with a reduced risk of obesity, changes in body weight and waist circumference14. Another systematic analysis, which assessed the relationship between the intake of dairy fat and high-fat dairy foods with obesity, found no evidence that dairy fat intake adversely affects weight or obesity risk15. In fact, in the majority of observational studies (11 out of 16 studies), a dietary pattern with a high-fat dairy intake was associated with lower weight and other measures of adiposity.

 

Studies in children and adolescents

For children and adolescents there are fewer observational studies available, but on the whole these too indicate either a beneficial or neutral effect of dairy consumption on body weight or body composition10,16. In UK children, for example, higher dairy consumption during preadolescence (10 years old) was not associated with excess fat gain during early adolescence (up to 13 years) and, in fact, appeared to have a protective effect17. A recent meta-analysis looking at the long-term association between dairy consumption and risk of childhood obesity concludes that dairy is protective18.

Intervention studies

Results from intervention studies strengthen the observational data. A meta-analysis of randomised control trials in 2012 found that inclusion of dairy products in calorie-restricted diets led to a significantly greater reduction in body weight, waist circumference, and fat mass, while maintaining lean body mass, compared with low-dairy weight-loss diets19. A more recent meta-analysis in 2016 reached the same conclusion: increased dairy intake as part of energy-restricted diets resulted in greater loss of body weight and fat while helping to reduce the amount of lean mass lost20. Other meta-analyses also report dairy consumption, in the short-term, coupled with calorie-restriction, has a beneficial impact on body fat reduction21,22. Increasing dairy intake without calorie-restriction had no effect on weight19,21,22. It is an important point that, in contrast to the popular perception, extra milk and milk products did not result in weight gain, and, when coupled with calorie restriction, enhanced weight loss.

Again, there are fewer intervention studies in children and adolescents and no meta-analysis of results, however, the majority of the research indicates that the effect of milk and dairy intake on body weight and body composition in children and adolescents is beneficial or neutral16.

Potential dairy matrix mechanisms

Possible mechanisms to explain the effects of dairy on weight control initially centred on calcium and particularly the hypothesis that calcium may alter fat cell function and fat oxidation: stimulating lipolysis (fat breakdown), reducing lipogenesis (fat synthesis) and increasing fat oxidation2,23,24. More recently it has been suggested that calcium may also work by binding fat in the intestine and increasing its excretion from the body and so decreasing fat (and therefore calorie) absorption25. Calcium in the dairy food matrix may be more effective in this respect than other forms of calcium26. Calcium-driven effects on appetite have also been postulated: a low calcium intake may trigger hunger and impair weight loss on energy restricted diets27. These potential effects of calcium are not mutually exclusive and multiple mechanisms may be involved.

Other components of the dairy matrix are also likely to be involved in dairy’s beneficial effects28. Studies have reported that the weight-loss effects of milk and yogurt, for example, are greater than for the equivalent calcium supplement2,29. A probable candidate is dairy’s protein. Several investigations indicate a role of protein in weight loss and weight maintenance including the European DIOGENES study30. Dairy protein may have positive effects on satiety, as well as benefits on ‘muscle sparing’ helping to maintain lean body mass during energy restriction6,31. Branched-chain amino acids, of which dairy foods, and particularly whey protein, are rich sources may be important in this respect31. Given associations between dairy fat and lower body weight, it has also been suggested that some fatty acids, principally medium-chain fatty acids, may have anti-obesity effects, including through lipogenesis and satiety32,33.  Moreover, there is preliminary evidence that short-chain fatty acid production in the gut, which is favoured by fermented dairy foods such as cheese, may have positive effects on appetite regulation34.

Further research will help to fully elucidate the relationship between dairy consumption and body weight including amounts and types of dairy foods and possible threshold effects. Nevertheless, from the available data, it seems likely that those trying to maintain a healthy weight, and particularly for those trying to lose weight, a low dairy intake is likely to be counterproductive. Indeed, recent guidelines on the ‘Dietary Treatment of Obesity’ from the Swedish Council on Health Technology Assessment, advise that a higher intake of dairy products (mainly milk) during energy restriction can lead to weight loss for both adults and children35.

References

1. McCarron DA et al. Blood pressure and nutrient intake in the United States. Science. 1984; 224: 1392-1398.

2. Zemel MB et al. Regulation of adiposity by dietary calcium. FASEB J. 2000; 14: 1132-1138.

3. Heaney RP & Rafferty K. Preponderance of the evidence: an example from the issue of calcium intake and body composition. Nutr Rev. 2009; 67: 32-39.

4. Van Loan M. The role of dairy foods and dietary calcium in weight management. J Am Coll Nutr. 2009; 28: 120S-129S.

5. Astrup A et al. Dairy beverages and energy balance. Physiol Behav. 2010; 100: 67-75.

6. Dougkas A et al. Associations between dairy consumption and body weight a review of the evidence and underlying mechanisms. Nutr Res Rev. 2011; 24: 72-95.

7. Wang W et al. Association of dairy products consumption with risk of obesity in children and adults: a meta-analysis of mainly cross-sectional studies. Ann Epidemiol. 2016; 22 pii: S1047-2797.

8. Varenna M et al. Effects of dietary calcium intake on body weight and prevalence of osteoporosis in early postmenopausal women.. Am J Clin Nutr. 2007; 86: 639–644.

