Email updates

Keep up to date with the latest news and content from BMC Oral Health and BioMed Central.

Open Access Research article

Childhood caries in the state of Kentucky, USA: a cross-sectional study

Elizabeth A Kandel1, Jenna M Richards1 and Catherine J Binkley2*

Author affiliations

1 School of Dentistry Pre-Doctoral Program, University of Louisville, Louisville, KY, USA

2 Department of Surgical & Hospital Dentistry, School of Dentistry, University of Louisville, Louisville, KY, USA

For all author emails, please log on.

Citation and License

BMC Oral Health 2012, 12:38  doi:10.1186/1472-6831-12-38


The electronic version of this article is the complete one and can be found online at: http://www.biomedcentral.com/1472-6831/12/38


Received:26 September 2011
Accepted:23 July 2012
Published:5 September 2012

© 2012 Kandel et al.; licensee BioMed Central Ltd.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

Background

Untreated dental caries afflicts almost one third of school-aged children in the United States and many of them are from disadvantaged families. This cross-sectional study was undertaken to investigate the prevalence of untreated caries in north central Kentucky, USA and to examine the relationships between the available demographic variables and untreated childhood caries as reported on the forms from the Smile Kentucky! program.

Methods

During the fall of 2008, caries status was assessed during the visual oral screening examination component of “SmileKentucky!”– a model of the American Dental Association’s Give Kids A Smile program. Parents had completed brief surveys concerning 3,488 elementary school children aged 5 to 13 years who participated in the program. A secondary analysis was conducted using univariate, bivariate and multivariate statistical methods.

Results

Untreated caries was reported in 33% of children. Bivariate and logistic regression analyses found that the most significant risk factors for having untreated caries were living in the metropolitan Louisville, Kentucky area, not having had a dental visit in the previous 3 years and not having any form of dental insurance.

Conclusions

Untreated caries in elementary school children is prevalent in north-central Kentucky despite efforts to improve access to care. The results suggest that additional family and community preventive initiatives are needed to reduce the development of childhood caries in this area of the United States.

Background

It has been demonstrated that dental care is the most prevalent unmet healthcare need among U.S. children [1,2] and especially among disadvantaged minority children [1,3]. Childhood tooth decay (i.e., caries) is the most powerful predictor of future experience of poor oral health [4]. Tooth decay that is left untreated can lead to pain, dysfunction, serious infections, and sometimes death [1,5].

National and state surveys have been conducted to determine untreated caries prevalence over the past 3 decades [2,6,7]. Tomar and colleagues recently reported that although some progress has been made in the oral health of our nation’s children, the objectives of Health People 2010 have largely not been met [8]. They reported that from 1988–1994 to 2004 untreated caries in children aged 6–8 years increased nationwide from 28% to 29%.

The recognition of oral health disparities in the United States and the need for public health surveillance led to the establishment of the National Oral Health Surveillance System (NOHSS) [9]. The system allows states to report 3 oral health indicators for 3rd grade students who are generally 7–9 years old, including untreated caries, as often as their resources permit. Among the 35 states that participate in NOHSS, untreated caries in 3rd graders ranges from 12% in New Hampshire to 43% in Texas. Kentucky’s last oral health screening was conducted in 2001 and as reported to NOHSS, 34.6% of children in the 3rd grade had untreated caries – well above the 21% goal of Health People 2010 [10].

In an effort to increase access to dental care for poor children in north-central Kentucky, the university and dental society in Louisville partnered with the water company and Colgate to create the SmileKentucky! program [11]. The program is a model for the American Dental Association’s “Give Kids A Smile” annual volunteer initiative that provides preventive and restorative services to children from low-income families. In this program, “thousands of dentists across the country take time from their practices to help underserved children who aren’t getting the oral health care they need. Many dental hygienists, dental assistants, office managers and other volunteers help out too” [12].

SmileKentucky! has provided free treatment to over 2,800 uninsured children and free dental screenings to over 37,000 children since its inception in 2002. In the fall of each year, volunteer dentists and dental hygienists provide free dental screenings for approximately 3,500 children at elementary and middle schools across six counties in the north-central Kentucky area. The almost 100 volunteer dental professionals who conducted the screenings received an orientation on the program but were not calibrated for caries detection or assessment of treatment urgency. The screening information is used to identify children who need dental care but who have no public or private dental insurance. The parents of these uninsured children are invited to provide consent for the child to receive free transportation and treatment at the University of Louisville School of Dentistry a few months later in February [11].

