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Department of Health Research Initiative on Nutrition Phase 2: overview of findings and recommendations

Published online by Cambridge University Press:  16 October 2007

Joyce M Hughes
Joyce M Hughes*
Affiliation:
7 Holmesdale Park, Coopers Hill Road, Nutfield, Surrey, RH1 4NW, UK
*
*Corresponding author: Email joyhughes1142@aol.com
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Abstract

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Objective:

The purpose of this overview is to synthesise and summarise the findings and recommendations of all 14 projects funded between 1997 and 2002 under Phase 2 of the Department of Health's Policy Research Programme Nutrition Initiative. This is aimed at end users, including policy makers, practitioners, researchers and research funding bodies.

Design:

The main findings and recommendations for policy and practice, as well as for future research, contained in the peer-reviewed final report of each project are summarised under headings identified as being useful for policy groups and practitioners: Maintenance of a healthy weight; Functional outcomes related to different markers of iron status; Nutritional aspects of bone health in humans; and Dietary interventions.

Results:

The overview draws together the key findings and recommendations for current and future policy and practice from the second phase of the research programme and identifies research gaps.

Conclusions:

The findings and recommendations of the Department of Health's Nutrition Research Initiative have contributed to the scientific evidence base for policy development, policy evaluation, and will inform practitioners as well as researchers and research funding bodies.

Keywords

Nutrition researchHealthy weightIron statusBone healthDietary interventions
Type
Research Article
Information
Public Health Nutrition , Volume 6 , Issue 1 , February 2003 , pp. 101 - 125
Copyright
Copyright © CABI Publishing 2003

References

1Glenny, A, O'Meara, S. Systematic Review of Interventions in the Treatment and Prevention of Obesity. NHS Centre for Reviews and Dissemination Report 10. York: NHS Centre for Reviews and Dissemination, 1997.Google ScholarPubMed
2Roe, L, Hunt, P, Bradshaw, H, Rayner, M. Health Promotion Interventions to Promote Healthy Eating in the General Population: A Review. London: Health Education Authority, 1997.Google Scholar
3 Health Education Authority (HEA). Effectiveness of Interventions to Promote Healthy Eating in Elderly People Living in the Community. London: HEA, 1998.Google Scholar
4 Health Education Authority (HEA). Effectiveness of Interventions to Promote Healthy Eating in People from Minority Ethnic Groups: A Review. London: HEA, 1998.Google Scholar
5 Health Education Authority (HEA). Effectiveness of Interventions to Promote Healthy Feeding of Infants under one year of age: A Review. London: HEA, 1998.Google Scholar
6 Health Education Authority (HEA). Effectiveness of Interventions to Promote Healthy Eating in Preschool Children aged 1–5 years: A Review. London: HEA, 1998.Google Scholar
7 Health Education Authority (HEA). Effectiveness of Interventions to Promote Healthy Eating in Pregnant Women and Women of Childbearing Age: A Review. London: HEA, 1998.Google Scholar
8Reid, M, Adamson, H. Opportunities for and Barriers to Good Nutritional Health in Women of Childbearing Age, Pregnant Women, Infants under 1 and Children aged 1 to 5. London: Health Education Authority, 1997.Google Scholar
9Bush, H, Williams, R, Sharma, S, Cruickshank, K. Opportunities for and Barriers to Good Nutritional Health in Minority Ethnic Groups. London: Health Education Authority, 1997.Google Scholar
10Lilley, J, Hunt, P. Opportunities for and Barriers to Change in the Dietary Behaviour of Elderly People. London: Health Education Authority, 1997.Google Scholar
11 Department of Health. The Health of the Nation: A Strategy for Health in England. London: HMSO, 1992.Google Scholar
