|Year : 2015 | Volume
| Issue : 2 | Page : 47-51
Orthodontic treatment need among special health care needs school children in Dharwad, India: A comparative study
Prajna P Nayak1, KVV Prasad2, Y Manohar Bhat2
1 Department of Public Health Dentistry, Bangalore Institute of Dental Sciences, Bengaluru, India
2 Department of Public Health Dentistry, SDM College of Dental Sciences and Hospital, Dharwad, Karnataka, India
|Date of Web Publication||29-Apr-2015|
Dr. Prajna P Nayak
Department of Public Health Dentistry, Bangalore Institute of Dental Sciences, Bengaluru
Source of Support: None, Conflict of Interest: None
Objectives: The aim was to assess and compare the prevalence of orthodontic treatment need among various special health care needs (SHCN) schoolchildren and adolescents in Dharwad, India.
Materials and Methods: This cross-sectional study was carried out among 492 subjects in age group of 12-19 years (mean age 14.02 ± 1.84 standard deviation [SD]) who were examined for occlusal anomalies using dental aesthetic index (DAI). They were classified into five groups as: Visual impairment, speech and hearing disability (SH), physical disability, mentally subnormal and multiple disabilities (MD). Chi-square test was used to compare the orthodontic treatment need among various SHCN groups. One-way ANOVA and ANCOVA were performed to test any significant differences in mean DAI scores among the SHCN groups.
Results: None of the children were undergoing or had undergone orthodontic treatment for malocclusion. Mean DAI score was 28.81 ± 11.64 (SD). Orthodontic treatment was indicated in 50.2% of study population who had DAI scores of 26 and above. Mandatory orthodontic treatment (DAI >=36) was required in as high as 29% of MD individuals when compared to only 10% of SH individuals. Significant differences in DAI scores were found between the SHCN groups.
Conclusions: The need for orthodontic treatment among SHCN individuals was found to be high. Yet, absence of any orthodontic treatment for any child points out to the fact that the dental services are highly needed in these individuals.
Keywords: Dental aesthetic index, malocclusion, orthodontic treatment need, prevalence, special health care needs
|How to cite this article:|
Nayak PP, Prasad K, Bhat Y M. Orthodontic treatment need among special health care needs school children in Dharwad, India: A comparative study. J Orthodont Sci 2015;4:47-51
|How to cite this URL:|
Nayak PP, Prasad K, Bhat Y M. Orthodontic treatment need among special health care needs school children in Dharwad, India: A comparative study. J Orthodont Sci [serial online] 2015 [cited 2020 Nov 28];4:47-51. Available from: https://www.jorthodsci.org/text.asp?2015/4/2/47/156029
| Introduction|| |
High-risk groups like special health care needs (SHCN) population suffers from a disproportionate share of untreated diseases. These diseases, in turn, have a significant impact on their health adding to the despair and burdening their already ailing health. SHCN children and adolescents are recognized as being in the category of high-risk for dental diseases, and they also have difficulty in accessing appropriate dental services. ,, For them, maintenance of a good oral health is very important as poor oral health makes the functions of oral cavity like eating, swallowing, speech and chewing difficult for them resulting in malocclusion, compromised esthetics and poor general health adding to their co-morbidity. 
Healthy people 2010 objectives emphasize the need to reduce disparities in health, between the general population and high-risk groups. In India, persons with disabilities (equal opportunities, protection of rights and full participation) act of 1995.  The Rehabilitation Council of India Act of 1992,  second working draft of Rights of Persons with Disabilities Act of 2011  are strong legal instruments dealing with the rights of SHCN persons. However, dental services are not being delivered to them pertinently. The oral health is neglected either because of their disabling condition, a demanding disease or limited access to oral health care. ,
It was estimated that there are about 5-5.5 million persons with SHCN in India in 12-24 years age group.  Among various oral diseases, the threat of malocclusion has received barely any attention and the epidemiology has not been adequately studied. For these individuals, it is required to improve the dentofacial apparatus, not only for better oral functions, but also to have a proper co-ordination within society. Oral health improvement in a population begins with the collection of epidemiological data, which helps to understand the needs of the community, to identify high-risk groups, and to plan treatment and prevention strategies and monitor the development of situation over a period of several years.  Hence, the present study was attempted to assess and compare the prevalence of orthodontic treatment need in SHCN children studying in special needs schools in Dharwad district of South India.
