Fluoride (F) has an important nutritional and public health impact due to its beneficial role in the mineralization of bones and teeth( Reference Palmer and Wolfre 1 ) and with optimal usage it can reduce dental caries by up to 50%. However, recent studies in industrialised and developing countries have shown an increase in the prevalence of dental fluorosis (tooth mottling) in both water-fluoridated and non water-fluoridated communities( Reference Pendrys and Stamm 2 ) which appears to be due to chronic excessive ingestion of F, primarily from toothpastes. However, in view of the narrow gap between optimal and excessive F intake, considerable interest has also focused on studies involving measurement of dietary F intake, mainly using either 3-day food diary (3-d FD) or 2-day duplicate plate collection (2-d DP) methods. The aim of this study was to assess the agreement between 3-d FD and 2-d DP methods for daily dietary F intake of children.
Dietary data for 61 healthy children aged 4–6 years were collected using 3-d FD and 2-d DP methods with a one-week gap between each collection (randomised order). Duplicate diets were analysed for F by an acid-diffusion method( Reference Martínez-Mier, Cury and Heilman 3 ). Paired t-test and Bland-Altman limits of agreement were used to compare estimated dietary F intake by the two methods at group and individual levels, respectively. Due to a substantial relationship between differences and mean with the raw data (proportional bias), analysis was performed on log-transformed data providing ratio limits of agreement. However, the log-transformation did not completely eliminate the proportional bias, as seen in the plot.
The non-substantial difference in the mean total dietary F intake estimated by the 3-d FD vs. 2-d DP methods, at group level, suggests that either method can be used when estimating the mean total daily dietary F intake of a population. However, at the individual level, the wide limits of agreement for estimated total dietary F intake between the two dietary assessment methods indicated that these methods cannot be used interchangeably. In conclusion, based on the aim of the investigation, when determining the percentage of children with optimal, sub-optimal or excess F intake for implementing, evaluating or monitoring any systemic fluoridation, one of these two methods should be selected for use throughout the study.
Supported by grants from University of Teesside Research Doctoral Scholarships and The Borrow Foundation.