Abstract
Background:
Obesity and its comorbidities are worldwide problems. Approaches to reducing obesity and its associated metabolic derangements typically emphasize fat and energy restriction, but for many achieving and maintaining weight loss is difficult. Diets that focus on substantially altering macronutrient distribution rather than energy restriction are promising alternatives, but have generally included large amounts of protein, fiber or fat.
Objective:
To compare the effects of dietary advice including moderate increases in protein and fiber without specifying energy intake with standard low-fat, high-carbohydrate dietary recommendations on body composition and metabolic risk factors.
Methods:
89 overweight or obese women aged 18–65 years were randomized to either a standard diet that was intended to be low in fat and relatively high in carbohydrate (n=42) or to a relatively high-protein (up to 30% of energy), relatively high-fiber (>35 g per day; HPHF) diet (n=47) for 10 weeks. Advice regarding strict adherence to energy intake goals was not given.
Results:
Participants on the HPHF diet lost more body weight (1.3 kg; 95% CI, 0.7, 1.9; P<0.0001), total fat (1.0 kg; 95% CI, 0.2, 1.8; P<0.0001) and truncal fat (0.7 kg; 95% CI, 0.1, 1.3; P=0.034) than participants on the standard diet. Total cholesterol and low-density lipoprotein (LDL) cholesterol were also significantly lower after the HPHF diet.
Conclusion:
An ad libitum diet relatively high in both protein and fiber improved body composition and metabolic risk factors compared with standard dietary advice.
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References
Abete I, Parra MD, Zulet MA, Martinez JA (2006). Different dietary strategies for weight loss in obesity: role of energy and macronutrient content. Nutr Res Rev 19, 5–17.
Anderson JW, Baird P, Davis Jr RH, Ferreri S, Knudtson M, Koraym A et al. (2009). Health benefits of dietary fiber. Nutr Rev 67, 188–205.
Anderson JW, Garrity TF, Wood CL, Whitis SE, Smith BM, Oeltgen PR (1992). Prospective, randomized, controlled comparison of the effects of low-fat and low-fat plus high-fiber diets on serum lipid concentrations. Am J Clin Nutr 56, 887–894.
Assmann G, Schriewer H, Schmitz G, Hagele EO (1983). Quantification of high-density-lipoprotein cholesterol by precipitation with phosphotungstic acid/MgCl2. Clin Chem 29, 2026–2030.
Ayyad C, Andersen T (2000). Long-term efficacy of dietary treatment of obesity: a systematic review of studies published between 1931 and 1999. Obes Rev 1, 113–119.
Baigent C, Keech A, Kearney PM, Blackwell L, Buck G, Pollicino C et al. (2005). Efficacy and safety of cholesterol-lowering treatment: prospective meta-analysis of data from 90 056 participants in 14 randomised trials of statins. Lancet 366, 1267–1278.
Brinkworth GD, Noakes M, Keogh JB, Luscombe ND, Wittert GA, Clifton PM (2004). Long-term effects of a high-protein, low-carbohydrate diet on weight control and cardiovascular risk markers in obese hyperinsulinemic subjects. Int J Obes Relat Metab Disord 28, 661–670.
Chandalia M, Garg A, Lutjohann D, von Bergmann K, Grundy SM, Brinkley LJ (2000). Beneficial effects of high dietary fiber intake in patients with type 2 diabetes mellitus. N Engl J Med 342, 1392–1398.
Chiasson JL, Rabasa-Lhoret R (2004). Prevention of type 2 diabetes: insulin resistance and beta-cell function. Diabetes 53 (Suppl 3), S34–S38.
Cornier M-A, Donahoo WT, Pereira R, Gurevich I, Westergren R, Enerback S et al. (2005). Insulin sensitivity determines the effectiveness of dietary macronutrient composition on weight loss in obese women. Obesity 13, 703–709.
Friedewald WT, Levy RI, Fredrickson DS (1972). Estimation of the concentration of low-density lipoprotein cholesterol in plasma, without use of the preparative ultracentrifuge. Clin Chem 18, 499–502.
Fukagawa NK, Anderson JW, Hageman G, Young VR, Minaker KL (1990). High-carbohydrate, high-fiber diets increase peripheral insulin sensitivity in healthy young and old adults. Am J Clin Nutr 52, 524–528.
Halton TL, Hu FB (2004). The effects of high protein diets on thermogenesis, satiety and weight loss: a critical review. J Am Coll Nutr 23, 373–385.
Hays NP, Starling RD, Liu X, Sullivan DH, Trappe TA, Fluckey JD et al. (2004). Effects of an ad libitum low-fat, high-carbohydrate diet on body weight, body composition, and fat distribution in older men and women: a randomized controlled trial. Arch Intern Med 164, 210–217.