9. Crichton GE, Alkerwi A. Whole fat dairy food intake is inversely associated with obesity prevalence: findings from the Observation of Cardiovascular Risk Factors in Luxembourg study. Nutr Res. 2014 ;34: 936-943.

10. Feeney EL et al. Patterns of dairy food intake, body composition and markers of metabolic health in Ireland: results from the National Adult Nutrition Survey. Nutr Diabetes.  2017; 7: e243; doi:10.1038/nutd.2016.54.

11. Louie JC et al. Dairy consumption and overweight and obesity: a systematic review of prospective cohort studies. Obes Rev. 2011; 12: e582-e592.

12. Rosell M et al. Association between dairy food consumption and weight change over 9 y in 19 352 perimenopausal women. Am J Clin Nutr. 2006; 84: 1481-1488.

13. Vergnaud AC et al. Dairy consumption and 6-y changes in body weight and waist circumference in middle-aged French adults. Am J Clin Nutr. 2008; 88: 1248-1255.

14. Schwingshackl L et al. Consumption of dairy products in relation to changes in anthropometric variables in adult populations: a systematic review and meta-analysis of cohort studies. PLoS One. 2016 Jun 16;11(6):e0157461

15. Kratz M et al. The relationship between high-fat dairy consumption and obesity, cardiovascular, and metabolic disease. Eur J Nutr. 2013; 52: 1-24.

16. Spence LA et al. The role of dairy products in healthy weight and body composition in children and adolescents. Curr Nutr Food Sci. 2011; 7: 40-49.

17. Bigornia SJ et al. Dairy intakes at age 10 years do not adversely affect risk of excess adiposity at 13 years. J Nutr. 2014; 144: 1081-1090.

18. Lu L et al. Long-term association between dairy consumption and risk of childhood obesity: a systematic review and meta-analysis of prospective cohort studies. Eur J Clin Nutr. 2016; 70: 414-423.

19. Abargouei AS et al. Effect of dairy consumption on weight and body composition in adults: a systematic review and meta-analysis of randomized controlled clinical trials. Int J Obes. 2012; 36: 1485-1493.

20. Stonehouse W et al. Dairy intake enhances body weight and composition changes during energy restriction in 18–50-year-old adults - a meta-analysis of randomized controlled trials. Nutrients. 2016; 8: 394.

21. Chen M et al. Effects of dairy intake on body weight and fat: a meta-analysis of randomized controlled trials. Am J Clin Nutr. 2012; 96: 735-747.

22. Booth AO et al. Effect of increasing dietary calcium through supplements and dairy food on body weight and body composition: a meta-analysis of randomized controlled trials Br J Nut. 2015; 114: 1013-1025.

23. Soares MJ et al.  Mechanistic roles for calcium and vitamin D in the regulation of body weight. Obes Rev. 2012; 13: 592-602.

24. Gonzalez JT et al. Effect of calcium intake on fat oxidation in adults: a meta-analysis of randomized, controlled trials. Obes Rev. 2012; 13: 848-857.

25. Christensen R et al. Effect of calcium from dairy and dietary supplements on faecal fat excretion: a meta-analysis of randomized controlled trials. Obes Rev. 2009; 10: 475-486.

26. Lorenzen JK et al. Effect of dairy calcium or supplementary calcium intake on postprandial fat metabolism, appetite, and subsequent energy intake. Am J Clin Nutr. 2007; 85: 678–687.

27. Major GC et al. Calcium plus vitamin D supplementation and fat mass loss in female very low-calcium consumers: potential link with a calcium-specific appetite control. Br J Nutr. 2009; 101: 659-663.

28. Thorning TK et al. Whole dairy matrix or single nutrients in assessment of health effects: current evidence and knowledge gaps. Am J Clin Nutr 2017: 105:1–13.

29. Faghih S. et al. Comparison of the effects of cows’ milk, fortified soy milk, and calcium supplement on weight and fat loss in premenopausal overweight and obese women. Nutr Metab Cardiovasc Dis 2011; 21: 499–503.

30. Larsen TM et al. Diets with high or low protein content and glycemic index for weight-loss maintenance. N Engl J Med. 2010; 363: 2102-2113.

31. McGregor RA & Poppitt SD. Milk protein for improved metabolic health: a review of the evidence. Nutr Metab. 2013; 10: 46.

32. Tsuji H et al. Dietary medium chain triacylglycerols suppress accumulation of body fat in a double-blind, controlled trial in healthy men and women. J Nutr. 2001; 131: 2853–2859.

33. St-Onge MP & Jones PJ. Physiological effects of medium-chain triglycerides: potential agents in the prevention of obesity. J Nutr. 2002; 132: 329–332.

34. Byrne CS et al. The role of short chain fatty acids in appetite regulation and energy homeostasis. Int J Obes. 2015; 39: 1331-1338.

35. Swedish Council on Health Technology Assessment. Dietary Treatment of Obesity – A systematic review of the literature. Stockholm: Swedish Council on Technology Assessment in Health Care (SBU); 2013. http://www.sbu.se/218 (accessed 1/12/13).

 

 

 

This website uses cookies to improve user experience. By using our website you consent to all cookies in accordance with our Cookie Policy.