12 Department of Health. Saving Lives: Our Healthier Nation. London: The Stationery Office, 1999.Google Scholar
13 Department of Health. The NHS Plan. A Plan for Investment. A Plan for Reform. London: The Stationery Office, 2000.Google Scholar
14 Ashwell, M. Hot topics in iron research: what is the UK government funding? Br. Nutr. Found. Nutr. Bull. 2001; 26: 305–8.CrossRefGoogle Scholar
15 Health Education Authority (HEA). Eight Guidelines for a Healthy Diet. London: HEA, 1997.Google Scholar
16 Department of Health. Dietary Reference Values for Food Energy and Nutrients for the United Kingdom. Report on Health and Social Subjects No. 41. London: HMSO, 1991.Google Scholar
17 Department of Health. Nutritional Aspects of Cardiovascular Disease. Report of the Cardiovascular Review Group of the Committee on Medical Aspects of Food Policy. Report on Health and Social Subjects No. 46. London: The Stationery Office, 1994.Google Scholar
18 Department of Health. Nutritional Aspects of the Development of Cancer. Report of the Working Group on Diet and Cancer of the Committee on Medical Aspects of Food and Nutrition Policy. Report on Health and Social Subjects No. 48. London: The Stationery Office, 1998.Google Scholar
19 Hughes, J. Assisting dietary change: current research. Br. Nutr. Found. Nutr. Bull. 2001; 26: 91–4.CrossRefGoogle Scholar
20 Parsons, TJ, Power, C, Logan, S, Summerbell, C. Childhood predictors of adult obesity: a systematic review. Int. J. Obes. 1999; 23(Suppl. 8): S1–107.Google ScholarPubMed
21 Parsons, TJ, Power, C, Manor, O. Fetal and early life growth and body mass index from birth to early adulthood in 1958 British cohort: longitudinal study. Br. Med. J. 2001; 323: 1331–5.CrossRefGoogle ScholarPubMed
22 Parsons, TJ, Power, C, Manor, O. Infant feeding and obesity through the lifecourse. Arch. Dis. Child. Submitted for publication.Google Scholar
23 Hardeman, W, Griffin, S, Johnston, M, Kinmonth, AL, Wareham, NJ. Interventions to prevent weight gain: a systematic review of psychological models and behaviour change methods. Int. J. Obes. 2000; 24: 131–43.CrossRefGoogle ScholarPubMed
24 Hardeman, W, Johnston, M, Johnston, D, Bonetti, DJ, Wareham, NJ, Kinmonth, AL. Application of the theory of planned behaviour in behaviour change interventions: a systematic review. Psychol. Health 2002; 17(2): 123–58.CrossRefGoogle Scholar
25 Ransley, JK, Donnelly, JK, Khara, TN, Botham, H, Arnot, H, Greenwood, DC, et al. The use of supermarket till receipts to determine the fat and energy intake in a UK population. Public Health Nutr. 2001; 4(6): 1279–86.CrossRefGoogle Scholar
26 Ransley, J, Donnelly, J, Khara, T, Botham, H, Arnot, H, Greenwood, D, et al. What do supermarket receipts reveal about the fat and energy content of food purchased by overweight and obese households? Submitted for publication.Google Scholar
27 Gregory, J, Lowe, S, Bates, C, Prentice, A, Jackson, L, Smithers, G, et al. National Diet and Nutrition Survey: Young People aged 4–18 years. Vol. 1. Report of the Diet and Nutrition Survey. London: The Stationery Office, 2000.Google Scholar
28 Dacie, J, Lewis, S. Practical Haematology, 8th ed. Edinburgh: Churchill Livingstone, 1995.Google Scholar
29 World Health Organization (WHO). Nutritional Anaemias. Technical Report Series No. 503. Geneva: WHO, 1972.Google Scholar
30 Ginty, F, Stear, S, Jones, S, Stirling, D, Bennet, J, Laidlaw, A, et al. Impact of calcium supplementation on markers of bone and calcium metabolism in 16–18 year old boys. J. Bone Miner. Res. 2002; in press.Google Scholar
31 Stear, S, Prentice, A, Jones, S, et al. Impact of calcium and exercise intervention on bone mineral status of 16–18 year old females. Am. J. Clin. Nutr. submitted for publication.Google Scholar
32 Stear, SJ, Prentice, A, Jones, SC, Cole, TJ. Bone mineral status of female adolescents 14 months after the cessation of a calcium and exercise intervention. In: World Congress on Osteoporosis, Chicago, IL, 2000 [special issue]. Osteoporosis Int. 2000.Google Scholar