| Materials and Methods|| |
A descriptive, cross-sectional survey was carried out in Dharwad district, which is a major commercial hub of South India and has a population of about 1.8 million. There are about 800 individuals studying in 14 special needs schools in Dharwad. All 492 individuals in the age group of 12-19 years were included in the study. All individuals were classified into five groups  as: Visual impairment (VI), speech and hearing (SH) disability, locomotor/physical disability (PD)/orthopedic disability: With cerebral palsy, arthritis, congenital deformities, poliomyelitis, spina bifida (PD), mentally subnormal (MS): With down's syndrome, autism, learning disability (MS) and multiple disabilities (MD): With a combination of above (MD).
Ethical clearance was obtained from Institutional Review Board. Informed consent was obtained from school authorities and from parents/guardians through the schools to conduct the study. Subjects were included, if they were 12 years of age or above, were present on the day of examination, and were willing to participate. Subjects were excluded from the study if they were uncooperative or had any medical conditions, which contraindicated an oral examination without appropriate modifications such as infective endocarditis, coagulopathy, abscess, etc., All examinations were conducted by a single investigator (PPN), assisted by a previously trained recorder.
To assess reproducibility, 30 subjects were re-examined after 1-week. Spearman rank correlation coefficient was used to test the association between dental aesthetic index (DAI) scores on the two occasions. The rank order correlation (r = 0.95, P < 0.001) showed a high level of reliability for the malocclusion assessments.
Data on demographic variables was obtained from parents/guardians/school teachers prior to the child's dental examination. Various demographic data such as name, age at last birthday, gender, residence, school, religion and mode of dental health care facility in the school were collected.
Dental Esthetic Index
Occlusal anomalies were recorded as per DAI, according to WHO guideline components and using all 10 measures. The total score obtained from 10 measures along with the regression coefficient formed DAI score. Orthodontic treatment need was determined based on DAI score as no treatment need, elective treatment, highly desirable or mandatory treatment required. , As DAI index is not recommended for children below 12 years of age, only those children above 12 years of age were considered for assessing malocclusion. ,
Using the statistical package STATA 9.2 (StataCorp. 2005. Stata Statistical Software: Release 9. College Station, TX: StataCorp LP, USA) the statistical analysis was done. Descriptive statistics was performed as well as the test of association between malocclusion severities among various SHCN groups, and their association with each of the ten 10 DAI components, using Chi-square test. One-way ANOVA was performed for comparison between SHCN groups and mean DAI scores and pair wise comparison was done by Newman-Keuls post-hoc procedures. ANCOVA analysis was done by taking age as a covariate. The P < 0.05 was set to know the significance level.
| Results|| |
[Table 1] gives the demographic characteristics of study population. MS children formed highest proportion (n = 192) among various SHCN types and children with MD were the least in number (n = 31). None of the children were undergoing or had undergone orthodontic treatment for malocclusion. Orthodontic treatment indication for 49.8% SHCN children and adolescents was "no or slight need" with their DAI scores being < 25. Other half of them had orthodontic treatment need ranging from "elective" to "highly desirable" to "mandatory" (50.2%). As high as 29% of MD individuals required mandatory orthodontic treatment as compared to only 10% of SH individuals, which was statistically significant (P < 0.05) [Table 2].
|Table 1: Distribution of study population by SHCN condition, mean age and median age |
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|Table 2: Distribution of study population according to orthodontic treatment need |
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Maxillary irregularity of > 1 mm was observed in 218 (49.1%), of which PD children had a highest prevalence (57.5%) which was statistically significant (P ≤ 0.05). Of those with anterior maxillary overjet of 3 mm or more, the PD children formed highest proportion (42%), which was statistically significant. The frequency of anterior open bite of > 1 mm was 37 (8.3%) and the difference between the groups was significant (P ≤ 0.001). Children with MD showed the highest proportion of anterior open bite (27.3%) followed by MS children (12.8%). The prevalence of half cusp and full cuspal molar relations were significantly lower among VI and SH when compared to other disabling conditions (P ≤ 0.000) [Table 3].
