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An Abbreviated Caries Clinical Trial Design Validated over 24 Months

¹ Unilever Dental Research, Port Sunlight, Quarry Road East, Bebington, Wirral CH63 3JW, UK;
² Dundee University, Scotland; and
³ Vilnius University, Lithuania;

* corresponding author, Richard.Chesters{at}Unilever.com

	ABSTRACT

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Conventional caries trials last from 24 to 36 months. This study evaluated whether the previously established difference in efficacy between 1000- and 2500-ppm-fluoride dentifrices could be detected after 12 months. Caries was assessed by clinical visual assessment (CVA-simplified version of Dundee Selectable Threshold Method - DSTM), bitewing radiography, and Fiber Optic Transillumination (FOTI). Changes in status for individual surfaces were classified by means of pre-prepared matrices as 0 (unchanged), +1 (initiation or progression), or -1 (regression) and summed for each subject to yield an event score. Mean group event scores were calculated for each product. DSTM at the D₁ [enamel and dentin] threshold showed significant inter-group differences in mean event scores (p < 0.003) and D₁MFS increment (< 0.007) at 12 months; these were confirmed at 24 months by traditional increment analysis (CVA & FOTI at the D₃ (dentin only) threshold + radiography, p < 0.03). This study confirms the validity of an abbreviated trial protocol.

KEY WORDS: caries clinical trials • fiber optic transillumination • clinical visual assessment • Dundee Selectable Threshold Method • digital radiography

	INTRODUCTION

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Our understanding of the dental caries process has evolved in recent years. Caries is now considered to be a continuum, with some early lesions detected at the D₁ threshold (enamel and dentin) proving to be reversible through net remineralization, and advanced lesions detected at the D₃ threshold (dentin only) manifesting as cavitation (Pitts, 1985; Ismail, 1997; Featherstone, 2000; Alfano et al., 2001). However, caries clinical trials are still traditionally performed at the D₃ diagnostic threshold over periods of up to 3 yrs (Stookey et al., 1993) and require large numbers of subjects (Kingman and Selwitz, 1997). Caries clinical trial design needs to be reviewed to keep pace with our evolving understanding of caries and developments in diagnostic techniques (Pitts, 1997).

This study was designed to evaluate the use of visual assessment, including non-cavitated enamel caries lesions, as well as other diagnostic methods in a 12-month clinical trial methodology for demonstrating known differences in efficacy between conventional (1000 ppm fluoride) and high-fluoride (2500 ppm F) dentifrices. Products with these fluoride levels have shown differing anticariogenic efficacies in 36-month trials (Stephen et al., 1988; Marks et al., 1994). The traditional caries 24-month increment (D₃MFS index) was used as the benchmark for assessing anticaries efficacy. This paper reports data obtained by clinical visual assessment (CVA) with a simplified version of the Dundee Selectable Threshold Method (DSTM) (see Table 1), Fiber Optic Transillumination (FOTI), and bitewing radiography.

	METHODS

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Prior to subject recruitment, approval for the study was obtained from the Lithuanian National Committee on Biomedical Ethics, the head teachers at the schools, and the Education Authority. Since the study population was at high risk for developing caries, participation in the study was considered to be to their benefit. Subjects/parents were provided with copies of all radiographs for use in treatment planning.

Subjects meeting the selection criteria underwent baseline examination between January and May, 1999, and were then randomized to one of two silica-based dentifrices containing either 1000 or 2500 ppm fluoride as sodium monofluorophosphate (SMFP). Subjects were instructed to brush their teeth with their assigned dentifrice at home twice daily and to take part in a daily school brushing program during term-time; the use of fluoride-containing mouthwashes or other fluoride supplements (e.g., tablets) was discouraged.

This double-blind study was designed to determine whether the significant efficacy difference expected between a conventional and a high-fluoride dentifrice could be detected at the D₁ level after 12 months’ product use, and to compare the 12-month findings with 24-month data based on a traditional increment analysis.

At baseline, 12-, and 24-month examinations, caries status was assessed according to a simplified version of the DSTM for caries detection and measurement adapted for use in clinical trials (Table 1), FOTI, and bitewing radiography. A single investigator (A.K.) conducted both the DSTM and FOTI examinations using a KL1500 LCD cold light source (Schott Fibre Optic UK Ltd., Doncaster, UK), and a second investigator (R.B.) assessed the radiographs. The FOTI and DSTM data were recorded separately; however, in keeping with its adjunctive diagnostic role, any lesion/filling detected during FOTI assessment was added to the CVA data.