33 Macdonald, HM, New, SA, Golden, MHN, Grubb, DA, Reid, DM. Weight gain in perimenopausal and early postmenopausal women: effects of HRT use. J. Bone Miner. Res. 2000; 15: S460.Google Scholar
34 Macdonald, H, New, S, Golden, M, Grubb, D, Reid, D. Changes in nutrient intake in peri and early post-menopausal Scottish women over a five year period. Proc. Nutr. Soc. 2000; 59(OCA Spring): 27A.Google Scholar
35 Macdonald, H, New, S, Campbell, M, Reid, D. Longitudinal changes in weight in perimenopausal and early postmenopausal women: effects of dietary energy intake, energy expenditure, dietary calcium intake and hormone replacement therapy. Int. J. Obes. Submitted for publication.Google Scholar
36 Macdonald, HM, New, SA, Golden, MHN, Grubb, DA, Reid, DM. Nutritional, genetic and physical activity influences on peri- and early post-menopausal bone loss: preliminary findings regarding use of hormone replacement therapy. Ann. Rheum. Dis. 1999; 58(Suppl.): 242.Google Scholar
37 Macdonald, HM, McGuigan, FE, New, SA, Campbell, M, Golden, MHN, Ralston, SH, et al. COL1A1 polymorphism and change in bone density over 5 years: findings from a longitudinal study of bone health in Scottish peri- and postmenopausal women. J. Bone Miner. Res. 1999; 14: S458.Google Scholar
38 Macdonald, HM, McGuigan, FE, New, SA, Campbell, M, Golden, MHN, Ralston, SH, et al. COL1A1 Sp1 polymorphism predicts perimenopausal and early postmenopausal spinal bone loss. J. Bone Miner. Res. 2001; 16: 1634–41.CrossRefGoogle ScholarPubMed
39 Macdonald, HM, New, SA, McGuigan, F, Golden, MHN, Ralston, SH, Grubb, DA, et al. Femoral neck bone loss and dietary Ca intake in peri and early post-menopausal Scottish women: an association dependent on VDR genotype? J. Bone Miner. Res. 2000; 15: S202.Google Scholar
40 Macdonald, HM, New, SA, Golden, MHN, Grubb, DA, Reid, DM. Nutritional influences on peri and postmenopausal bone loss: effects of alcohol and Ca intake. Osteoporosis Int. 2000; 11: S19.Google Scholar
41 Macdonald, H, New, S, Campbell, M, Reid, D. Nutrional influences on bone loss during menopausal transition: evidence for a beneficial effect of Ca, alcohol, and fruit and vegetable nutrients. Submitted for publication.Google Scholar
42 Macdonald, H, Golden, M, New, S, Grubb, D, Reid, D. The controversy surrounding calcium and bone health: is dietary fat involved? Submitted for publication.Google Scholar
43 Macdonald, HM, New, SA, McGuigan, F, Golden, MHN, Ralston, SH, Grubb, DA, et al. Modest alcohol intake reduces bone loss in peri and early post menopausal Scottish women: an effect dependent on estrogen receptor genotype? Bone 2001; 28(Suppl. 5): S95.Google Scholar
44 Macdonald, HM, New, SA, Golden, MHN, Grubb, DA, Reid, DM, eds. Food Groups Affecting Perimenopausal Bone Loss in Scottish Women. Switzerland: Ares-Serono Symposia Publications, Academic Press, 2001.Google Scholar
45 Jakes, RW, Khaw, K-T, Day, NE, Bingham, S, Welch, A, Oakes, S, et al. Patterns of physical activity and ultrasound attenuation by heel bone among Norfolk cohort of European Prospective Investigation of Cancer (EPIC Norfolk): population based study. Br. Med. J. 2001; 322: 140–3.CrossRefGoogle ScholarPubMed
46 Gregory, J, Foster, K, Tyler, H, Wiseman, M. The Dietary and Nutritional Survey of British Adults. London: HMSO, 1990.Google Scholar
47 Health Education Authority. The Balance of Good Health. Oxfordshire: Marston Book Services, 1996.Google Scholar
48 John, J, Ziebland, S, Yudkin, P, Roe, L, Neil, H. Effects of fruit and vegetable consumption on plasma antioxidant concentrations and blood pressure: a randomised controlled trial. Lancet 2002; 359(9322): 1969–74CrossRefGoogle ScholarPubMed
Armstrong, CN, Paganga, G, Brunner, E, Miller, N, Nanchahal, K, Shipley, M, et al. (1997). Reference values for α-tocopherol and β-carotene in the Whitehall II study. Free Radical Res. 27(2): 207–19.CrossRefGoogle ScholarPubMed