Data has been collected since the program’s inception but it has not been analyzed and published. This cross-sectional study was undertaken to investigate the prevalence of untreated caries in north central Kentucky, USA and to examine the relationships between the available demographic variables and untreated childhood caries as reported on the forms from the Smile Kentucky! program.

Methods

Data was extracted from the 3,488 parental demographic and consent forms and from the SmileKentucky! screening forms completed by dentists and/or dental hygienists in November 2008. Prior to the screening day, parents had completed a brief survey detailing the child’s gender, age, race/ethnicity, elementary school name, grade in school, home zip code as well as 7 questions regarding the child’s dental insurance status (government dental insurance, private dental insurance or no dental insurance), parental assessment of the condition of the child’s teeth (good, fair, or poor), health history, whether the child had a recent dental visit and the reason for the visit.

The dental screening form included yes (coded 1) or no (coded 0) responses for visible untreated caries, number of carious first molars (0 to 4), and number of quadrants with caries (0 to 4). Each child was then assigned a corresponding level of treatment urgency of no obvious problem, early stage dental disease, or urgent care needed.

Children were designated as residing in metropolitan or non-metropolitan areas by the zip code of residence reported by the parent. When the zip codes where the children resided were mapped, the metropolitan zip codes were located primarily within the city limits of Louisville, Kentucky area while the zip codes classified as non-metropolitan were suburban, small towns or rural areas to the east and south of the city. Metropolitan was coded as 1 and non-metropolitan was coded as 0.

Frequencies and bivariate chi-square and t-test analyses were used to examine the data for factors significantly associated with childhood caries. Regression analysis was used to examine factors for multicollinearity. Logistic regression analysis was used to explore which demographic factors increased the odds of childhood caries at the time of the study. P < 0.05 was considered statistically significant for all statistical tests. Data analysis was conducted with SPSS 20 (SPSS, Chicago, IL).

Parents or legally authorized representatives signed written consent for the oral screening examination and dental treatment. The study was approved by the University of Louisville’s Institutional Review Board.

Results

The children ranged in age from 5 to 13 years with a mean of 9.3 years and their demographics are presented in Table 1. Parents reported that 92% of the children had visited a dentist in the past 3 years but upon examination by the dental screener, 33% were deemed to have caries present. The majority of children with caries had decay localized to a single quadrant and one quarter of children with caries were assessed as urgently needing dental treatment. Almost one-half of the children whose parents assessed their child’s oral health as fair or poor had visible caries. This was significantly different from the parents who rated their child’s oral health as good with one-quarter of the children having visible caries (p ≤ 0.001).

Table 1. Participant characteristics (n = 3,488)

We conducted bivariate analyses of demographic variables and parent assessment of the condition of their child’s teeth by untreated caries status. (Table 2). Of the 7 variables, 5 were found to be significant. These included being of minority race/ethnicity status, fair or poor parental assessment, having government or no insurance, not having a dental visit, and living in the metropolitan area. A fair or poor parental assessment was significantly correlated with the 5 significant factors and was not included as a variable in the multivariate analysis.

Table 2. Differences in children’s characteristics by untreated caries status

The finding that children residing in the metropolitan area were more likely to have untreated caries than those residing in a non-metropolitan area led us to conduct additional analyses because of the varied reports in the literature concerning caries prevalence in rural/non-metropolitan areas and metropolitan areas in the USA [7,13,14]. Caries was detected in 40% of the children from metropolitan areas and in 26% of the children from non-metropolitan areas (p ≤ 0.001, χ2 (1df) = 72.680). Over one-third of metropolitan children with caries had caries in three or four quadrants, compared to less than one-fourth of non-metropolitan children with caries (p ≤ 0.001, χ2 (4df) = 115.818). Twelve percent of the metropolitan children were assessed as urgently needing treatment, compared to only 5% of the non-metropolitan children (p ≤ 0.001, χ2 (3df) = 31.103).

Forty-three percent of metropolitan children had private dental insurance compared to 63% of the children from non-metropolitan areas. Among the metropolitan children, 37% had government insurance compared to 22% of the non-metropolitan children. Similarly, 19% of the metropolitan children had no insurance at all compared to 22% of the non-metropolitan children. Seven percent of the metropolitan children had not visited the dentist in the previous 3 years, compared to 3% of non-metropolitan children.

