Most animal models for the study of calculus accumulation and control currently use rodents or dogs. In an effort to overcome limitations inherent in the use of these species, we investigated calculus formation in domestic ferrets, a species used by King et al. in the 1940's and 1950's. Ferrets are much smaller than dogs, and, unlike rodents, can be scored while alive. In this study, we examined the kinetics of calculus formation in female ferrets fed with moist canned cat food--either plain or supplemented with sucrose--and two combinations of mineral salts. An additional group given supplemented cat food was treated twice daily with regular Crest toothpaste. Animals were sedated with a 1:1 mixture of ketamine and xylazine solutions and given a mechanical prophylaxis prior to the trial period, then scored for area and extent of calculus accumulation at two, four, six, and eight weeks thereafter. The data showed that the mineral-supplemented groups accumulated calculus at a significantly faster rate than the unsupplemented or dentifrice-treated groups, but the differences were no longer significant at eight weeks. This demonstrated that the ferret is a suitable model for the study of calculus, that dietary mineral content influenced calculogenesis, and that the application of regular dentifrice initially slowed, but did not prevent, calculus accumulation.
Work performed by King et al. in the 1940's and 1950's, as well as recent studies by our group, have shown that the domestic ferret is a suitable model for the study of calculus formation, offering several advantages over the rodent and dog models in current use. We have demonstrated that mineral supplementation of a moist diet accelerates calculus accumulation, and that twice-daily application of a regular dentifrice slows the initial rate of calculus formation, but permits significant accumulation by the eighth week. The present study compared calculus accumulation in female ferrets receiving mineral-supplemented cat food and a twice-daily application of either Regular Crest toothpaste (Crest), Anti-tartar Crest (Crest-AT), or Anti-tartar Colgate Gold toothpaste (Colg-AT). Animals received an ultrasonic prophylaxis, then were fed once daily for eight weeks with moist canned cat food supplemented with sucrose and mineral salts, and were scored for area and extent of calculus accumulation at four and eight weeks after prophylaxis. The data show that the groups treated with the anti-calculus dentifrices produced significantly less calculus than the group treated with regular dentifrice; the Colg-AT group also exhibited lower scores than did the Crest-AT group, especially at four weeks. These results, similar to those seen in human studies, demonstrate that the ferret is a suitable model for the study of anti-calculus dentifrices.
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