Hession M, Rolland C, Kulkarni U, Wise A, Broom J (2009). Systematic review of randomized controlled trials of low-carbohydrate vs low-fat/low-calorie diets in the management of obesity and its comorbidities. Obes Rev 10, 36–50.
Howarth NC, Saltzman E, Roberts SB (2001). Dietary fiber and weight regulation. Nutr Rev 59, 129–139.
Johnston CS, Tjonn SL, Swan PD (2004). High-protein, low-fat diets are effective for weight loss and favorably alter biomarkers in healthy adults. J Nutr 134, 586–591.
Krieger JW, Sitren HS, Daniels MJ, Langkamp-Henken B (2006). Effects of variation in protein and carbohydrate intake on body mass and composition during energy restriction: a meta-regression 1. Am J Clin Nutr 83, 260–274.
Lasker DA, Evans EM, Layman DK (2008). Moderate carbohydrate, moderate protein weight loss diet reduces cardiovascular disease risk compared to high carbohydrate, low protein diet in obese adults: a randomized clinical trial. Nutr Metab (Lond) 5, 30.
Layman DK, Boileau RA, Erickson DJ, Painter JE, Shiue H, Sather C et al. (2003). A reduced ratio of dietary carbohydrate to protein improves body composition and blood lipid profiles during weight loss in adult women. J Nutr 133, 411–417.
Leidy HJ, Carnell NS, Mattes RD, Campbell WW (2007). Higher protein intake preserves lean mass and satiety with weight loss in pre-obese and obese women. Obesity 15, 421–429.
Levy JC, Matthews DR, Hermans MP (1998). Correct homeostasis model assessment (HOMA) evaluation uses the computer program. Diabetes Care 21, 2191–2192.
Low S, Chin MC, Deurenberg-Yap M (2009). Review on epidemic of obesity. Ann Acad Med, Singapore 38, 57–59.
Mann JI (2006). Nutrition recommendations for the treatment and prevention of type 2 diabetes and the metabolic syndrome: an evidenced-based review. Nutr Rev 64, 422–427.
McAuley KA, Hopkins CM, Smith KJ, McLay RT, Williams SM, Taylor RW et al. (2005). Comparison of high-fat and high-protein diets with a high-carbohydrate diet in insulin-resistant obese women. Diabetologia 48, 8–16.
McAuley KA, Smith KJ, Taylor RW, McLay RT, Williams SM, Mann JI (2006). Long-term effects of popular dietary approaches on weight loss and features of insulin resistance. Int J Obes (Lond) 30, 342–349.
McAuley KA, Williams SM, Mann JI, Walker RJ, Lewis-Barned NJ, Temple LA et al. (2001). Diagnosing insulin resistance in the general population. Diabetes Care 24, 460–464.
Ministry of Health (2003). Food and Nutrition Guidelines for Healthy Adults: A background paper. Ministry of Health; Wellington, NZ.
Noakes M, Keogh JB, Foster PR, Clifton PM (2005). Effect of an energy-restricted, high-protein, low-fat diet relative to a conventional high-carbohydrate, low-fat diet on weight loss, body composition, nutritional status, and markers of cardiovascular health in obese women. Am J Clin Nutr 81, 1298–1306.
Reaven GM (2005). The insulin resistance syndrome: definition and dietary approaches to treatment. Annu Rev Nutr 25, 391–406.
Rolls BJ (2009). The relationship between dietary energy density and energy intake. Physiol Behav 97, 609.
Skov AR, Toubro S, Ronn B, Holm L, Astrup A (1999). Randomized trial on protein vs carbohydrate in ad libitum fat reduced diet for the treatment of obesity. Int J Obes Relat Metab Disord 23, 528–536.
Vickers AJ, Altman DG (2001). Statistics notes: analysing controlled trials with baseline and follow up measurements. BMJ 323, 1123–1124.
World Health Organisation (2004). Global Strategy on Diet, Physical Activity and Health. World Health Organisation: Geneva, 2004. vol 2009.
Yach D, Stuckler D, Brownell KD (2006). Epidemiologic and economic consequences of the global epidemics of obesity and diabetes. Nat Med 12, 62–66.
Acknowledgements
This study was supported by Fonterra Co-operative Group Ltd. and the New Zealand Government funded this study as part of a New Zealand Foundation of Research Sciences and Technology Project DRIX0401. The Riddet Institute (Palmerston North, New Zealand) provided further funding.
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Morenga, L., Williams, S., Brown, R. et al. Effect of a relatively high-protein, high-fiber diet on body composition and metabolic risk factors in overweight women. Eur J Clin Nutr 64, 1323–1331 (2010). https://doi.org/10.1038/ejcn.2010.163
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DOI: https://doi.org/10.1038/ejcn.2010.163
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