We used logistic regression to explore factors associated with a child having caries and independent factors with p < 0.10 in the bivariate analysis were considered for the model. We first examined collinearity diagnostics using the methods recommended by Tabbachnick & Fiddel [15] in SPSS 20 and no evidence of multicollinearity was found. With childhood caries as the outcome, three independent demographic variables, living in the metropolitan area, no prior dental care in the previous 3 years and being uninsured, were retained in the model as significant using 0.05 as the selection criteria (Table 3).

Table 3. Untreated caries: final regression model

Discussion

This cross-sectional study was undertaken to investigate the prevalence of untreated caries in north central Kentucky, USA and to examine the relationships between the available demographic variables and untreated caries. One third of the children had untreated caries reported by the dentists who performed the oral screening examinations in the schools. Children were significantly more likely to have caries if they lived in the metropolitan area, had not seen a dentist for 3 years or were uninsured.

Our finding that children residing in a metropolitan area were more likely to have caries is consistent with results reported by Maserejian and colleagues who reported that children living in the metropolitan area of Boston, Massachusetts, USA had significantly more caries than children from the rural setting of Farmington, Maine, USA, even after controlling sociodemographic factors [13]. Similarly, Weyant and colleagues reported that children living in the metropolitan areas of Philadelphia and Pittsburg had the highest unfilled caries rate in permanent teeth than anywhere else in the state of Pennsylvania, USA [7].

Our finding differs from the North Carolina, USA study reported by Rozier and King who that found children residing in non-metropolitan areas adjacent to a metropolitan area to have higher rates of caries than children from metropolitan areas who had a lower caries rate [14]. Their data was obtained from the Behavioral Risk Factor Surveillance System (BRFSS) and the Child Health Assessment and Monitoring Program (CHAMP) which may have used a different definition of metropolitan and non-metropolitan which could account for the difference in findings.

The 33% overall caries prevalence in our study suggests that there may have been little change in the prevalence of childhood caries since the 2001 Kentucky survey for the National Oral Health Surveillance System (NOHSS) which reported 34.6% caries prevalence. Although the children in our study ranged in age from 5 to 13 years, the mean age was 9 years which is approximately the age of the children screened for the NOHSS. The results are concerning given the fact that there is a dental school located in downtown Louisville, Kentucky along with numerous private and public dental practices located in all the study areas. In addition, programs to improve access to dental care such as SmileKentucky! have been ongoing for almost a decade in this part of Kentucky.

The fact that only one-half of the uninsured children who had untreated caries noted during the screening examination later received dental treatment is also of concern. Smile Kentucky! eliminated structural obstacles to dental care by providing free transportation and free treatment in the University of Louisville pediatric dental clinic. Over 500 uninsured children were invited to receive treatment and parents provided consent for 350 of these children. On the SmileKentucky! treatment days in February 2009, only 236 uninsured children were transported and received comprehensive dental care in the pediatric dental clinic.

Anecdotal reports suggest that some parents did not want their child to be treated without them being present, the parents may have had poor functional literacy which prevented them from understanding the written invitation to receive free transportation and dental treatment, or they already had a dental home for their child. The reasons for failure to consent and/or failure to show up for dental care should be further investigated to determine what psychosocial factors may have prevented so many children from receiving treatment.

More focused preventive efforts may be required to reduce caries in disadvantaged children including home-based and/or school-based interventions. There is a clear need to reduce the development of childhood caries in addition to getting children to the dentist for cleanings, fillings and extractions [16]. Not only will this improve children’s oral health in the short and long term, but may also be more cost effective [17]. Public health policy makers may need to consider programs where the most at-risk children are identified and are provided preventive interventions at the family and/or community level.

There is some evidence that a dental care coordinator [18] can improve oral health outcomes for disadvantaged children. The American Dental Association supports the Community Dental Health Coordinator (CDHC) [19] pilot program which trains students from urban, rural and Native American communities to provide brief oral assessments, oral health education, preventive dental services and assistance in accessing and obtaining dental treatment. The CDHCs are community health workers with dental skills focusing on education and prevention and are “part social worker and part dental assistant who, under the supervision of a dentist, can help people navigate the public health system to get the dental care they need.” The CDHCs are trained to work in the community’s schools, clinics, senior citizen centers, Head Start Programs and other public health settings under the supervision of a dentist.