Subjects brushed their teeth prior to assessment, and the investigator assessed all available permanent teeth visually with a mirror, with the subject in the prone position, and using good lighting on clean, dry teeth. Approximal and occlusal surfaces of posterior teeth were then examined by FOTI and scored as 0 (no evidence of caries), 1 (evidence of a caries lesion as a shadow, possibly restricted to enamel), or 2 (strong shadow probably involving dentin). For radiographic assessment, bitewing radiographs were taken by means of the DEXIS digital system and Oralix Gendex AC x-ray tube. Approximal and occlusal surfaces of posterior teeth, from the distal surface of the second permanent molar to the mesial surface of the first premolar, were scored radiographically from computer images and coded (Pitts, 1984).

For determination of intra-examiner reliability, repeat DSTM and FOTI examinations were performed throughout the baseline, 12-, and 24-month examinations on 5 to 10% of subjects. For radiography, the baseline and 12- and 24-month radiographs were re-assessed for 5 to 10% of subjects.

It was estimated that a sample size of 1000 subjects per group would be required to provide the study with 80% power to detect a statistically significant difference in favor of the 2500-ppm-F group at the p < 0.05 level (one-tailed test), assuming a coefficient of variation of 1.0, a true 12.5% difference at 24 mos, and a 10% annual attrition rate. Since the likely attrition rate in this population was unknown, it was agreed that up to 1500 subjects would be enrolled per treatment group.

Subjects (the unit of randomization) were stratified into 12 strata according to gender (M/F), D₁MFS score (2-16, 17-26, > 26), and second molars with surfaces at risk (DSTM codes U, S, W, K, or H [see Table 1]) (low risk = 1-2 occlusal surfaces; high risk = 3-4 occlusal surfaces). Each product (1000 and 2500 ppm F) was assigned 2 product codes, giving 4 unique alphanumeric product codes. Subjects were then allocated to a product group according to a pre-prepared list of randomized blocks (the 4 product codes repeated twice) for each stratum. The products were identical except for fluoride level and different-colored packaging for each product code.

Neither the subjects, the clinical examiners, nor those distributing the test products were aware of the product identities at any time during the trial. The investigators were supplied with sealed code-break envelopes that could be opened in an emergency. This was not required, and the integrity of the product code was confirmed with regular GCP monitoring and independent audit. The examiners were blind to the original dental record of the subject. The statistical manager was notified which pairs of product codes were the same product, but not which product was which.

Data obtained from DSTM, FOTI, and radiography assessments at baseline, 12, and 24 mos were used in an events analysis, which involved transition matrices based on lesion depth for recording caries initiation, progression, and regression (Pitts, 1985). An "event" was defined as a clinically observed transition in the caries status of a surface. Surface changes could be positive, negative, stable, or void (Fig. 1). "Void" transitions were excluded from the primary analysis, because they were infrequent (0.5% of all transitions), and there was no difference between the two groups (chi-square test).

View larger version (21K): [in this window] [in a new window]   Figure 1. Transition matrix.

	RESULTS

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The flow of subjects through the study is shown schematically in Fig. 2. At baseline, the mean D₁MFS (± SE) scores for the 12- and 24-month examination populations were slightly higher in the 1000-ppm-F group [32.89 (± 0.40) and 32.95 (± 0.42)] than in the 2500-ppm-F group [31.99 (± 0.37) and 32.01 (± 0.37)], although the differences were not statistically significant. There was no significant difference between the two product groups with regard to mean D₃MFS at baseline for the 12- or 24-month population. The reproducibility of the 3 techniques used in the present study was excellent, with Kappa values > 0.8, even when the D₁ threshold was used.

View larger version (46K): [in this window] [in a new window]   Figure 2. Schematic representation of subjects’ progression through the study.*

	DISCUSSION

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Using a variety of diagnostic techniques in the current trial (CVA, FOTI, and bitewing radiography), we assessed the validity of adopting an abbreviated (12-month) protocol at a location with a background caries prevalence comparable with that reported in a caries clinical trial conducted in western Europe in the 1980s (Stephen et al., 1988).

