Hostname: page-component-8448b6f56d-cfpbc Total loading time: 0 Render date: 2024-04-24T01:38:06.886Z Has data issue: false hasContentIssue false
  • English
  • Français

Nutritional research in World War 2: The Oxford Nutrition Survey and its research potential 50 years later

Published online by Cambridge University Press:  09 March 2007

Rachel R. Huxley ,
B. B. Lloyd ,
M. Goldacre  and
H. A. W. Neil
Rachel R. Huxley*
Affiliation:
Division of Public Health & Primary Health Care, University of Oxford, Oxford, UK
B. B. Lloyd
Affiliation:
Magdalen College, Oxford, UK
M. Goldacre
Affiliation:
Division of Public Health & Primary Health Care, University of Oxford, Oxford, UK
H. A. W. Neil
Affiliation:
Division of Public Health & Primary Health Care, University of Oxford, Oxford, UK
*
*Corresponding author: Rachel Huxley, fax +44 (0)1865 226720, email rachel.huxley@dphpc.ox.ac.uk
Rights & Permissions [Opens in a new window]

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.

To investigate the nutritional status of the population of the UK during the Second World War, nutritional surveys were commissioned in 1941. These included surveys of two groups of pregnant women: the first comprised 120 working-class women who were studied in the spring of 1942, and a second group of 253 women in 1944. Both groups were followed up until after delivery. Detailed biochemical assessments were performed on each subject. Our statistical analysis of the haematological data showed that nearly 25 % of women from the 1942 group were deficient in protein, over 60 % were deficient in Fe and vitamin A, and over 70 % had severe vitamin C deficiency. The findings were reported to the Ministries of Health and Food who instigated a food supplementation policy at the end of 1942 that entitled pregnant women in the UK to extra rations of fruit, dairy produce and to a supply of cod-liver-oil tablets. A second group of 253 pregnant women were studied 15 months later which enabled the effects of this programme to be investigated. Supplementation reduced the proportion of women with vitamin A concentrations below the normal range from 63 % to 38 %, and vitamin C from 78 % to 20 %, but protein and Fe concentrations were not increased but actually declined. These findings continued to exert an influence over government food policy for pregnant women until the abolition of rationing in 1954.

Keywords

Maternal nutritionNutritional deficienciesSupplements
Type
Research Article
Information
British Journal of Nutrition , Volume 84 , Issue 2 , August 2000 , pp. 247 - 251
Copyright
Copyright © The Nutrition Society 2000

References

Dahri, S, Snoeck, A, Reussens-Billens, B, Remacle, C and Hoet, JJ (1991) Islet function in offspring of mothers on low protein diets during gestation. Diabetes 40, 115120.CrossRefGoogle Scholar
Gibney, MJ, Moloney, M and Shelley, S (1989) The Kilkenny Health Project: food and nutrient intakes in randomly selected healthy adults. British Journal of Nutrition 61, 129137.CrossRefGoogle ScholarPubMed
Huff, JW and Perlzweig, WA (1943) N′-Methylnicotinamide, a metabolite of nicotinic acid in the urine. Journal of Biological Chemistry 150, 395.CrossRefGoogle Scholar
Langley-Evans, S, Gardner, DS and Jackson, AA (1996) Association of disproportionate growth of fetal rats in late gestation with raised systolic blood pressure in later life. Journal of Reproduction and Fertility 106, 307312.CrossRefGoogle ScholarPubMed
Lloyd, BB (1991) Nourishing a nation. In The Founders of Modern Nutrition, Sinclair, p. 29. Oxford: The McCarrison Society.Google Scholar
Ministry of Food (1951) In The Urban Working-Class Household Diet 1940–1949. First Report of the National Food Survey Committee, pp. London: H.M. Stationery Office. 4051.Google Scholar
Ravelli, ACJ, van der Meulen, JHP, Michels, RPJ, Osmond, C, Barker, DJP, Hales, CN and Bleker, OP (1998) Glucose tolerance in adults after prenatal exposure to famine. Lancet 351, 173177.CrossRefGoogle ScholarPubMed
Roe, JH and Kuether, CA (1943) The determination of ascorbic acid in whole blood and urine through the 2,4-dinitrophenylhydrazine derivative of dehydroascorbic acid. Journal of Biological Chemistry 147, 399.CrossRefGoogle Scholar
Sinclair, HM (1951) Nutritional surveys of population groups. New England Journal of Medicine 245, 3947.CrossRefGoogle ScholarPubMed
Stanner, SA, Bulmer, K, Andres, C, Lantseva, OE, Borodina, V, Poteen, W and Yudkin, JS (1997) Does malnutrition in utero determine diabetes and coronary heart disease in adulthood? Results from the Leningrad Siege study, a cross-sectional study. British Medical Journal 315, 13421348.CrossRefGoogle ScholarPubMed
Thomas, B (1994) Manual of Dietetic Practice, 2nd ed. London: Blackwell Scientific Publications.Google Scholar
Yudkin, S (1941) Estimation of vitamin A and carotene in human blood. Biochemistry Journal 35, 551.CrossRefGoogle ScholarPubMed