Introduction

The tremendous rise in the economy of China over the last decade has increased the possibility that the number of children with high caries risk may also have risen. This assumption was investigated to elicit cohort effects, using a mixed-longitudinal study design in conjunction with the Age-Period-Cohort analysis.1,2 In permanent dentitions, an increase in carious lesion development would manifest itself first in pits and fissures of first molars.3 Such tooth surfaces would need to be sealed, which is considered as the most cost-effective way.4,5,6,7,8

Two national oral health surveys among 5- and 12-year-old Chinese children have been carried out since 1995.9,10 However, these surveys excluded assessment of carious lesion development in newly erupted first permanent molars. Few studies done in China have assessed the caries status of newly erupted first molars.11,12 None were longitudinal in nature. Therefore, assessment using the mixed-longitudinal study design was needed regarding the caries status in children at the ages of first permanent molar eruption, in order to assess a cohort effect in young Chinese children. Furthermore, the research was needed for the inclusion of children with pits and fissures in first permanent molars at risk of developing carious lesions in a currently ongoing in vivo sealant study.

Therefore, the aim of this paper is to report on the caries experience in the dentition of 7- to 8-year-old children, plaque accumulation and pit and fissure morphology in first permanent molars in young Chinese children.

Materials and methods

Sampling procedure

This epidemiological research preceded an intervention study on the effectiveness of sealants. On the basis of a power calculation for determination of the required sample size of the intervention study, 1 000 grade 2 children needed to be examined in the epidemiological study. To obtain the required sample size, five primary schools, conveniently situated in the neighborhood of Wuhan University School and Hospital of Stomatology in Wuhan, China, were chosen. This facilitated easy transport of equipment and personnel to and from the schools. One of the schools was already participating in a long-standing cooperation program with the Dental School, based on providing twice-yearly oral health education covering preventive activities such as fluoride mouth rinsing. The sample area was inhabited by families from various socioeconomic backgrounds.

Wuhan, the capital city of Hubei Province, has a population of about eight million people and its GDP increased from $89 in 1978 to $3 960 in 2008. The study was accepted by the ethical committee of Wuhan University (Reference No. 200704).

Oral examination

All grade 2 students present on a day in December 2007 were examined orally on the school premises. A mouth mirror and explorer were used. Each child lay on a table while examined. The oral cavity was illuminated by a removable site light providing adequate light to enable the two seated and calibrated examiners to diagnose dental caries, assessing plaque accumulation and first molar pit and fissure morphology. No X-rays were taken. Two trained chair-side assistants did the recording.

Plaque was assessed on the six index teeth according to the Greene and Vermillion index.13 The criteria described in Table 1 were used in diagnosing carious lesions. Plaque and/or debris were removed from the tooth surfaces with an explorer if necessary, to facilitate proper carious lesion diagnosis. The community periodontal index (CPI) probe was used for diagnosing small dentine carious lesions suitable for treatment with the atraumatic restorative treatment approach (Table 1). The pit and fissure morphology of first molars was assessed according to the criteria described by Symons et al.14 (Table 2).

Table 1 Dental caries diagnostic index used in the present study
Table 2 Pits and fissure morphology index15 used

Reliability

A calibration exercise was carried out prior to the start of the study, under the supervision of an experienced epidemiologist. Further assurance of the quality of the data was obtained, as the examiners discussed the clinical data of 20 children during the first two examination days. The kappa coefficient was used on 89 children in calculating inter-examiner consistency in diagnosing carious lesions. The kappa coefficients for the dmft and dmfs indices were 0.98 and 0.71, respectively, whereas the kappa coefficient for the DMFT index was 0.77.

Statistical analyses

SAS version 9.2 was used for analyzing the data. Differences between dependent (caries, plaque and tooth morphology) and independent (age, gender and school) variables were tested, using analysis of variance and t-test. The d2- and D2-component consisted of caries scores B–E and 1–4, whereas the d3- and D3-component consisted of caries scores C–E and 2–4, respectively.

Results

Disposition of subjects

The total number of 7- to 8-year-olds examined was 1 043, of whom 54.7% were boys and 45.3% girls. The mean plaque score was 1.61 (s.d.=0.51). The frequency distribution of plaque accumulation is shown in Table 3.

Table 3 Caries prevalence and caries experience scores in deciduous and permanent dentition using the DMFT/S index in 7–8-year-old children in Wuhan

Deciduous dentition

The prevalence of dental caries in the deciduous dentition was 68.7%. The mean d3mft and d3mfs scores were 2.8 and 5.0, respectively (Table 4). No gender effect was observed; the mean d3mft score for both boys and for girls was 2.7. The mean d3mft score of School 5 (3.7) was significantly higher than the mean d3mft score (2.6) of the other four schools (P=0.001 8). The d-component constituted 75% of the d3mft index, while enamel carious lesions constituted 36% of the total number of carious lesions (d2,3-component).