Bingham, S, Cassidy, A, Cole, T, Welch, A, Runswick, R, Black, A, et al. (1995). Validation of weighed records and other methods of dietary assessment using the 24 hour urine nitrogen technique and other markers. Br. J. Nutr. 73: 531–50.CrossRefGoogle Scholar
Bingham, S, Gill, C, Welch, A, Cassidy, A, Runswick, S, Oakes, S, et al. (1997). Validation of dietary assessment methods in UK arm of EPIC using weighed records and 24 hour urinary nitrogen and potassium and serum vitamin C and carotenoids as biomarkers. Int. J. Epidemiol. 26: S131–7.CrossRefGoogle ScholarPubMed
Bingham, S, Gill, C, Welch, A, Day, K, Cassidy, A, Khaw, K-T, et al. (1994). Comparison of methods in nutritional epidemiology: weighed records versus 24 h recalls, food frequency questionnaires and estimated diet records. Br. J. Nutr. 72: 619–43.CrossRefGoogle Scholar
Brunner, E, Marmot, M, Nanchahal, K, Shipley, M, Stansfeld, S, Juneja, M, et al. (1997). Social inequality in coronary risk: central obesity and the metabolic syndrome. Evidence from the Whitehall II study. Diabetologia 40(11): 1341–9.CrossRefGoogle ScholarPubMed
Brunner, E, Shipley, M, Blane, D, Smith, G, Marmot, M (1999). When does cardiovascular risk start? Past and present socioeconomic circumstances and risk factors in adulthood. J. Epidemiol. Community Health 53(12): 757–64.CrossRefGoogle ScholarPubMed
Brunner, E, Stallone, D, Juneja, M, Bingham, S, Marmot, M (2001 a). Dietary assessment in Whitehall II: comparison of 7-day diet diary and food frequency questionnaire and their validity against biomarkers. Br. J. Nutr. 86(3): 405–14.CrossRefGoogle Scholar
Brunner, E, Wunsch, H, Marmot, M (2001 b). What is an optimal diet? Relationship of macronutrient intake to obesity, glucose tolerance, lipoprotein cholesterol levels and the metabolic syndrome in the Whitehall II study. Int. J. Obes. Relat. Metab. Disord. 25(1): 4553.CrossRefGoogle ScholarPubMed
Carroll, D, Smith, G, Shipley, M, Steptoe, A, Brunner, E, Marmot, M (2001). Blood pressure reactions to acute psychological stress and future blood pressure status: a 10-year follow-up of men in the Whitehall II study. Psychosom. Med. 63(5): 737–43.CrossRefGoogle ScholarPubMed
Davey-Smith, G, Brunner, E (1997). Socio-economic differentials in health: the role of nutrition. Proc. Nutr. Soc. 56: 7590.CrossRefGoogle Scholar
Ferns, G, Forster, L, Williams, J, Tull, S, Verma, P, Starkey, B, et al. (2000). Effect of vitamin E supplementation on circulating cell adhesion molecules pre- and post-coronary angioplasty. Ann. Clin. Biochem. 37(5): 649–54.CrossRefGoogle ScholarPubMed
Frankel, S, Gunnell, D, Peters, T, Maynard, M, Davey, Smith G (1998). Childhood energy intake and adult mortality from cancer: the Boyd Orr cohort study. Br. Med. J. 316: 499504.CrossRefGoogle ScholarPubMed
Gale, C, Martyn, C, Cooper, C (1996). Cognitive impairment and mortality in a cohort of elderly people. Br. Med. J. 312: 608–11.CrossRefGoogle Scholar
Gale, C, Martyn, C, Minter, P, Cooper, C (1995). Vitamin C and risk of death from stroke and coronary heart disease in cohort of elderly people. Br. Med. J. 310: 1563–66.CrossRefGoogle ScholarPubMed
Gunnell, D, Davey-Smith, G, Frankel, S, Nanchahal, K, Braddon, F, Pemberton, J, et al. (1998 a). Childhood leg length and adult mortality: follow up of the Carnegie (Boyd Orr) survey of diet and health in pre-war Britain. J. Epidemiol. Community Health 52(3): 142–52.CrossRefGoogle ScholarPubMed
Gunnell, D, Frankel, S, Nanchahal, K, Braddon, F, Davey-Smith, G (1996). A retrospective cohort study based on a survey of family diet and health in pre-war Britain (1937–1939). Public Health 110: 8594.CrossRefGoogle Scholar
Gunnell, D, Frankel, S, Nanchahal, K, Peters, T, Davey-Smith, G (1998 b). Childhood obesity and adult cardiovascular mortality: a 57-y follow-up study based on the Boyd Orr cohort. Am. J. Clin. Nutr. 67(6): 1111–8.CrossRefGoogle ScholarPubMed
