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Impact of disaggregation of composite foods on estimates of intakes of meat and meat products in Irish adults

Published online by Cambridge University Press:  02 January 2007

Meadhbh Cosgrove
Affiliation:
Department of Food and Nutritional Sciences, University College Cork, Republic of Ireland
Albert Flynn
Affiliation:
Department of Food and Nutritional Sciences, University College Cork, Republic of Ireland
Máiréad Kiely*
Affiliation:
Department of Food and Nutritional Sciences, University College Cork, Republic of Ireland
*
*Corresponding author: Email [email protected]
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Abstract

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Objective

To evaluate the impact of the disaggregation of composite foods on intake estimates of meat and individual meat categories and on the contribution of meat to nutrient intakes in Irish adults.

Design

Data were analysed from the North/South Ireland Food Consumption Survey, which used a 7-day food diary to estimate food intake. Of 742 food codes that contained meat, 320 were codes for meat consumed as an individual portion and 422 were composite foods and were disaggregated to estimate the meat content.

Subjects

A nationally representative sample of 475 men and 483 women (not pregnant or lactating) from the Republic of Ireland aged 18–64 years.

Results

The mean intake of meat was 134 g day−1 in consumers (98.5%) and men (168 g day−1) consumed significantly more (P < 0.001) than women (102 g day−1). Mean intakes of meat were higher in subjects with manual skilled occupations (P < 0.01) and lower in those with third-level educational qualifications (P < 0.05). Without disaggregating meat from composite foods, meat intake was overestimated by 43% (57 g day−1) and varied widely by meat category. Meat disaggregated from composite foods contributed 25% of meat intake. The contribution meat made to nutrient intakes ranged from 29% for protein, vitamin B12, zinc and niacin to 20% for vitamin D, 16% for vitamin B6, 15% for thiamine and 14% for iron.

Conclusions

Failure to disaggregat meat from composite foods substantially overestimates meat intake, with a large variation between meat categories. This has important implications for estimates of meat intakes in nutritional epidemiological studies and for food safety purposes.

