Ls. Because the types of food consumed and the adequacy of food intakes by young SMER-28 chemical information children may differ substantially from those of adults in the same population, food balance sheet data may be more reflective of adult dietary intakes than intakes by children. Studies of preventive zinc supplementation have found that increasing zinc intake in at-risk populations increases children’s weight gain and linear growth, thereby reducing the prevalence of stunting [2]. Thus, a portion of stunting is attributable to inadequate zinc intake, and the prevalence of stunting among young children can be used as an indirect indicator of population zinc status [9]. In low- and middle-income countries, the mean prevalence of stunting in children less than 5 years of age from 2003?007 was 30.3 [20]. In the present analyses, we found that the prevalence of stunting was positively correlated with the estimated prevalence of inadequate zinc intake. The mean prevalence of stunting in countries identified as being at low, moderate and high risk of inadequate zinc intake were 19.6 , 28.8 and 43.2 , respectively. However, in low- and middle-income countries, the mean prevalence of stunting was greater than the mean estimated prevalence of inadequate zinc intake (19.6 ), and country-specific changes in the prevalence of stunting over time were not associated with parallel changes in the prevalence of the estimated risk of inadequate zinc intake. It is likely that the prevalence of zinc deficiency is higher in children under five years of age than in the general population, owing to higher nutrient density needs and rates of infection among infants and young children in low- and middle-income countries. As a result, we would expect the prevalence of stunting in a population to be higher than the estimated prevalence of inadequate zinc intake based on the adequacy of zinc in the national food supply. In addition, both indicators only provide suggestive evidence of zinc deficiency and the causes of childhood stunting are multi-factorial, which may provide some explanation for the considerable variability around the “best-fit” line. The use of FAO food balance sheets to estimate the adequacy of zinc in national food supplies provides valuable suggestive evidence of the risk of inadequate zinc intake in respective populations, and thus the population risk of zinc deficiency. As the adequacy of zinc in the national food MedChemExpress UKI-1 supply may be more likely to reflect the risk of zinc deficiency among adults, the inclusion of information on the prevalence of childhood stunting (more likely to be reflective of child risk of zinc deficiency) may provide a more comprehensive estimate of a population’s risk of zinc deficiency when using indirect indicators [1,9]. Direct indicators of population zinc status, including plasma zinc concentration and dietary zinc intake, need to be assessed as part of nationally representative nutritional assessment surveys. As this information becomes available, these data can be used to further refine and validatethe use of FAO food balance sheets and stunting prevalence to estimate the risk of inadequate zinc intake in populations.Supporting InformationFigure S1 Relationship between the absolute change in the estimated prevalence of inadequate zinc intake and the change in the prevalence of stunting. Stunting (low height-for-age) data are for children under five years of age in138 low- and middle-income countries between 1990 and 2005. The solid line.Ls. Because the types of food consumed and the adequacy of food intakes by young children may differ substantially from those of adults in the same population, food balance sheet data may be more reflective of adult dietary intakes than intakes by children. Studies of preventive zinc supplementation have found that increasing zinc intake in at-risk populations increases children’s weight gain and linear growth, thereby reducing the prevalence of stunting [2]. Thus, a portion of stunting is attributable to inadequate zinc intake, and the prevalence of stunting among young children can be used as an indirect indicator of population zinc status [9]. In low- and middle-income countries, the mean prevalence of stunting in children less than 5 years of age from 2003?007 was 30.3 [20]. In the present analyses, we found that the prevalence of stunting was positively correlated with the estimated prevalence of inadequate zinc intake. The mean prevalence of stunting in countries identified as being at low, moderate and high risk of inadequate zinc intake were 19.6 , 28.8 and 43.2 , respectively. However, in low- and middle-income countries, the mean prevalence of stunting was greater than the mean estimated prevalence of inadequate zinc intake (19.6 ), and country-specific changes in the prevalence of stunting over time were not associated with parallel changes in the prevalence of the estimated risk of inadequate zinc intake. It is likely that the prevalence of zinc deficiency is higher in children under five years of age than in the general population, owing to higher nutrient density needs and rates of infection among infants and young children in low- and middle-income countries. As a result, we would expect the prevalence of stunting in a population to be higher than the estimated prevalence of inadequate zinc intake based on the adequacy of zinc in the national food supply. In addition, both indicators only provide suggestive evidence of zinc deficiency and the causes of childhood stunting are multi-factorial, which may provide some explanation for the considerable variability around the “best-fit” line. The use of FAO food balance sheets to estimate the adequacy of zinc in national food supplies provides valuable suggestive evidence of the risk of inadequate zinc intake in respective populations, and thus the population risk of zinc deficiency. As the adequacy of zinc in the national food supply may be more likely to reflect the risk of zinc deficiency among adults, the inclusion of information on the prevalence of childhood stunting (more likely to be reflective of child risk of zinc deficiency) may provide a more comprehensive estimate of a population’s risk of zinc deficiency when using indirect indicators [1,9]. Direct indicators of population zinc status, including plasma zinc concentration and dietary zinc intake, need to be assessed as part of nationally representative nutritional assessment surveys. As this information becomes available, these data can be used to further refine and validatethe use of FAO food balance sheets and stunting prevalence to estimate the risk of inadequate zinc intake in populations.Supporting InformationFigure S1 Relationship between the absolute change in the estimated prevalence of inadequate zinc intake and the change in the prevalence of stunting. Stunting (low height-for-age) data are for children under five years of age in138 low- and middle-income countries between 1990 and 2005. The solid line.