Hemingway, H, Whitty, C, Shipley, M, Stansfeld, S, Brunner, E, Fuhrer, R, et al. (2001). Psychosocial risk factors for coronary disease in white, South Asian and Afro-Caribbean civil servants: the Whitehall II study. Ethnicity Dis. 11(3): 391400.Google ScholarPubMed
Kemp, M, Gunnell, D, Davey-Smith, G, Frankel, S (1997). Finding and using inter-war maternity records. Soc. Hist. Med. 10(2): 305–29.CrossRefGoogle ScholarPubMed
Lake, J, Power, C, Cole, T (1997). Women's reproductive health: the role of body mass index in early and adult life. Int. J. Obes. Relat. Metab. Disord. 21(6): 432–8.CrossRefGoogle Scholar
Martikainen, P, Marmot, M (1999). Socioeconomic differences in weight gain and determinants and consequences of coronary risk factors. Am. J. Clin. Nutr. 69(4): 719–26.CrossRefGoogle ScholarPubMed
Mulholland, C, Elwood, P, Davis, A, Thurnham, D, Kennedy, O, Coulter, J, et al. (1999). Antioxidant enzymes, inflammatory indices and lifestyle factors in older men: a cohort analysis. Q. J. Med. 92(10): 579–85.CrossRefGoogle Scholar
Ness, A, Khaw, K, Bingham, S, Day, N (1996 a). Vitamin C status and serum lipids. Eur. J. Clin. Nutr. 50: 724–9.Google ScholarPubMed
Ness, A, Khaw, K, Bingham, S, Day, N (1996 b). Vitamin C status and respiratory function. Eur. J. Clin. Nutr. 50: 573–9.Google ScholarPubMed
Ness, A, Khaw, K, Bingham, S, Day, N (1996 c). Vitamin C status and undiagnosed angina. J. Cardiovasc. Risk 3: 373–7.CrossRefGoogle ScholarPubMed
Ness, A, Khaw, K, Bingham, S, Day, N (1996 d). Vitamin C status and blood pressure. J. Hypertens. 14(724–729): 503–8.CrossRefGoogle ScholarPubMed
Ness, A, Powles, J, Khaw, K-T (1996 e). Vitamin C and cardiovascular disease: a systematic review. J. Cardiovasc. Risk 3: 513–21.CrossRefGoogle ScholarPubMed
Power, C, Lake, J, Cole, T (1997 a). Measurement and long-term health risks of child and adolescent fatness. Int. J. Obes. Relat. Metab. Disord. 21(7): 507–26.CrossRefGoogle ScholarPubMed
Power, C, Lake, J, Cole, T (1997 b). Body mass index and height from childhood to adulthood in the 1958 British born cohort. Am. J. Clin. Nutr. 66(5): 1094–101.CrossRefGoogle ScholarPubMed
Stallone, D, Brunner, E, Bingham, S, Marmot, M (1997). Dietary assessment in Whitehall II: the influence of reporting bias on apparent socioeconomic variation in nutrient intakes. Eur. J. Clin. Nutr. 51(12): 815–25.CrossRefGoogle ScholarPubMed
Stansfeld, S, Fuhrer, R, Shipley, M, Marmot, M (2002). Psychological distress as a risk factor for coronary heart disease in the Whitehall II study. Int. J. Epidemiol. 31(1): 248–55.CrossRefGoogle ScholarPubMed
Strain, J, Elwood, P, Davis, A, Kennedy, O, Coulter, J, Fehily, A, et al. (2000). Frequency of fruit and vegetable consumption and blood antioxidants in the Caerphilly cohort of older men. Eur. J. Clin. Nutr. 54(11): 828–33.CrossRefGoogle ScholarPubMed
Tang, J-L, Armitage, J, Silagy, C, Lancaster, T, Fowler, G, Neil, H (1998). Systematic review of dietary intervention trials to lower cholesterol in free-living individuals. Br. Med. J. 316: 1215–9.Google Scholar
Williams, J, Forster, L, Tull, S, Wong, M, Bevan, R, Ferns, G (1997). Dietary vitamin E supplementation inhibits thrombin-induced platelet aggregation, but not monocyte adhesiveness, in patients with hypercholesterolaemia. Int. J. Exp. Pathol. 78(4): 259–66CrossRefGoogle Scholar
Bingham, SA, Welch, AA, McTaggart, A, Mulligan, AA, Runswick, SA, Luben, R, et al. (2001). Nutritional methods in the European Prospective Investigation of Cancer in Norfolk. Public Health Nutr. 4(3): 847–58.CrossRefGoogle ScholarPubMed
Ginty, F, Stear, S, Jones, S, Stirling, D, Bennet, J, Laidlaw, A, et al. (2002). Impact of calcium supplementation on markers of bone and calcium metabolism in 16–18 year old boys. J. Bone Miner. Res. 2002; in press.Google Scholar
Hardeman, W, Griffin, S, Johnston, M, Kinmonth, A, Wareham, N (2000). Interventions to prevent weight gain: a systematic review of psychological models and behaviour change methods. Int. J. Obes. 24: 131–43.CrossRefGoogle ScholarPubMed
