Fluoride supplements (tablets, drops, lozenges or chewing gums) for preventing dental caries in children
Abstract
Background
Dietary fluoride supplements were first introduced to provide systemic fluoride in areas where water fluoridation is not available. Since 1990, the use of fluoride supplements in caries prevention has been re‐evaluated in several countries.
Objectives
To evaluate the efficacy of fluoride supplements for preventing dental caries in children.
Search methods
We searched the Cochrane Oral Health Group's Trials Register (to 12 October 2011), the Cochrane Central Register of Controlled Trials (CENTRAL) (The Cochrane Library 2011, Issue 3), MEDLINE via Ovid (1950 to 12 October 2011), EMBASE via Ovid (1980 to 12 October 2011), WHOLIS/PAHO/MEDCARIB/LILACS/BBO via BIREME (1982 to 12 October 2011), and Current Controlled Trials (to 12 October 2011). We handsearched reference lists of articles and contacted selected authors.
Selection criteria
We included randomised or quasi‐randomised controlled trials comparing, with minimum follow‐up of 2 years, fluoride supplements (tablets, drops, lozenges) with no fluoride supplement or with other preventive measures such as topical fluorides in children less than 16 years of age at the start. The main outcome was caries increment measured by the change in decayed, missing and filled tooth surfaces (DMFS).
Data collection and analysis
Two review authors, independently and in duplicate, assessed the eligibility of studies for inclusion, and carried out risk of bias assessment and data extraction. In the event of disagreement, we sought consensus and consulted a third review author. We contacted trial authors for missing information. We used the prevented fraction (PF) as a metric for evaluating the efficacy of the intervention. The PF is defined as the mean caries increment in controls minus mean caries increment in the treated group divided by mean caries increment in controls. We conducted random‐effects meta‐analyses when data could be pooled. We assessed heterogeneity in the results of the studies by examining forest plots and by using formal tests for homogeneity. We recorded adverse effects (fluorosis) when the studies provided relevant data.
Main results
We included 11 studies in the review involving 7196 children.
In permanent teeth, when fluoride supplements were compared with no fluoride supplement (three studies), the use of fluoride supplements was associated with a 24% (95% confidence interval (CI) 16 to 33%) reduction in decayed, missing and filled surfaces (D(M)FS). The effect of fluoride supplements was unclear on deciduous or primary teeth. In one study, no caries‐inhibiting effect was observed on deciduous teeth while in another study, the use of fluoride supplements was associated with a substantial reduction in caries increment.
When fluoride supplements were compared with topical fluorides or with other preventive measures, there was no differential effect on permanent or deciduous teeth.
The review found limited information on the adverse effects associated with the use of fluoride supplements.
Authors' conclusions
This review suggests that the use of fluoride supplements is associated with a reduction in caries increment when compared with no fluoride supplement in permanent teeth. The effect of fluoride supplements was unclear on deciduous teeth. When compared with the administration of topical fluorides, no differential effect was observed. We rated 10 trials as being at unclear risk of bias and one at high risk of bias, and therefore the trials provide weak evidence about the efficacy of fluoride supplements.
PICOs
Plain language summary
Fluoride supplements (tablets, drops, lozenges or chewing gums) for preventing tooth decay in children
Tooth decay (dental caries) can cause pain and lead to loss of teeth. In most developed countries, the prevalence of dental caries has decreased in the past 30 years in child populations. Nevertheless, some individuals or populations experience an increased caries challenge and are considered as being at 'high caries risk'.
Fluoride is a mineral that prevents tooth decay. Fluoride can be administered in different ways, either topically (toothpastes, mouth rinses, varnishes, gels) or systemically (fluoride supplements, fluoridated water, salt). Today, posteruptive (topical) preventive effect of fluoride is considered as being more important than the pre‐eruptive (systemic) effect. Topical fluorides have been shown to be highly effective and the use of fluoride‐containing toothpastes is now almost universal. When daily toothbrushing with a fluoridated toothpaste is not carried out or when the caries‐risk is increased, additional sources of fluoride could be recommended.
Fluoride supplements are administered in the form of lozenges, tablets or liquids. In this review, we only considered fluoride administered through supplements.
The review indicates that in schoolchildren (greater than 6 years of age), fluoride supplements when compared with no fluoride supplementation had a preventive effect on caries in permanent teeth. There was no differential effect between fluoride supplements and topical fluorides for preventing dental caries. Many of the studies included in the review had been conducted at a time when topical fluorides were not widely used. There is thus a lack of evidence from the review to make actual good recommendations. Today, the effect of fluoride supplements in children using fluoride toothpastes on a regular basis would probably be limited.
In the review, no conclusion could be reached about the effectiveness of fluoride supplements in preventing tooth decay in young children (less than 6 years of age) with deciduous teeth. Moreover, insufficient evidence exists to show whether or not using fluoride supplements in young children (less than 6 years of age) could mottle teeth (fluorosis), an effect of chronic ingestion of excessive amounts of fluoride.