Type
Research Article
Copyright
Copyright © The Authors 2005

References

1Fiddes, N. Social aspects of meat eating. Proceedings of the Nutrition Society 1994; 53(2): 271–9.CrossRefGoogle ScholarPubMed
2Drewnowski, A, Popkin, BM. The nutrition transition: new trends in the global diet. Nutrition Reviews 1997; 55(2): 31–43.Google ScholarPubMed
3Rosegrant, MW, Leach, N, Gerpacio, RV. Alternative futures for world cereal and meat consumption. Proceedings of the Nutrition Society 1999; 58(2): 219–34.CrossRefGoogle ScholarPubMed
4Morabia, A, Bernstein, MS, Heritier, S, Beer-Borst, S. A Swiss population-based assessment of dietary habits before and after the March 1996: ‘mad cow disease’ crisis. European Journal of Clinical Nutrition 1999; 53(2): 158–63.CrossRefGoogle ScholarPubMed
5Willett, WC, Stampfer, MJ, Colditz, GA, Rosner, BA, Speizer, FE. Relation of meat, fat, and fiber intake to the risk of colon cancer in a prospective study among women. New England Journal of Medicine 1990; 323(24): 1664–72.CrossRefGoogle Scholar
6Giovannucci, E, Rimm, EB, Stampfer, MJ, Colditz, GA, Ascherio, A, Willett, WC. Intake of fat, meat, and fiber in relation to risk of colon cancer in men. Cancer Research 1994; 54(9): 2390–7.Google ScholarPubMed
7Roberts-Thomson, IC, Ryan, P, Khoo, KK, Hart, WJ, McMichael, AJ, Butler, RN. Diet, acetylator phenotype, and risk of colorectal neoplasia. Lancet 1996; 347(9012): 1372–4.CrossRefGoogle ScholarPubMed
8World Cancer Research Fund (WCRF)/American Institute for Cancer Research (AICR). Food, Nutrition and the Prevention of Cancer: A Global Perspective. Washington, DC: WCRF/AICR, 1997.Google Scholar
9Department of Health. Nutritional Aspects of the Development of Cancer. Report on Health and Social Subjects No. 48. London: The Stationery Office, 1998.Google Scholar
10Norat, T, Lukanova, A, Ferrari, P, Riboli, E. Meat consumption and colorectal cancer risk: dose–response meta-analysis of epidemiological studies. International Journal of Cancer 2002; 98(2): 241–56.CrossRefGoogle ScholarPubMed
11Feskanich, D, Willett, WC, Stampfer, MJ, Colditz, GA. Protein consumption and bone fractures in women. American Journal of Epidemiology 1996; 143(5): 472–9.CrossRefGoogle ScholarPubMed
12Van Dam, RM, Willett, WC, Rimm, EB, Stampfer, MJ, Hu, FB. Dietary fat and meat intake in relation to risk of type 2 diabetes in men. Diabetes Care 2002; 25(3): 417–24.CrossRefGoogle ScholarPubMed
13Schulze, MB, Manson, JE, Willett, WC, Hu, FB. Processed meat intake and incidence of type 2 diabetes in younger and middle-aged women. Diabetologia 2003; 46(11): 1465–73.CrossRefGoogle ScholarPubMed
14Lahti-Koski, M, Pietinen, P, Heliovaara, M, Vartiainen, E. Associations of body mass index and obesity with physical activity, food choices, alcohol intake, and smoking in the 1982–1997 FINRISK Studies. American Journal of Clinical Nutrition 2002; 75(5): 809–17.CrossRefGoogle ScholarPubMed
15Schulz, M, Kroke, A, Liese, AD, Hoffmann, K, Bergmann, MM, Boeing, H. Food groups as predictors for short-term weight changes in men and women of the EPIC–Potsdam cohort. Journal of Nutrition 2002; 132(6): 1335–40.CrossRefGoogle ScholarPubMed
16Goldbohm, RA, van den Brandt, PA, van't Veer, P, Brants, HA, Dorant, E, Sturmans, F, et al. A prospective cohort study on the relation between meat consumption and the risk of colon cancer. Cancer Research 1994; 54(3): 718–23.Google ScholarPubMed
17Key, TJ, Fraser, GE, Thorogood, M, Appleby, PN, Beral, V, Reeves, G, et al. Mortality in vegetarians and nonvegetarians: detailed findings from a collaborative analysis of 5 prospective studies. American Journal of Clinical Nutrition 1999; 70(Suppl. 3): 516S–24S.CrossRefGoogle ScholarPubMed
18Flood, A, Velie, EM, Sinha, R, Chaterjee, N, Lacey, JV, Schairer, C, et al. Meat, fat, and their subtypes as risk factors for colorectal cancer in a prospective cohort of women. American Journal of Epidemiology 2003; 158(1): 5968.CrossRefGoogle Scholar
19Michaud, DS, Giovannucci, E, Willett, WC, Colditz, GA, Fuchs, CS. Dietary meat, dairy products, fat, and cholesterol and pancreatic cancer risk in a prospective study. American Journal of Epidemiology 2003; 157(12): 1115–25.CrossRefGoogle ScholarPubMed