Hardeman, W, Johnston, M, Johnston, D, Bonetti, D, Wareham, NJ, Kinmonth, AL (2002). Application of the theory of planned behaviour in behaviour change interventions: a systematic review. Psychol. Health 17(2): 123–58.CrossRefGoogle Scholar
Jakes, RW, Khaw, K-T, Day, NE, Bingham, S, Welch, A, Oakes, S, et al. (2001). Patterns of physical activity and ultrasound attenuation by heel bone among Norfolk cohort of European Prospective Investigation of Cancer (EPIC Norfolk): population based study. Br. Med. J. 322: 140–3.CrossRefGoogle ScholarPubMed
Macdonald, HM, Fraser, WD, McGuigan, FE, New, SA, Black, AJ, Ralston, SH, et al. (2001 c). The effect of COL1A1 polymorphism on bone resorption markers in early postmenopausal Scottish women. J. Bone Miner. Res. 16: S475.Google Scholar
Macdonald, H, Golden, M, New, S, Grubb, D, Reid, D (2002 a). The controversy surrounding calcium and bone health: is dietary fat involved? Submitted for publication.Google Scholar
Macdonald, HM, McGuigan, FE, New, SA, Campbell, M, Golden, MHN, Ralston, SH, et al. (1999 d). COL1A1 polymorphism and change in bone density over 5 years: findings from a longitudinal study of bone health in Scottish peri- and postmenopausal women. J. Bone Miner. Res. 14: S458.Google Scholar
Macdonald, HM, McGuigan, FE, New, SA, Campbell, M, Golden, MHN, Ralston, SH, et al. (2001 a). COL1A1 Sp1 polymorphism predicts perimenopausal and early postmenopausal spinal bone loss. J. Bone Miner. Res. 16: 1634–41.CrossRefGoogle ScholarPubMed
Macdonald, H, New, S, Campbell, M, Reid, D (2002 b). Nutritional influences on bone loss during menopausal transition: evidence for a beneficial effect of Ca, alcohol, and fruit and vegetable nutrients. Submitted for publication.Google Scholar
Macdonald, H, New, S, Campbell, M, Reid, D (2002 c). Longitudinal changes in weight in perimenopausal and early postmenopausal women: effects of dietary energy intake, energy expenditure, dietary calcium intake and hormone replacement therapy. Int. J. Obes. submitted for publication.Google Scholar
Macdonald, HM, New, SA, Golden, MHN, Grubb, DA, Reid, DM (1999 a). Nutritional, genetic and physical activity influences on peri- and early post-menopausal bone loss: preliminary findings regarding use of hormone replacement therapy. Scot. Med. J. 44: 26.Google Scholar
Macdonald, HM, New, SA, Golden, MHN, Grubb, DA, Reid, DM (1999 b). Nutritional, genetic and physical activity influences on peri- and early post-menopausal bone loss: preliminary findings regarding use of hormone replacement therapy. Ann. Rheum. Dis. 58(Suppl.): 242.Google Scholar
Macdonald, HM, New, SA, Golden, MHN, Grubb, DA, Reid, DM (1999 c). Changes in magnesium intake in peri- and early post-menopausal Scottish women over a five year period. J. Bone Miner. Res. 14: S383.Google Scholar
Macdonald, HM, New, SA, Golden, MHN, Grubb, DA, Reid, DM (2000 b). Weight gain in perimenopausal and early postmenopausal women: effects of HRT use. J. Bone Miner. Res. 15: S460.Google Scholar
Macdonald, H, New, S, Golden, M, Grubb, D, Reid, D (2000 c). Changes in nutrient intake in peri- and early post-menopausal Scottish women over a five year period. Proc. Nutr. Soc. 59(OCA Spring): 27A.Google Scholar
Macdonald, HM, New, SA, Golden, MHN, Grubb, DA, Reid, DM, eds. (2001 b). Food Groups Affecting Perimenopausal Bone Loss in Scottish Women, Switzerland: Ares-Serono Symposia Publications, Academic Press.Google Scholar
Macdonald, HM, New, SA, Golden, MHN, Reid, DM (1998 b). Changes in bone mass amongst peri- and recent post-menopausal women: preliminary findings. Bone 23: S304.Google Scholar
Macdonald, H, New, S, Grubb, D, Golden, M, Reid, D (1998 a). Nutritional, genetic and physical activity influences on peri-menopausal bone health: preliminary findings. In: Ring, E, Elvins, D, Bhalla, A, eds. Current Research in Osteoporosis and Bone Mineral Measurement V, London: British Institute of Radiology; 19.Google Scholar