Speech and hearing children had lowest mean DAI scores of 24.2 ± 7.3 (SD) among all the SHCN types, followed by VI with 26.9 ± 9.1 mean DAI score. On the other hand, children with MD showed highest mean DAI score of 32.5 ± 12.8 among all the SHCN types. One-way ANOVA showed significant differences in the mean DAI scores in various SHCN types (F = 7.715, P 0≤ 0.0000). Age adjusted ANCOVA analysis also revealed same results. (F = 7.23, P ≤ 0.0000). Pair-wise comparison of mean DAI scores by Newman-Keuls post-hoc procedures showed significant differences (P < 0.05) in the mean DAI scores between MD and VI children and between MD and SH children [Table 4].
Mouth breathing, thumb sucking and tongue thrusting were significantly associated with the DAI scores in SHCN children and adolescents (P < 0.01) [Table 5].
|Table 5: Comparison of malocclusion in the SHCN groups according to habits |
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| Discussion|| |
In the present study, all 14 special needs schools registered at block education office of Dharwad were included. The SHCN children were classified into five categories as given by the guidelines for evaluation of various disabilities and procedure for certification (2008) based on the notification by Ministry of Social Justice and Empowerment by the Government of India (2001). 
The prevalence of orthodontic treatment need among the SHCN children and adolescents attending special needs schools was 50.2% which is very high as compared to non- SHCN cohorts according to the nationwide survey by Bali et al., which ranged from 23.6% among 12 years old to 23.9% among 15 years old.  Similar findings were found in the study conducted by Borzabadi-Farahani et al. (21.8%).  Mean DAI score in the present study is 28.81 ± 11.64 standard deviation, which is slightly lower than the reported figure by Vellappally et al. (39 ± 12.3) in 12-18-year-old disabled adolescents. 
Proportion of severe/handicapping malocclusion requiring mandatory orthodontic treatment (DAI >=36) was also high in our study population (18.9%) as compared to only 50.1% in the study of Vellappally et al. Another study conducted by Eslamipour et al., in general population, also showed a lower prevalence in the general population (10.9%).  This higher prevalence of orthodontic treatment need in our study population might have arisen as a consequence of the causative factors, which produced the overall defect.  Among them, the need for orthodontic treatment ranged from a sizable proportion of 61.3% in MD and 59.8% in MS groups to a lesser proportion of 37.9% in SH group. This is comparable to that of studies conducted by Onyeaso  and Utomii and Onyeasoii,  which reported 58% and 59% malocclusion respectively. The high prevalence of malocclusion among MD and MS groups could be because of alterations in cranial base relationships, especially in diseases like Down's syndrome, functional anomalies and uncoordinated movements of tongue and low tonicity of perioral muscles. In addition, the delayed eruption and exfoliation of primary and secondary dentition, characteristic tongue thrust and hypotonic ligamentary apparatus of mandibular joint play a major role in malocclusion.  Lower proportion of malocclusion in hearing and speech impaired group can be explained by the fact that these children present comparatively lesser amount of dento-alveolar discrepancies, lesser prevalence of deleterious oral habits and better motor co-ordination.  Higher proportion of severe/handicapping malocclusion was seen among MD and PD children as measured against the other groups. This is in agreement with the findings of Shyama et al.  and Oliveira et al.  Compounding of causative factors in MD and higher proportion of children with cerebral palsy in PD group may possibly be the reason for this finding.