20Key, TJ, Schatzkin, A. Willett, WC, Allen, NE, Spencer, EA, Travis, RC. Diet, nutrition and the prevention of cancer. Public Health Nutrition 2004; 7(1A): 187200.CrossRefGoogle ScholarPubMed
21Chizzolini, R, Zanardi, E, Dorigoni, V, Ghidini, S. Calorific value and cholesterol content of normal and low-fat meat and meat products. Trends in Food Science and Technology 1999; 10(4–5): 119–28.CrossRefGoogle Scholar
22Fairweather-Tait, SJ. Iron in food and its availability. Acta Paediatrica Scandinavica. Supplement 1989; 361: 1220.CrossRefGoogle ScholarPubMed
23Chan, W, Brown, J, Lee, SM, Buss, DH. Meat, Poultry and Game. Fifth Supplement to McCance & Widdowson's The Composition of Foods, 5th ed. Royal Society of Chemistry and Ministry of Agriculture, Fisheries & Food. London: HMSO, 1995.CrossRefGoogle Scholar
24Hunt, JR, Gallagher, SK, Johnson, LK, Lykken, GI. High- versus low-meat diets: effects on zinc absorption, iron status, and calcium, copper, iron, magnesium, manganese, nitrogen, phosphorus, and zinc balance in postmenopausal women. American Journal of Clinical Nutrition 1995; 62(3): 621–32.CrossRefGoogle ScholarPubMed
25Neumann, C, Harris, DM, Rogers, LM. Contribution of animal source foods in improving diet quality and function in children in the developing world. Nutrition Research 2002; 22(1–2): 193220.CrossRefGoogle Scholar
26Leonhardt, M, Wenk, C. Animal species and muscle related differences in thiamine and riboflavin contents of Swiss meat. Food Chemistry 1997; 59(3): 449–52.CrossRefGoogle Scholar
27Hokin, BD, Butler, T. Cyanocobalamin (vitamin B−12) status in Seventh-day Adventist ministers in Australia. American Journal of Clinical Nutrition 1999; 70(Suppl. 3): 576S–8S.CrossRefGoogle ScholarPubMed
28Lee, P, Cunningham, K. The Irish National Nutrition Survey. Dublin: Irish Nutrition and Dietetic Institute, 1990.Google Scholar
29Irish Universities Nutrition Alliance. North/South Ireland Food Consumption Survey Database [online]. Ireland: University College Cork, Trinity College Dublin, University of Ulster at Coleraine, 2001 Available at www.iuna.netGoogle Scholar
30Food and Agriculture Organization/World Health Organization (WHO). Preparation and Use of Food-based Dietary Guidelines. Technical Report Series No. 880. WHO: Geneva, 1998.Google Scholar
31 Eurodiet. A Framework for Food-Based Dietary Guidelines in the European Union [online], 2000. Available at http:// eurodiet.med.uoc.gr/Google Scholar
32Cleveland, LE, Cook, DA, Krebs-Smith, SM, Friday, J. Method for assessing food intakes in terms of servings based on food guidance. American Journal of Clinical Nutrition 1997; 65(Suppl. 4): 1254S–63S.CrossRefGoogle ScholarPubMed
33Subar, AF, Krebs-Smith, SM, Cook, A, Kahle, LL. Dietary sources of nutrients among US adults, 1989 to 1991. Journal of the American Dietetic Association 1998; 98(5): 537–47.CrossRefGoogle ScholarPubMed
34O'Brien, MM, Kiely, M, Galvin, M, Flynn, A. The importance of composite foods for estimates of vegetable and fruit intakes. Public Health Nutrition 2003; 6(7): 711–26.CrossRefGoogle ScholarPubMed
35Elmstahl, S, Holmqvist, O, Gullberg, B, Johansson, U, Berglund, G. Dietary patterns in high and low consumers of meat in a Swedish cohort study. Appetite 1999; 32(2): 191206.CrossRefGoogle Scholar
36Linseisen, J, Kesse, E, Slimani, N, Bueno-De-Mesquita, HB, Ocké, C, Skeie, G, et al. Meat consumption in the European Prospective Investigation into Cancer and Nutrition (EPIC) cohorts: results from 24-hour dietary recalls. Public Health Nutrition 2002; 5(6B): 1243–58.CrossRefGoogle ScholarPubMed
37US Department of Agriculture/Foreign Agriculture Service. Food, Consumption, Prices, and Expenditures, 1970–2000. Washington, DC: Economic Research Service, 2000.Google Scholar
38Kiely, M, Flynn, A, Harrington, KE, Robson, PJ, Cran, G. Sampling description and procedures used to conduct the North/South Ireland Food Consumption Survey. Public Health Nutrition 2001; 4(5A): 1029–35.CrossRefGoogle ScholarPubMed