Table 4 Frequency distribution of children by caries experience (d3mft/D3MFT)

Permanent dentition

The prevalence of dental caries in the permanent dentition of these 7- to 8-year-olds was 8.7%. The mean D3MFT and D3MFS scores were 0.12 and 0.14, respectively (Table 3). All cavitated dentine lesions were found in occlusal surfaces of first permanent molars; 6% of children had one decayed molar and 2% had two decayed molars. No gender effect was observed for the mean D3MFT and D3MFS scores. The mean D2MFT (0.69) and mean D2MFS (0.95) scores for girls were statistically significantly higher than those for boys (D2MFT=0.44 and D2MFS=0.58) (P=0.000 2 and 0.000 4, respectively). No school effect was observed.

Plaque accumulation

The frequency distribution of children to levels of plaque accumulation is presented in Table 5. The prevalence of plaque in these children was 98.2%. The prevalence of medium and severe accumulation of plaque was 67.4%.

Table 5 Frequency distribution of children by plaque scores

Pit and fissure morphology

The frequency distribution of children to the different levels of pits and fissures is presented in Table 6, showing scores 2 and 3 to be prevalent in 84.6% of the molar teeth examined. The mean score of pit and fissure morphology was 1.98 (s.d.=0.57).

Table 6 Frequency distribution of children by pit and fissure morphology

Discussion

As the purchasing power of consumers is increasing, it is expected that the caries situation in Chinese children will deteriorate in the coming years. As only cross-sectional caries epidemiological studies have been conducted, it is not possible to identify secular trends in caries prevalence and severity among these children. The current epidemiological investigation was carried out for two reasons: (i) to provide the baseline for a mixed-longitudinal assessment of dental caries in young children; and (ii) to support a study assessing the cost effectiveness of composite resin sealants in comparison to atraumatic restorative treatment sealants using glass ionomer in first permanent molars. In order to facilitate logistics for the latter, a convenient sample was chosen from schools near the School of Stomatology. The decision has reduced the external validity of the former reason, but as no regular follow-up longitudinal caries epidemiological survey has been carried out in the country, the decision to choose a convenient sample is considered justified.

The quality of the data collected was high, considering the high kappa values for the inter-examiner consistency test done for the caries indices studied.

Considering that dental caries is an age-related disease, the mean dmft score (2.8) of the 7- to 8-year-olds in the present study appears to be in line with the mean dmft of 2.0 obtained for 5-year-olds in urban areas of Hubei Province during the Third National Oral Health Survey of 2005.10 However, the mean dmft scores in the present study are somewhat lower than the mean dmft scores (3.7) for 6-year-olds in Yichang City, Hubei Province, in 1997,15 and those for 5-year-olds (3.1) in Guangxi and Hubei Provinces in 2002.16 Given that these studies have been conducted using different diagnostic criteria in different communities, they do not provide reliable data for the assessment of an upward trend in carious lesion development in deciduous teeth over the last decade.

The prevalence of dental caries in these 7- to 8-year-olds is high. Particularly disturbance is the high proportion of identified untreated cavitated dentine lesions and the low proportion of subsequently placed restorations. These indicate a low treatment pattern due to a combination of reasons that include insufficient knowledge of oral care among the general population and reduced accessibility of dental care in the survey area. They also show that a preventive and educational school oral health program is much needed. In the present study, one of the five schools has participated for years in the annual school oral health education and prevention program organized by the School of Stomatology. Despite these oral health activities, the dental caries situation of the children in this school was not better than that in the other study schools. Why one of the five schools had significant worse mean dmft score than the other schools had is not known.

The prevalence and severity of dental caries in the permanent dentition of these 7- to 8-year-olds was low. The severity was somewhat lower than the mean DMFT score of 0.4 for 6-year-olds in 1995 in Wuhan.

The number of permanent first molars with enamel carious lesions and those with dentine carious lesions were found to be powerful caries predictors over a period of 4 years in a similar age group in Wuhan.11,17 That in the present study all cavitated dentine lesions were in the occlusal surface of first permanent molars which had only recently erupted, that a large proportion of occlusal surfaces in such teeth had enamel carious lesions and that the prevalence of dentine carious lesions in the primary molars was high, call for preventive action, particularly for the placement of sealants in high caries risk children. The fact that 26% of first permanent molars exhibited a deep pit and fissure pattern only supports the call for action.

As caries is a socioeconomic related disease, a questionnaire was designed to acquire the oral health habit, education and economic background of children. However, as the children are too young to give an accurate answer, 40% drop-off of the questionnaire make the analysis impossible. This information will be collected again 2 years later and reported in future. Although the background is not very clear yet, four of the schools are associated primary school of the university, which means the staffs of the university have advantages to choose it. Meanwhile, five schools are located in the centre of Wuhan City. This implies that the children are from medium- to high-income family with low- to high-education background.

In conclusion, the prevalence of dental caries in the deciduous and permanent dentitions of 7- to 8-year-old children was high. Deep pits and fissures in high caries risk children should be sealed. Appropriate preventive measures should be instituted.