Vitamin D concentrations in Asian children aged 2years living in England: population survey
BMJ 1999; 318 doi: https://doi.org/10.1136/bmj.318.7175.28 (Published 02 January 1999) Cite this as: BMJ 1999;318:28- Margaret Lawson, senior lecturer in paediatric nutrition (m.lawson{at}ich.ucl.ac.uk)a,
- Margaret Thomas, senior researcherb
- aChildhood Nutrition Research Centre, Institute of Child Health, London WC1N 1EH
- bOffice for National Statistics, London SW1V 2QQ
- Correspondence to: Dr Lawson
Editorial by Wharton Clinical review p 39
The Social Survey Division of the Office for National Statistics on behalf of the Department of Health carried out a survey between 1994and 1996of infant feeding practices of mothers of Bangladeshi, Indian, or Pakistani origin living in England.1 A blood sample was taken during October-November 1996from a subsample of children aged 2years for analysis of iron and 25-hydroxycholecalciferol (vitamin D) concentrations. Details for iron concentration are published elsewhere. 1 2 We here report the vitamin D concentration.
Subjects, methods, and results
Vitamin D concentration was measured in 618of the children. No evidence was found of bias influencing the selection of this subgroup, which seems to be representative of Asian children in England. The table shows serum 25-hydroxycholecalciferol concentrations for the three groups in comparison with data from the national diet and nutrition survey of preschool children.3 Between 20% and 34% of children in the three ethnic groups had values of vitamin D below 25nmol/l, a value considered to indicate deficiency,4 and 13-18% had values below 20nmol/l; the percentages in the national survey were 1% and 0% respectively. Between 20% and 29% of children in the study had a haemoglobin concentration <110 g/l.2 All children in the study were apparently healthy, and none had been diagnosed as having rickets. At the age of 2about 25% of children were given the Department of Health's recommended vitamin drops, which contain vitamins A, C, and D.In the national survey less than 5% were given such drops.3
Multiple regression analysis showed for all groups that the concentration of vitamin D was associated with whether children were given vitamin supplements. In bivariate analysis, failure to take a vitamin supplement, a haemoglobin concentration of less than 110g/l, and a ferritin value of less than 10µg/l were associated with vitamin D concentrations lower than 25nmol/l.
Comment
Rickets has been recognised as a problem in children of Asian immigrants since the 1960s, but, although the Stop Rickets campaign (which encouraged vitamin supplementation) seemed to decrease the incidence of rickets in some regions, no national evaluation of its effectiveness has been carried out. Our data suggest that matters have improved slightly in Bangladeshi and Indian children but not in Pakistani children. Serum vitamin D concentrations show a seasonal variation, with lowest values early in the year.3 Therefore the October values for these children are likely to drop further to those associated with rachitic bone changes in a higher proportion of children.
Some confusion exists among healthcare professionals about the necessity for vitamin supplementation after the age of 1year, although the Department of Health recommends supplements for all children up to the age of 5.Those working with ethnic minority groups must deliver a clear message that a vitamin D supplement is essential for all Asian children under 5.
A high degree of association between iron deficiency anaemia and vitamin D deficiency has been reported previously.5 A fifth of British Asian children surveyed showed signs of both deficiencies, and during the winter 50% of children with low vitamin D had low haemoglobin compared with none with normal vitamin D. In our study, iron deficiency was a significant risk factor for low vitamin D concentration in all three ethnic groups. This high association should alert clinicians to recommend a vitamin D supplement and screening for rickets in children with low haemoglobin concentrations.
Acknowledgments
We thank colleagues in the Social Survey Division of the Office for National Statistics, the interviewers, phlebotomists, and especially the families who participated in the study.
Contributors: ML coordinated the blood collection and laboratory analysis; MT coordinated the data collection and analysis. ML and MT wrote the manuscript. Ann Hardiman (Nutrition Unit, Institute of Child Health) managed the practical aspects of blood collection, and Vivienne Avery (Office for National Statistics) helped with data management. Plasma 25-hydroxycholecalciferol concentrations were measured by the Department of Chemical Pathology, Leicester Royal Infirmary, Leicester.
Funding: The study was funded by the Department of Health, whose staff also provided support.
Conflict of interest: None.