Attention may also need to be again directed at effective caries prevention initiatives including school based educational, [20] needs-related caries preventive, [21] sealant [22] and fluoride mouth rinse programs [23]. Improving nutrition in public schools by reducing carbohydrates in meals and vending machines may also lead to reduced caries and have the added benefit of helping to reduce childhood obesity [24]. Programs to educate pediatricians, primary care physicians and nurses in assessment of children’s oral health, counselling, referral for dental care, and application of fluoride varnish may also reduce caries development [25].

This study may have limitations due to the use of a convenience sample of children residing in counties in north-central Kentucky but the study’s large sample size of 3,488 children and data available for each child allowed for significant analyses of factors associated with untreated caries. The demographic information and dental history reported by parents was valuable but having more individualized information, such as actual household income, would have been beneficial. Another limitation was the lack of calibration of the almost 100 volunteer dental professionals who performed the oral screening exams. Although Smile Kentucky! is a community service program and calibration would have been difficult, future studies should include assessment of the reliability of the dental screening procedures across examiners. The study was also limited because the oral screening examinations were performed in the schools without the use of radiographs and as a result the untreated caries estimates may have been lower or higher than what truly existed [26,27].

Conclusions

Untreated caries in elementary school children is prevalent in north-central Kentucky despite efforts to improve access to care. Children who resided in more densely populated metropolitan areas, children who were uninsured and children who had not seen a dentist in 3 years were more likely to have untreated caries. The results suggest that additional family and community level preventive interventions should to be evaluated for effectiveness in an effort to reduce the development of childhood caries and reduce oral health disparities.

Competing interests

The authors declare that they have no competing interests.

Authors’ contributions

EK and JR entered and cleaned the data. EK, JR and CB contributed scientifically to the paper by performing literature searches, data analysis and manuscript writing. All authors read and approved the final manuscript.

Acknowledgements

This study was supported by the University of Louisville School of Dentistry’s Summer Research Program. The support and assistance of Drs. Don DeMuth and Lee Mayer was invaluable to the conduct of the study. Appreciation is extended to the Louisville Water Company, Colgate, Henry Schein, and all the professionals who support and who volunteer for SmileKentucky! each year.

This research was presented in a poster format at the International Association for Dental Research annual meeting held in Washington, DC during March 2010.

References

  1. US Department of Health & Human Services: Oral Health in America: A Report of the Surgeon General. Bethesda, Maryland, USA: National Institute of Dental & Craniofacial Research; 2000.

    http://www.nidcr.nih.gov/DataStatistics/SurgeonGeneral/sgr/home.htm webcite

    OpenURL

  2. Edelstein : Disparities in oral health and access to care: findings of national surveys.

    Ambul Pediatr 2002, 2(2 Suppl):141-147. PubMed Abstract OpenURL

  3. Edelstein BL, Chinn CH: Update on disparities in oral health and access to dental care for America's children.

    Acad Pediatr 2009, 9(6):415-419. PubMed Abstract | Publisher Full Text OpenURL

  4. Vargas CM, Ronzio CR: Disparities in early childhood caries.

    BMC Oral Health 2006, 6(Suppl 1):S3. PubMed Abstract | BioMed Central Full Text | PubMed Central Full Text OpenURL

  5. ADA: American Dental Association Statement on the Death of Deamonte Driver. ADA Press Release [Press Release]; 2007.

    March 2, 2007: http://www.ada.org/4198.aspx webcite

    OpenURL

  6. Brown LJ, Kaste LM, Selwitz RH, Furman LJ: Dental caries and sealant usage in U.S. children, 1988–1991: selected findings from the Third National Health and Nutrition Examination Survey.

    J Am Dent Assoc 1996, 127(3):335-343. PubMed Abstract | Publisher Full Text OpenURL

  7. Weyant RJ, Manz M, Corby P: Dental caries status and need for dental treatment of Pennsylvania public school children in grades 1, 3, 9, and 11.

    J Public Health Dent 2004, 64(3):136-144. PubMed Abstract | Publisher Full Text OpenURL

  8. Tomar SL, Reeves AF: Changes in the oral health of US children and adolescents and dental public health infrastructure since the release of the Healthy People 2010 Objectives.

