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BMC Oral Health
Published in: BMC Oral Health 1/2018

Open Access 01-12-2018 | Research article

Palatal dimensions at different stages of dentition in 5 to 18-year-old Iranian children and adolescent with normal occlusion

Authors: Gholamreza Eslami Amirabadi, Amin Golshah, Sepideh Derakhshan, Shahla Khandan, Mahshid Saeidipour, Nafiseh Nikkerdar

Published in: BMC Oral Health | Issue 1/2018

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Abstract

Background

This study was purposed to evaluate palatal width, height, and height index at various stages of dentition in Iranian children and adolescent with normal occlusion.

Methods

This cross-sectional study was conducted on a random sample of 237 children (45% male and 55% female, aged 5–18 years) with normal occlusion selected from kindergartens and elementary and high schools in Hamadan, Iran. The subjects were clinically examined and classified based on dentition to primary (21.5%), mixed (21.9%), and permanent (56.5%) stages. Dental casts were obtained from all subjects. Palatal width (inter-molar and -canine distances), and height (at molar and canine areas) were measured on the casts by Korkhaus’ compass and digital caliper. Palatal height index was calculated for each dentition stage. Data were analyzed by SPSS 15 using one-way ANOVA followed by Tukey’s post hoc test and t- test (p <  0.05).

Results

Palatal inter-molar and -canine width values were increased from primary to permanent dentition. Palatal height and palatal height index in mixed dentition were significantly lower than those in primary and permanent dentition. Palatal width at inter-molar and -canine distances was significantly higher in males than females. There was no significant difference in palatal height and palatal height index at molar area between males and females. However, palatal height and palatal height index at canine area were significantly higher in males compared to females.