39Central Statistics Office. Census ‘96 Principal Demographic Results. Dublin: Government of Ireland, 1997.Google Scholar
40Central Statistics Office. Census ‘96 Principal Socioeconomic Results. Dublin: Government of Ireland, 1998.Google Scholar
41Harrington, KE, Robson, PJ, Kiely, M, Livingstone, MBE, Lambe, J, Gibney, MJ. The North/South Ireland Food Consumption Survey: survey design and methodology. Public Health Nutrition 2001; 4(5A): 1037–42.CrossRefGoogle ScholarPubMed
42Robson, PJ. Photographic food atlas for the North/South Ireland Food Consumption Survey, 1997.Google Scholar
43Ministry of Agriculture, Fisheries & Food. Food Portion Sizes. London: The Stationery Office, 1997.Google Scholar
44Holland, B, Welch, AA, Unwin, ID, Buss, DH, Paul, AA, Southgate, DAT. McCance & Widdowson's The Composition of Foods, 5th ed. Royal Society of Chemistry and Ministry of Agriculture, Fisheries & Food. London: HMSO, 1995.Google Scholar
45Holland, B, Unwin, ID, Buss, DH. Cereals and Cereal Products. Third Supplement to McCance & Widdowson's The Composition of Foods, 4th ed. Royal Society of Chemistry and Ministry of Agriculture, Fisheries & Food. London: HMSO, 1988.Google Scholar
46Holland, B, Unwin, ID, Buss, DH. Milk Products and Eggs. Fourth Supplement to McCance & Widdowson's The Composition of Foods, 4th ed. Royal Society of Chemistry and Ministry of Agriculture, Fisheries & Food. London: HMSO, 1989.Google Scholar
47Holland, B, Unwin, ID, Buss, DH. Vegetables, Herbs and Spices. Fifth Supplement to the McCance & Widdowson's The Composition of Foods, 4th ed. Royal Society of Chemistry and Ministry of Agriculture, Fisheries & Food. London: HMSO, 1991.CrossRefGoogle Scholar
48Holland, B, Unwin, ID, Buss, DH. Fruit and Nuts. First Supplement to McCance & Widdowson's The Composition of Foods, 5th ed. Royal Society of Chemistry and Ministry of Agriculture, Fisheries & Food. London: HMSO, 1992.CrossRefGoogle Scholar
49Holland, B, Brown, J, Buss, DH. Fish and Fish Products. Third Supplement to McCance & Widdowson's The Composition of Foods, 5th ed. Royal Society of Chemistry and Ministry of Agriculture, Fisheries & Food. London: HMSO, 1993.CrossRefGoogle Scholar
50Chan, W, Brown, J, Buss, DH. Miscellaneous Foods. Fourth Supplement to McCance & Widdowson's The Composition of Foods, 5th ed. Royal Society of Chemistry and Ministry of Agriculture, Fisheries & Food. London: HMSO, 1994.CrossRefGoogle Scholar
51Chan, W, Brown, J, Church, SM, Buss, DH. Meat Products and Dishes. Sixth Supplement to McCance & Widdowson's The Composition of Foods, 5th ed. Royal Society of Chemistry and Ministry of Agriculture, Fisheries & Food. London: HMSO, 1996.CrossRefGoogle Scholar
52Holland, B, Welch, AA, Buss, DH. Vegetable Dishes. Second Supplement to McCance & Widdowson's The Composition of Foods, 5th ed. Royal Society of Chemistry and Ministry of Agriculture, Fisheries & Food. London: HMSO, 1996.Google Scholar
53McGowan, MJ, Harrington, KE, Kiely, M, Robson, PJ, Livingstone, MBE, Gibney, MJ. An evaluation of energy intakes and the ratio of energy intake to estimated basal metabolic rate (EI/BMRest) in the North/South Ireland Food Consumption Survey. Public Health Nutrition 2001; 4(5A): 1043–50.CrossRefGoogle ScholarPubMed
54Goldberg, GR, Black, AE, Jebb, SA, Cole, TJ, Murgatroyd, PR, Coward, WA, et al. 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 1991; 45(12): 569–81.Google ScholarPubMed
55Davey, GK, Spencer, EA, Appleby, PN, Allen, NE, Knox, KH, Key, TJ. EPIC–Oxford: lifestyle characteristics and nutrient intakes in a cohort of 33 883 meat-eaters and 31 546 non meat-eaters in the UK. Public Health Nutrition 2003; 6(3): 259–69.CrossRefGoogle Scholar
56Henderson, L, Gregory, J, Swan, G. National Diet and Nutrition Survey: Adults aged 19 to 64 years. Types and Quantities of Foods Consumed. London: The Stationery Office, 2002.Google Scholar
57Eichholzer, M, Bisig, B. Daily consumption of (red) meat or meat products in Switzerland: results of the 1992/93 Swiss Health Survey. European Journal of Clinical Nutrition 2000; 54(2): 136–42.CrossRefGoogle ScholarPubMed