Macdonald, HM, New, SA, McGuigan, F, Golden, MHN, Ralston, SH, Grubb, DA, et al. (2000 a). Femoral neck bone loss and dietary Ca intake in peri and early post-menopausal Scottish women: an association dependent on VDR genotype? J. Bone Miner. Res. 15: S202.Google Scholar
Macdonald, HM, New, SA, McGuigan, F, Golden, MHN, Ralston, SH, Grubb, DA, et al. (2001 d). Modest alcohol intake reduces bone loss in peri and early post menopausal Scottish women: an effect dependent on estrogen receptor genotype? Bone 28(Suppl. 5): S95.Google Scholar
Macdonald, H, New, S, Reid, D (2002 d). Dietary intake in Scottish women in the fourth and fifth decade: changes over a 5 to 6 year period. Submitted for publication.Google Scholar
Nelson, M, Ash, R, Mulvihill, C, Peters, TJ, Rogers, P (2001). Iron status, diet and cognitive function in British adolescent girls [abstract]. Proc. Nutr. Soc. 60: 59A.Google Scholar
Nelson, M, Ash, R, Mulvihill, C, Peters, T, Rogers, P (2002). Iron status and cognitive function in British adolescent girls. Submitted for publication.Google Scholar
Parsons, TJ, Power, C, Logan, S, Summerbell, C (1999). Childhood predictors of adult obesity: a systematic review. Int. J. Obes. 23(Suppl. 8): S1107.Google ScholarPubMed
Parsons, TJ, Power, C, Manor, O (2001 a). Birth weight, fetal growth constraint and fatness: birth to adulthood in the 1958 British cohort. Paediatr. Res. 50: 47A.Google Scholar
Parsons, TJ, Power, C, Manor, O (2001 b). Fetal and early life growth and body mass index from birth to early adulthood in 1958 British cohort: longitudinal study. Br. Med. J. 323: 1331–5.CrossRefGoogle ScholarPubMed
Power, C, Parsons, T (2000). Nutritional and other influences in childhood as predictors of adult obesity. Proc. Nutr. Soc. 59: 267–72.CrossRefGoogle ScholarPubMed
Power, C, Parsons, T (2002). Overweight and obesity. In: Kuh, D, Hardy, R, eds. Lifecourse Approach to Women's Health, Oxford: Oxford University Press.Google Scholar
Prentice, A, Stear, S, Ginty, F, Jones, S, Mills, L, Cole, T (2002). Calcium supplementation increases height and bone mass of 16–18 year old boys. J. Bone Miner. Res. 2002; in press.Google Scholar
Prynne, C, Paul, A, Greenberg, D, Bolton-Smith, C, Stear, S, Jones, S, et al. (2001). Dietary intake and sources of phylloquinone (vitamin K1) of a sample of adolescents in Cambridge, UK. Proc. Nutr. Soc. 60(OCB): 208A.Google Scholar
Ransley, J, Donnelly, J, Botham, H, Khara, T, Arnot, H, Cade, J, et al. (2001 b). Checking out fat in the diet: a new way to measure household fat and energy intake? [abstract]. Presented at the Fourth International Conference on Dietary Assessment, Tucson, AZ.Google Scholar
Ransley, J, Donnelly, J, Botham, H, Khara, T, Arnot, H, Cade, J, et al. (2002 a). What are the main sources of fat in supermarket shopping? An analysis of the contribution food groups make to fat purchased at supermarkets and foods eaten at home [abstract]. Proc. Nutr. Soc. 61(OCB): 143A.Google Scholar
Ransley, J, Donnelly, J, Khara, T, Botham, H, Arnot, H, Cade, J, et al. (1999). Checking out the fat in the trolley: a new way to measure household fat intake? [abstract]. Presented at the Royal Society of Medicine Healthy Weight Conference, London.Google Scholar
Ransley, J, Donnelly, J, Khara, T, Botham, H, Arnot, H, Cade, J, et al. (2001 a). What do itemised supermarket receipts reveal about the fat and energy content of the food shopping of households comprising overweight and obese members?. Proc. Nutr. Soc. 60: 222A.Google Scholar
Ransley, J, Donnelly, J, Khara, T, Botham, H, Arnot, H, Greenwood, D, et al. (2001 c). The use of supermarket till receipts to determine the fat and energy intake in a UK population. Public Health Nutr. 4(6): 1279–86.CrossRefGoogle Scholar
Ransley, J, Donnelly, J, Khara, T, Botham, H, Arnot, H, Greenwood, D, et al. (2002 b). What do supermarket receipts reveal about the fat and energy content of food purchased by overweight and obese households?. Submitted for publication.CrossRefGoogle Scholar