Conclusion

These findings showed that palatal width increased from primary to permanent stage. Palatal height and palatal height index decrease from primary to mixed dentation, then increase from mixed to permanent dentition.
Literature
1.
Thilander B. Dentoalveolar development in subjects with normal occlusion. A longitudinal study between the ages of 5 and 31 years. Eur J Orthod. 2009;31:109–20.CrossRefPubMed
2.
Carter GA, McNamara JA. Longitudinal dental arch changes in adults. Am J Orthod Dentofac Orthop. 1998;114:88–99.CrossRef
3.
Moyers RE. Handbook of orthodontics. 4th ed. Chicago: Year Book Medical Publishers; 1988.
4.
Ross-Powel RE, Harris EF. Growth of the anterior dental arch in black American children: a longitudinal study from 3 to 18 years of age. Am J Orthod Dentofac Orthop. 2000;118:649–57.CrossRef
5.
Moyers RE, van der Linden FPGM, Riolo ML, McNamara JA Jr. Standards of Human Occlusal Development. Ann Arbor, Mich: Center for Human Growth and Development, University of Michigan; 1976. Craniofacial growth series, Monograph 5.
6.
Van der Linden FPGM. Development of the dentition. Chicago: Quintessence; 1983.
7.
Van der Linden FPGM. Facial growth and facial orthopedics. Chicago: Quintessence; 1989. p. 148–52.
8.
9.
Cassidy KM, Harris EF, Tolley EA, Keim RG. Genetic influence on dental arch form in orthodontic patients. Angle Orthod. 1998;68(5):445–54.PubMed
10.
Bishara SE, Jakobsen JR, Treder J, Nowak A. Arch width changes from 6 weeks to 45 years of age. Am J Orthod Dentofac Orthop. 1997;111:401–9.CrossRef
11.
Odajima T. A longitudinal study on growth and development of dental arches of primary, mixed and permanent dentitions. Shikwa Gakulho. 1990;90(3):369–409.
12.
Tsujino K, Machida Y. A longitudinal study of the growth and development of the dental arch width from childhood to adolescence in Japanese. Bull Tokyo Dent Coll. 1998;39(2):75–89.PubMed
13.
Šlaj M, Ježina M, Lauc T, Rajić-Meštrović S, Mikšic M. Longitudinal dental arch changes in the mixed dentition. Angle Orthod. 2003;73:509–14.PubMed
14.
Barrow GV, White JR. Developmental changes of the maxillary and mandibular dental arches. Angle Orthod. 1952;22:41–6.
15.
Sillman JH. Dimensional changes of the dental arches: longitudinal study from birth to 25 years. Am J Orthod. 1964;50:600–16.CrossRef
16.
Moorrees CFA. The dentition of the growing child: a longitudinal study of dental development ages 3–18. Cambridge, Mass: Harvard University Press; 1959. p. 87–110.
17.
Moorrees CF, Gorn AM, Lebert LM, Yen PK, Frohlich FJ. Growth studies of the dentition: a review. Am J Orthod. 1969;55(6):600–16.CrossRefPubMed
18.
Younes S, el Angbawi MF, Al Dosari AM. A comparative study of palatal height in a Saudi and Egyptian population. J Oral Rehabil. 1995;22(5):391–5.CrossRefPubMed
19.
Hesby RM, Marshall SD, Dawson DV, Southard KA, Casko JS, Franciscus RG, Southard TE. Transverse skeletal and dentoalveolar changes during growth. Am J Orthod Dentofac Orthop. 2006;130(6):721–31.CrossRef
20.
Knott VB. Longitudinal study of dental arch width at four stages of dentition. Angle Orthod. 1972;42:387–95.PubMed
21.
Snodell SF, Nanda FS, Currier GF. A longitudinal cephalometric study of transverse and vertical craniofacial growth. Am J Orthod Dentofacial Orthop. 1993;104:471–83.CrossRefPubMed
22.
Harris EF. A longitudinal study of arch size and form in untreated adults. Am J Orthod Dentofac Orthop. 1997;111:419–27.CrossRef
23.
DeKock WH. Dental arch depth and width studied longitudinally from 12 years of age to adulthood. Am J Orthod. 1972;62:56–66.CrossRefPubMed
24.
Hung-Huey T, Tan C-T. Morphology of the palatal vault of primary dentition in transverse view. Angle Orthod. 2004;74:774–9.
25.
Rakosi T, Jonas I, Graber TM. Study cast analysis. In: Color atlas of dental medicine- Orthodontic Diagnosis. 1st ed. New York: Thieme Medical Publishers; 1993. p. 207–34.
26.
Shapiro BL, Redman RS, Gorlin RJ. Measurement of normal and reportedly malformed palatal vaults. 1. Normal adult measurements. J Dent Res. 1963;42:1039.CrossRefPubMed
27.
Knott VB, Johnson R. Height and shape of the palate in girls. A longitudinal study. Arch Oral Biol. 1970;15(9):849–60.CrossRefPubMed
28.
Hassanali J, Odhiambo JW. Analysis of dental casts of 6-8- and 12-year-old Kenyan children. Eur J Orthod. 2000;22:135–42.CrossRefPubMed
29.
Harris EF, Smith RJ. Occlusion and arch size in families. A principal components analysis. Angle Orthod. 1982;52(2):135–43.PubMed
30.
Warren JJ, Bishara SE. Comparison of dental arch measurements in the primary dentition between contemporary and historic samples. Am J Orthod Dentofac Orthop. 2001;119:211–5.CrossRef
31.
Mahdi E. Assessment of facial and cranial development and comparison of anthropometric ratios. J Craniofac Surg. 2012;23(2):e75–83.CrossRefPubMed
32.
Farkas LG, Katic MJ, Forrest CR, Alt KW, Bagic I, Baltadjiev G. International anthropometric study of facial morphology in various ethnic groups/races. J Craniofac Surg. 2005;16(4):615–46.CrossRefPubMed
33.
Jahanbin A, Poosti M, Rashed R, Sharifi V, Bozorgnia Y. Evaluation of nasomaxillary growth of adolescent boys in northeastern Iran. Acta Med Iran. 2012;50(10):684–8.PubMed
34.
Amini F, Mashayekhi Z, Rahimi H, Morad G. Craniofacial morphologic parameters in a Persian population: an anthropometric study. J Craniofac Surg. 2014;25(5):1874–81.CrossRefPubMed
35.
Azarbayejani S, Omrani A, Kalaantar-Motamedi A, Abdellahi M, Taalebi V, Teimoori F. Cephalometric norms for 6-17 year-old Iranians with normal occlusion and well-balanced faces. Dent Res J (Isfahan). 2014;11(3):327–35.
36.
Aminian F, Sadat Razavian Z, Rakhshan V. Soft tissue cephalometric norms of Iranian class I adults with good occlusions and balanced faces. Int Orthod. 2016;14(1):108–22.
37.
Taki AA, Oguz F, Abuhijleh E. Facial soft tissue values in Persian adults with normal occlusion and well-balanced faces. Angle Orthod. 2009;79(3):491–4.CrossRefPubMed
38.
Tibana RHW, Palagi LM, Miguel JAM. Changes in dental arch measurements of young adults with normal occlusion— a longitudinal study. Angle Orthod. 2004;74:618–23.PubMed
39.
Lindsten R, Ogaard B, Larsson E, Bjerklin K. Transverse dental and dental arch depth dimensions in the mixed dentition in a skeletal sample from the 14th to the 19th century and Norwegian children and Norwegian Sami children of today. Angle Orthod. 2002;72:439–48.PubMed
40.
Louly F, Nouer PR, Janson G, Pinzan A. Dental arch dimensions in the mixed dentition: a study of Brazilian children from 9 to 12 years of age. J Appl Oral Sci. 2011;19(2):169–74.CrossRefPubMedPubMedCentral
41.
Al-Zubair NM. Determinant factors of Yemeni maxillary arch dimensions. Saudi dent j. 2015;27(1):50–4.CrossRefPubMed
42.
Staley RN, Stuntz WR, Peterson L. A comparison of arch widths in adults with normal occlusion and adults with class II division 1 occlusion. Am J Orthod. 1985;88(2):163–9.CrossRefPubMed
43.
Raberin M, Laumon B, Martin JL, Brunner F. Dimensions and form of dental arches in subjects with normal occlusion. Am J Orthod Dentofac Orthop. 1993;104(1):67–72.CrossRef
44.
Howell S. Assessment of palatal height in children. Community Dent Oral Epidemiol. 1981;9(1):44–7.CrossRefPubMed
45.
Ordoubazary M, Zafarmand H, Madani A, Ordoubazary A. Comparison of Pont's and Korkhaus indices at different populations. Hell Ortod Rev. 2007;10:67–74.
Metadata
Title
Palatal dimensions at different stages of dentition in 5 to 18-year-old Iranian children and adolescent with normal occlusion
Authors
Gholamreza Eslami Amirabadi
Amin Golshah
Sepideh Derakhshan
Shahla Khandan
Mahshid Saeidipour
Nafiseh Nikkerdar
Publication date
01-12-2018
Publisher
BioMed Central
Published in
BMC Oral Health / Issue 1/2018
Electronic ISSN: 1472-6831
DOI
https://doi.org/10.1186/s12903-018-0538-y

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