All the DAI components showed higher values in this disabled population as compared to studies conducted among their normal counterparts. , In a study conducted by Borzabadi-Farahani et al. a symmetric molar relationship was found in 69.5% of the subjects, which was only 41.1% in the present study. In another study conducted by Chauhan et al. one or more missing anterior teeth were found in only 0.7% of subjects as compared to 6.2% in the present study. Similarly, anterior maxillary irregularity of > 1 mm was seen in only 13.6% of subjects as compared to 49.1% in the present study.
Proportion of largest maxillary irregularity and anterior maxillary overjet were significantly more prevalent in PD children which is in consistent with the findings of Dinesh et al. and Franklin et al.  MS children recorded a considerable amount of anterior mandibular overjet, which points out to the fact that these children have higher prevalence of mid-facial hypoplasia and macroglossia. In addition, such children will be more vulnerable to stress because he or she has inadequate concept of his or her environment. This in turn, will result in emotional insecurity and force to diversify into deleterious habits. Vertical anterior open bite of > 1 mm incurred in the maximum proportion among multiple SHCN (27.3%), which can be attributed to deficient maxillary growth and abnormal tongue size. And the results were similar to that conducted by Vigild (23%),  but higher than that conducted by Dinesh et al. (7%).  Children with MD (30.8%) and PD (37.5%) had a proportionally lesser number of individuals with normal molar relations when compared to other groups, which is consistent with other studies. ,,
Nonetheless, the study has few limitations. Inclusion of healthy controls would have given more scope for comparison, not only among disabled groups, but also with the able bodied cohorts. In addition, even though DAI index is one of the most common indices used to assess malocclusion, lack of assessment of occlusal anomalies such as buccal crossbite, impacted teeth and center-line discrepancy weakens the index and would not provide a clear picture of different components of the malocclusion. , The use of more contemporary indices in this group, to explore various important occlusal traits, is recommended. ,
| Conclusions|| |
The present study gives an outline of dentofacial diversities among various SHCN groups in Dharwad, India. Half of them had orthodontic treatment need ranging from "elective" to "highly desirable" to "mandatory." Significantly higher frequencies of anterior maxillary overjet, anterior open bite and antero-posterior molar relation were noted among MD group and anterior maxillary irregularity in PD individuals. Absence of any orthodontic treatment for any child with malocclusion points out to the fact that the dental services are highly needed in these individuals. Only way to approach this at public level is through health education programs concerning both the parent and the patient.
| References|| |
Watson N. Barriers, discrimination and prejudice. In: Nunn J, editor. Disability and Oral Care. London: World Dental Press Ltd.; 2000. p. 15-28.
Clark CA, Vanek EP. Meeting the health care needs of people with limited access to care. J Dent Educ 1984;48:213-6.
Nunn JH, Gordon PH, Carmichael CL. Dental disease and current treatment needs in a group of physically handicapped children. Community Dent Health 1993;10:389-96.
Francis JR, Stevenson DR, Palmer JD. Dental health and dental care requirements for young handicapped adults in Wessex. Community Dent Health 1991;8:131-7.
The Persons with Disabilities (Equal Opportunities, Protection of Rights and Full Participation) Act; 1995. Available from: http://www.disabilityindia.org/pwdacts.cf. [Last accessed on 2011 Jun 18].
Thomas P. Mainstreaming Disability in Development: India Country Report; 2005a. Available from: http://www.healthlink.org.uk/PDFs/Mainstreaming-disability-in-dev-India-country-report.pdf. [Last accessed on 2011 Jun 18].
Purohit BM, Acharya S, Bhat M. Oral health status and treatment needs of children attending special schools in South India: A comparative study. Spec Care Dentist 2010;30:235-41.
Bhambal A, Jain M, Saxena S, Kothari S. Oral health preventive protocol for mentally disabled subjects - A review. J Adv Dent Res 2011;2:21-6.
Census of India. Disabled Population by Type of Disability, Age, Sex and Type. New Delhi: Registrar General Office; 2001. Available from: http://www.censusindia.net/disability/disability_mapgallery.html. [Last accessed on 2011 Jun 18].