58Kant, AK, Schatzkin, A, Block, G, Ziegler, RG, Nestle, M. Food group intake patterns and associated nutrient profiles of the US population. Journal of the American Dietetic Association 1991; 91(12): 1532–7.CrossRefGoogle ScholarPubMed
59Zo eet, Nederland 1998. Den Haag: Voedingscentrum, 1998.Google Scholar
60Leclercq, C, Arcella, D. Correlation analyses as a step to identify foods that are sources of inter-individual variability in nutrients; their use for the development of food based dietary guidelines. Public Health Nutrition 2001; 4(2B): 689–92.CrossRefGoogle ScholarPubMed
61Lambe, J, Kearney, J. The influence of survey duration on estimates of food intakes – relevance for food-based dietary guidelines. British Journal of Nutrition 1999; 81(Suppl. 2): S139–42.CrossRefGoogle ScholarPubMed
62Baghurst, K. Red meat consumption in Australia: intakes, contributions to nutrient intake and associated dietary patterns. European Journal of Cancer Prevention 1999; 8(3): 185–91.CrossRefGoogle ScholarPubMed
63Harrington, KE, McGowan, MJ, Kiely, M, Robson, PJ, Livingstone, MBE, Morrissey, PA, et al. Macronutrient intakes and food sources in Irish adults: findings of the North/South Ireland Food Consumption Survey. Public Health Nutrition 2001; 4(5A): 1051–60.CrossRefGoogle ScholarPubMed
64Hannon, EM, Kiely, M, Harrington, KE, Robson, PJ, Strain, JJ, Flynn, A. The North/South Ireland Food Consumption Survey: mineral intakes in 18–64-year-old adults. Public Health Nutrition 2001; 4(5A): 1081–8.CrossRefGoogle ScholarPubMed
65O'Brien, MM, Kiely, M, Harrington, KE, Robson, PJ, Strain, JJ, Flynn, A. The North/South Ireland Food Consumption Survey: vitamin intakes in 18–64-year-old adults. Public Health Nutrition 2001; 4(5A): 1069–79.CrossRefGoogle ScholarPubMed
66Hill, TR, O'Brien, MM, Cashman, K, Flynn, A, Kiely, M. Vitamin D intakes in 18–64-y-old Irish adults. European Journal of Clinical Nutrition 2004; 58(11): 1509–17.CrossRefGoogle ScholarPubMed
67Brussaard, JH, Brants, HA, Bouman, M, Lowik, MR. Iron intake and iron status among adults in The Netherlands. European Journal of Clinical Nutrition 1997; 51(Suppl. 3): 51S–8S.Google ScholarPubMed
68Baech, SB, Hansen, M, Bukhave, K, Jensen, M, Sorensen, SS, Kristensen, L, et al. Nonheme-iron absorption from a phytate-rich meal is increased by the addition of small amounts of pork meat. American Journal of Clinical Nutrition 2003; 77(1): 173–9.CrossRefGoogle ScholarPubMed
69Wells, AM, Haub, MD, Fluckey, J, Williams, DK, Chernoff, R, Campbell, WW. Comparisons of vegetarian and beef-containing diets on hematological indexes and iron stores during a period of resistive training in older men. Journal of the American Dietetic Association 2003; 103(5): 594601.CrossRefGoogle ScholarPubMed
70Thane, CW, Bates, CJ, Prentice, A. Risk factors for low iron intake and poor iron status in a national sample of British young people aged 4–18 years. Public Health Nutrition 2003; 6(5): 485–96.CrossRefGoogle Scholar
71Gibson, S, Ashwell, M. The association between red and processed meat consumption and iron intakes and status among British adults. Public Health Nutrition 2003; 6(4): 341–50.CrossRefGoogle ScholarPubMed
72US Department of Agriculture (USDA). Dietary Guidelines for Americans 2000 [online]. Washington, DC: USDA, 2000. Available at http://www.health.gov/dietaryguidelinesGoogle Scholar
73Hill, M. Meat, cancer and dietary advice to the public. European Journal of Clinical Nutrition 2002; 56(Suppl. 1): 36S–41S.CrossRefGoogle ScholarPubMed
74Truswell, AS. Meat consumption and cancer of the large bowel. European Journal of Clinical Nutrition 2002; 56(Suppl. 1): 19S24S.CrossRefGoogle ScholarPubMed
75Roos, E, Prattala, R, Lahelma, E, Kleemola, P, Pietinen, P. Modern and healthy?: socioeconomic differences in the quality of diet. European Journal of Clinical Nutrition 1996; 50(11): 753–60.Google ScholarPubMed
76Van Rossum, CT, van de Mheen, H, Witteman, JC, Grobbee, E, Mackenbach, JP. Education and nutrient intake in Dutch elderly people. The Rotterdam Study. European Journal of Clinical Nutrition 2000; 54(2): 159–65.CrossRefGoogle ScholarPubMed