As previously reported in conventional caries clinical trials (Stookey et al., 1993), none of these 3 diagnostic techniques (CVA, FOTI, and bitewing radiography) proved capable of differentiating between the 2 dentifrices (of proven differing anticariogenic efficacies) at the D₃ threshold after 12 months’ use. In contrast, CVA with the simplified DSTM alone at the D₁ threshold allowed statistically significant differences between these products to be demonstrated after 12 mos.

Supplementation of the DSTM data with the FOTI plus radiographic findings failed to produce significant product differentiation at the D₃ threshold after 12 mos, but, as expected, resulted in statistically significant differences between the products at 24 mos, consistent with the findings of previous caries clinical trials (Stephen et al., 1988; Marks et al., 1994).

In conclusion, CVA can be used as the sole diagnostic method in caries clinical trials, when non-cavitated enamel lesions are included. The results from this abbreviated 12-month trial design using the D₁ threshold mirror those from more conventional increment analysis based on CVA, FOTI, and radiographic data at 24 mos.

	ACKNOWLEDGMENTS

 
We thank Dr. C. Deery, formerly of the University of Dundee, and all the support team in Lithuania. The study was funded by Unilever Dental Research.

	FOOTNOTES

 
A supplemental appendix to this article is published electronically only at http://www.dentalresearch.org.

Received October 8, 2001; Last revision June 26, 2002; Accepted July 9, 2002

	REFERENCES

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Alfano MC, Coulter ID, Gerety MB, Hart TC, Imrey PB, LeResche L, et al. (2001). National Institutes of Health Consensus Development Conference statement. Diagnosis and management of dental caries throughout Life. J Am Dent Assoc 132:1153–1161.[Abstract/Free Full Text]

Featherstone JD (2000). The science and practice of caries prevention. J Am Dent Assoc 131:887–899.[Abstract/Free Full Text]

Fyffe HE, Deery C, Nugent ZJ, Nuttall NM, Pitts NB (2000a). Effect of diagnostic threshold on the validity and reliability of epidemiological caries diagnosis using the Dundee Selectable Threshold Method for caries diagnosis (DSTM). Community Dent Oral Epidemiol 28:42–51.[Medline]

Fyffe HE, Deery C, Nugent ZJ, Nuttall NM, Pitts NB (2000b). In vitro validity of the Dundee Selectable Threshold Method for caries diagnosis (DSTM). Community Dent Oral Epidemiol 28:52–58.[Medline]

Ismail AI (1997). Clinical diagnosis of precavitated carious lesions. Community Dent Oral Epidemiol 25:13–23.[Medline]

Kingman A, Selwitz RH (1997). Proposed methods for improving the efficacy of the DMFS index in assessing initiation and progression of dental caries. Community Dent Oral Epidemiol 25:60–68.[Medline]

Marks RG, Conti AJ, Moorhead JE, Cancro L, D’Agostino RB (1994). Results from a three-year caries clinical trial comparing NaF and SMFP fluoride formulations. Int Dent J 44:275–285.[Medline]

Pitts NB (1984). Systems for grading approximal carious lesions and overlaps diagnosed from bitewing radiographs. Proposals for future standardization. Community Dent Oral Epidemiol 12:114–122.[Medline]

Pitts NB (1985). Score system for behaviour of radiologically diagnosed approximal carious lesions. Community Dent Oral Epidemiol 13:268–272.[Medline]

Pitts NB (1997). Diagnostic tools and measurements - impact on appropriate care. Community Dent Oral Epidemiol 25:24–35.[Medline]

Stephen KW, Creanor SL, Russell JI, Burchell CK, Huntington E, Downie CF (1988). A 3-year oral health dose-response study of sodium monofluorophosphate dentifrices with and without zinc citrate: anti-caries results. Community Dent Oral Epidemiol 16:321–325.[Medline]

Stookey GK, DePaola PF, Featherstone JD, Fejerskov O, Möller IJ, Rotberg S, et al. (1993). A critical review of the relative anticaries efficacy of sodium fluoride and sodium monofluorophosphate dentifrices. Caries Res 27:337–360.[Medline]

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This Article Abstract Figures Only Full Text (PDF) Data Supplement Services Similar articles in this journal Similar articles in ISI Web of Science Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Citing Articles Citing Articles via HighWire Citing Articles via ISI Web of Science (11) Citing Articles via Google Scholar Google Scholar Articles by Chesters, R.K. Articles by Mileriene, J. Search for Related Content PubMed PubMed Citation Articles by Chesters, R.K. Articles by Mileriene, J.