Guidelines for Evaluation of Various Disabilities and Procedure for Certification. Expert Committees, Under the Chairmanship of Director General Health Services (DGHS), Vide Notification No. 16-18/97-NI I dated 1 st
World Health Organization. Oral Health Surveys: Basic Methods. 4 th
ed. Geneva: World Health Organization; 1997b.
Cons NC, Jenny J, Kohout FJ. DAI; The Dental Aesthetic Index. Iowa City: IA, Iowa College of Dentistry, University of Iowa; 1986.
Johnson M, Harkness M. Prevalence of malocclusion and orthodontic treatment need in 10-year-old New Zealand children. Aust Orthod J 2000;16:1-8.
Bali RK, Mathur VB, Talwar PP, Chanana HB. National oral health survey and fluoride mapping 2002-2003 India. New Delhi: Dental Council of India; 2004.
Borzabadi-Farahani A, Eslamipour F, Asgari I. A comparison of two orthodontic aesthetic indices. Aust Orthod J 2012;28:30-6.
Vellappally S, Gardens SJ, Al Kheraif AA, Krishna M, Babu S, Hashem M, et al.
The prevalence of malocclusion and its association with dental caries among 12-18-year-old disabled adolescents. BMC Oral Health 2014;14:123.
Eslamipour F, Borzabadi-Farahani A, Asgari I. Assessment of orthodontic treatment need in 11- to 20-year-old urban Iranian children using the Dental Aesthetic Index (DAI). World J Orthod 2010;11:e125-32.
Shyama M, al-Mutawa SA, Honkala S. Malocclusions and traumatic injuries in disabled schoolchildren and adolescents in Kuwait. Spec Care Dentist 2001;21:104-8.
Onyeaso CO. Orthodontic treatment need of mentally handicapped children in Ibadan, Nigeria, according to the dental aesthetic index. J Dent Child (Chic) 2003;70:159-63.
Utomii IL, Onyeasoii CO. Malocclusion and orthodontic treatment need of mentally handicapped children in Lagos, Nigeria. Pesqui Bras Odontopediatria Clin Integr João Pessoa 2009;9:7-11.
Borea G, Magi M, Mingarelli R, Zamboni C. The oral cavity in Down syndrome. J Pedod 1990;14:139-40.
Oliveira AC, Paiva SM, Martins MT, Torres CS, Pordeus IA. Prevalence and determinant factors of malocclusion in children with special needs. Eur J Orthod 2011;33:413-8.
Borzabadi-Farahani A, Borzabadi-Farahani A, Eslamipour F. Malocclusion and occlusal traits in an urban Iranian population. An epidemiological study of 11- to 14-year-old children. Eur J Orthod 2009;31:477-84.
Chauhan D, Sachdev V, Chauhan T, Gupta KK. A study of malocclusion and orthodontic treatment needs according to dental aesthetic index among school children of a hilly state of India. J Int Soc Prev Community Dent 2013;3:32-7.
Dinesh RB, Arnitha HM, Munshi AK. Malocclusion and orthodontic treatment need of handicapped individuals in South Canara, India. Int Dent J 2003;53:13-8.
Franklin DL, Luther F, Curzon ME. The prevalence of malocclusion in children with cerebral palsy. Eur J Orthod 1996;18:637-43.
Vigild M. Prevalence of malocclusion in mentally retarded young adults. Community Dent Oral Epidemiol 1985;13:183-4.
Borzabadi-Farahani A. An insight into four orthodontic treatment need indices. Prog Orthod 2011;12:132-42.
Borzabadi-Farahani A. A review of the evidence supporting the aesthetic orthodontic treatment need indices. Prog Orthod 2012;13:304-13.
Daniels C, Richmond S. The development of the index of complexity, outcome and need (ICON). J Orthod. 2000;27:149-6
Borzabadi-Farahani A, Borzabadi-Farahani A. Agreement between the index of complexity, outcome, and need and the dental and aesthetic components of the index of orthodontic treatment need. Am J Orthod Dentofacial Orthop. 2011;140:233-8.
[Table 1], [Table 2], [Table 3], [Table 4], [Table 5]