Achieving an understanding of the extent of micronutrient adequacy across Europe is a major challenge. The main objective of the present study was to collect and evaluate the prevalence of low micronutrient intakes of different European countries by comparing recent nationally representative dietary survey data from Belgium, Denmark, France, Germany, The Netherlands, Poland, Spain and the United Kingdom. Dietary intake information was evaluated for intakes of Ca, Cu, I, Fe, Mg, K, Se, Zn and the vitamins A, B1, B2, B6, B12, C, D, E and folate. The mean and 5th percentile of the intake distributions were estimated for these countries, for a number of defined sex and age groups. The percentages of those with intakes below the lower reference nutrient intake and the estimated average requirement were calculated. Reference intakes were derived from the UK and Nordic Nutrition Recommendations. The impact of dietary supplement intake as well as inclusion of apparently low energy reporters on the estimates was evaluated. Except for vitamin D, the present study suggests that the current intakes of vitamins from foods lead to low risk of low intakes in all age and sex groups. For current minerals, the study suggests that the risk of low intakes is likely to appear more often in specific age groups. In spite of the limitations of the data, the present study provides valuable new information about micronutrient intakes across Europe and the likelihood of inadequacy country by country.
AbstractIntroduction:An adequate and balanced intake of energy and nutrients is important for growth of children and prevention of diseases. The aim of this study was to get insight in the prevalence of low and high intakes of micronutrients and its association with overweight among Dutch children. This insight can contribute to the development of policy on healthy diet and specific nutritional information.Materials and methods:Food and supplement consumption data of children 1–18 years (n = 2.235) were collected in 2012–2016 with two independent 24-hr recalls. Body Mass Index (BMI) was based on measured body height and weight for 1–15 year-olds, and self-reported values for 16–18 year–olds. Using the Dutch food and supplement composition tables, the habitual nutrient and energy intake distribution were estimated and evaluated with the dietary reference values of the Dutch Health Council. Analyses were performed for the total group as well as for classes of BMI.Results:The intake of most micronutrients was sufficient for the children until the age of 13. No statement on this can be made for the intake of iron and vitamin D (girls). For the Dutch teenagers, low intakes of vitamin A (43%), iron (10% of the boys and 77% of the girls) and vitamin C (18%) were observed. For many other nutrients (calcium, potassium, magnesium, iron, zinc, vitamins B1, B2, B6, D, K1 and folate) the risk of low intakes among (subgroups of) teenagers were evaluated as ‘unknown’, as the median intakes were lower than the adequate intakes. In all age groups, the intakes of copper and vitamins B3 and B12 were sufficient.At the same time, the majority of the children (72% of the boys and 50% of the girls) had a high intake of sodium and a small number of children had high intakes of zinc (7%), copper (3%) or vitamin A (4% of the boys).17% of the children had overweight or obesity and for 9% the weight was evaluated as underweight. The prevalence of low intakes of vitamins A, D and iron was associated with BMI.Discussion:This study suggests that the food consumption of Dutch children can be improved with a more balanced intake of energy and nutrients to prevent obesity and low and high intakes. However, not for all nutrients the health impact is clear. So, more research on the nutrient requirements among children and the related health impact is necessary.
SPADE offers new features to existing programs to estimate the habitual intake distribution because it can handle many different types of modeling with the first-shrink-then-add approach.
Objective: Reduction in the current high levels of meat and dairy consumption may contribute to environmental as well as human health. Since meat is a major source of Fe, effects on Fe intake need to be evaluated, especially in groups vulnerable to negative Fe status. In the present study we evaluated the effects of replacing meat and dairy foods with plant-based products on environmental sustainability (land requirement) and health (SFA and Fe intakes) in women. Design: Data on land requirements were derived from existing calculation methods. Food composition data were derived from the Dutch Food Composition Table 2006. Data were linked to the food consumption of young Dutch women. Land requirements and nutrient intakes were evaluated at baseline and in two scenarios in which 30 % (Scenario_30 %) or 100 % (Scenario_100 %) of the dairy and meat consumption was randomly replaced by the same amount of plant-based dairy-and meat-replacing foods. Setting: The Netherlands. Subjects: Three hundred and ninety-eight young Dutch females. Results: Replacement of meat and dairy by plant-based foods benefited the environment by decreasing land use. The intake of SFA decreased considerably compared with the baseline situation. On average, total Fe intake increased by 2?5 mg/d, although most of the Fe intake was from a less bioavailable source. Conclusions: Replacement of meat and dairy foods by plant-based foods reduced land use for consumption and SFA intake of young Dutch females and did not compromise total Fe intake.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.