    Acad Pediatr 2009, 9(6):388-395. PubMed Abstract | Publisher Full Text OpenURL

  9. Malvitz DM, Barker LK, Phipps KR: Development and status of the National Oral Health Surveillance System.

    Prev Chronic Dis. Apr 2009, 6(2):A66. OpenURL

  10. CDC:

    National Oral Health Surveillance System - Untreated Tooth Decay. 2011.

    http://apps.nccd.cdc.gov/nohss/IndicatorV.asp?Indicator=3 webcite, 2011

    OpenURL

  11. SmileKentucky:

    SmileKentucky. 2011.

    http://www.smilekentucky.com/ webcite. Accessed June 14, 2011

    OpenURL

  12. ADA:

    Give Kids a Smile. 2011.

    http://www.ada.org/3452.aspx webcite. Accessed June 10, 2011, 2011

    OpenURL

  13. Maserejian NN, Tavares MA, Hayes C, Soncini JA, Trachtenberg FL: Rural and urban disparities in caries prevalence in children with unmet dental needs: the New England Children's Amalgam Trial.

    J Public Health Dent 2008, 68(1):7-13. PubMed Abstract | Publisher Full Text OpenURL

  14. Rozier RG, King RS: Defining the need for dental care in North Carolina: contributions of public health surveillance of dental diseases and conditions.

    N C Med J. Nov-Dec 2005, 66(6):438-444. OpenURL

  15. Tabachnick B, Fidell L: Using Multivariate Statistics. 4th edition. Needham Heights MA: Allyn & Bacon; 2001. OpenURL

  16. Shenkin JD: An increase in caries rate or an increase in access to care: data show mixed results.

    J Public Health Dent 2011, 71(1):1-5. PubMed Abstract | Publisher Full Text OpenURL

  17. Shenkin JD: Patient-centered caries prevention in children may be more cost-effective in the long term than traditional dental care.

    J Evid Based Dent Pract 2011, 11(1):56-57. PubMed Abstract | Publisher Full Text OpenURL

  18. Binkley CJ, Garrett B, Johnson KW: Increasing dental care utilization by Medicaid-eligible children: a dental care coordinator intervention.

    J Public Health Dent 2010, 70(1):76-84. PubMed Abstract | Publisher Full Text OpenURL

  19. ADA:

    Community Dental Health Coordinators. 2011.

    http://www.ada.org/cdhc.aspx webcite. Accessed August 28, 2011

    OpenURL

  20. Grocholewicz K: The effect of selected prophylactic-educational programs on oral hygiene, periodontium and caries in school children during a 4-year observation.

    Ann Acad Med Stetin 1999, 45:265-283. PubMed Abstract OpenURL

  21. Axelsson P: The effect of a needs-related caries preventive program in children and young adults - results after 20 years.

    BMC Oral Health 2006, 6(Suppl 1):S7. PubMed Abstract | BioMed Central Full Text | PubMed Central Full Text OpenURL

  22. Gooch BF, Griffin SO, Gray SK, et al.: Preventing dental caries through school-based sealant programs: updated recommendations and reviews of evidence.

    J Am Dent Assoc 2009, 140(11):1356-1365. PubMed Abstract | Publisher Full Text OpenURL

  23. Neko-Uwagawa Y, Yoshihara A, Miyazaki H: Long-term caries preventive effects of a school-based fluoride mouth rinse program in adulthood.

    Open Dent J. 2011, 5:24-28. PubMed Abstract | Publisher Full Text | PubMed Central Full Text OpenURL

  24. Willershausen B, Haas G, Krummenauer F, Hohenfellner K: Relationship between high weight and caries frequency in German elementary school children.

    Eur J Med Res 2004, 9(8):400-404. PubMed Abstract OpenURL

  25. Krol DM: Children's oral health and the role of the pediatrician.

    Curr Opin Pediatr 2010, 22(6):804-808. PubMed Abstract | Publisher Full Text OpenURL

  26. Beltran ED, Malvitz DM, Eklund SA: Validity of two methods for assessing oral health status of populations.

    J Public Health Dent 1997, 57(4):206-214. PubMed Abstract | Publisher Full Text OpenURL

  27. Ketley CE, Holt RD: Visual and radiographic diagnosis of occlusal caries in first permanent molars and in second primary molars.

    Br Dent J 1993, 174(10):364-370. PubMed Abstract | Publisher Full Text OpenURL

Pre-publication history

The pre-publication history for this paper can be accessed here:

http://www.biomedcentral.com/1472-6831/12/38/prepub