Stear, SJ, Prentice, A, Jones, SC, Cole, TJ (2000 a). Bone mineral status of female adolescents 14 months after the cessation of a calcium and exercise intervention. In: World Congress on Osteoporosis, Chicago, IL [special issue]. Osteoporosis Int.Google Scholar
Stear, SJ, Prentice, A, Jones, SC, Cole, TJ (2000 b). Relationship between body composition and bone mineral status in adolescents [abstract]. Presented at the American College of Sports Medicine 47th Annual Meeting, Indianapolis, IN.CrossRefGoogle Scholar
Stear, S, Prentice, A, Jones, S, et al. (2002). Impact of calcium and exercise intervention on bone mineral status of 16–18 year old females. Am. J. Clin. Nutr. submitted for publication.Google Scholar
Thane, C, Prynne, C, Ginty, F, Bolton-Smith, C, Stear, S, Jones, S, et al. (2002). Dietary phylloquinone (vitamin K1) intake: comparison between adolescents living in Cambridge and a national British sample [abstract]. Presented at the Nutrition Society Summer Meeting, Leeds.Google Scholar
Welch, AA, McTaggart, A, Mulligan, AA, Luben, R, Walker, N, Khaw, KT, et al. (2001). DINER (Data Into Nutrients for Epidemiological Research) – a new data-entry program for nutritional analysis in the EPIC–Norfolk cohort and the 7-day diary method. Public Health Nutr. 4(6): 1253–6.CrossRefGoogle ScholarPubMed
Anderson, AS, Bell, A, Adamson, A, Moynihan, P (2002). A questionnaire assessment of nutrition knowledge – validity and reliability issues. Public Health Nutr. 5(3): 497503.CrossRefGoogle ScholarPubMed
Anderson, A, Pine, C (2000). Dietary interventions in general dental practice – an unexplored opportunity [abstract]. Presented at National Dental Health Education Group, London.Google Scholar
Barton, K, Anderson, A, Pine, C, Paterson, M, Burnside, G (2001). Dietary interventions in general dental practice: an unexplored opportunity for promoting dietary change in low income communities. Proc. Nutr. Soc. 60: 5A.Google Scholar
Cappuccio, F, Rink, E, Perkins-Porras, L, McKay, C, Hilton, S, Steptoe, A (2002). The feasibility of a simple dietary questionnaire to estimate the level of fruit and vegetable intake in an inner city primary care setting. Br. J. Gen. Pract. 2002; in press.Google Scholar
John, J, Ziebland, S, Yudkin, P, Roe, L, Neil, H (2002). Effects of fruit and vegetable consumption on plasma antioxidant concentrations and blood pressure: a randomised controlled trial. Lancet 359(9322): 1969–74.CrossRefGoogle ScholarPubMed
Moynihan, PJ, Anderson, AS, Stacy, R, Hyland, R, Revill, SA, Hooper, J, et al. (2001 a). The effect of an after school ‘Food Club’ on food preparation skills and nutritional knowledge. Proc. Nutr. Soc. 60: 181A.Google Scholar
Moynihan, P, Cowell, T, Stacy, R, McNamee, P, Adamson, A (2001 b). The Good Food Club: setting up an after school food club to teach practical food preparation using health foods, at Key Stage 3. J. Design Technol. Educ. 6(3): 239–45.Google Scholar
Moynihan, P, Revill, S, Adamson, A (2002). Intake of NME sugars: effect of a school-based intervention. J. Dent. Res. 81: A491.Google Scholar
Neil, H, Lean, M, Crozier, A (2002). Use of plasma flavonol measurements as a biomarker for dietary intake in a clinical trial of an intervention to increase fruit and vegetable intake. Submitted for publication.Google Scholar
Revill, SA, Adamson, AJ, Anderson, AS, Stacy, R, Hooper, J, Taylor, H, et al. (2000). Nutritional knowledge, food preparation, knowledge and cooking confidence of 187 schoolchildren. Proc. Nutr. Soc. 60: 3A.Google Scholar
Revill, SA, Adamson, AJ, Stacy, R, Hooper, J, Moynihan, PJ (2001). The effect of an after school ‘Food Club’ on intake of foods and nutrients by children from deprived social backgrounds. Proc. Nutr. Soc. 60: 189A.Google Scholar
Steptoe, A, Perkins-Porras, L, McKay, C, Rink, E, Hilton, S, Cappuccio, F (2002). Psychological factors associated with fruit and vegetable intake and with biomarkers in adults from a low-income neighborhood. Health Psychol. 2002; in press.Google Scholar