Assessment of midpalatal suture ossification using cone-beam computed tomography

Authors

  • Sadaf Mahmoudi DDS, Dentist, Dental Faculty, Babol University of Medical Sciences, Babol, Iran

Keywords:

Cone-beam computed tomography, Maxillary expansion, Ossification, Suture

Abstract

Background and Objective: The degree of ossification of the midpalatal suture is an important factor in the selection of treatment procedure, especially in young individuals. Considering the discrepancies in the results of studies on the exact time of the closure of this suture, the present study was undertaken to evaluate ossification and morphology of the suture with the use of CBCT.

Methods: In the present cross-sectional study, the CBCT images of the maxilla in 144 Iranian subjects (72 males, 72 females) with an age range of 10 to 70 years, referring to a private radiology center in Sari, Iran, were evaluated. The CBCT images were evaluated in the axial cross-sectional slice at 1 mm intervals to determine morphology and the maturation stage of the suture and its degree of ossification. The six developmental stages that were observed were as follows: stage A, a direct line without disturbances; stage B, a scalloped appearance in the suture; stage C, two parallel lines with a scalloped appearance that were connected at some points; stage CD, the anterior portion was similar to stage C, and the posterior region was similar to stage D; stage D, ossification only in the palatine bone; stage E, complete ossification of the suture. The degree of ossification of the suture was calculated with the use of the ratio of the length of the ossified segment to the entire length of the suture. Data were analyzed with Spearman’s correlation test, Chi-squared test, t-test, ANOVA, Mann-Whitney U, and Kruskal-Wallis test. Intra-observer agreement was calculated with the use of weighted kappa coefficient. Data were analyzed with SPSS 17. 

Results: There was a strong correlation between the age groups and the developmental stages of the midpalatal suture in both genders (r=0.681, p<0.001). The ossification process occurred in the posterior to anterior direction in 98% of the cases. There was a significant relationship between aging and the degree of ossification (p<0.001); however, the difference was not significant between the two genders (p=0.193). 

Conclusion: Although the rate of suture closure increased with aging, age was not a reliable factor alone to determine the developmental stage of the suture. Use of CBCT is necessary in all the patients to determine the degree of ossification and morphology of the midpalatal suture.

 

References

Lione R, Ballanti F, Franchi L, Baccetti T, Cozza P. Treatment and posttreatment skeletal effects of rapid

maxillary expansion studied with low-dose computed tomography in growing subjects. Am J Orthod

Dentofacial Orthop. 2008; 134(3): 389-92. doi: 10.1016/j.ajodo.2008.05.011. PMID: 18774085.

Baccetti T, Franchi L, Cameron CG, McNamara Jr JA. Treatment timing for rapid maxillary expansion.

Angle Orthod. 2001; 71(5): 343-50. doi: 10.1043/0003-3219(2001)071<0343:TTFRME>2.0.CO;2. PMID:

Chrcanovic BR, Custódio AL. Orthodontic or surgically assisted rapid maxillary expansion. Oral maxillofac

surg. 2009; 13(3): 123-37. doi: 10.1007/s10006-009-0161-9. PMID: 19590910.

Lione R, Franchi L, Fanucci E, Laganà G, Cozza P. Three-dimensional densitometric analysis of maxillary

sutural changes induced by rapid maxillary expansion. Dentomaxillofac Radiol. 2013; 42(2): 71798010. doi:

1259/dmfr/71798010. PMID: 22996394, PMCID: PMC3699014.

Phatouros A, Goonewardene MS. Morphologic changes of the palate after rapid maxillary expansion: a 3- dimensional computed tomography evaluation. Am J Orthod Dentofacial Orthop. 2008; 134(1): 117-24. doi:

1016/j.ajodo.2007.05.015. PMID: 18617111.

Garrett BJ, Caruso JM, Rungcharassaeng K, Farrage JR, Kim JS, Taylor GD. Skeletal effects to the maxilla

after rapid maxillary expansion assessed with cone-beam computed tomography. Am J Orthod Dentofacial

Orthop. 2008; 134(1): 8-9. doi: 10.1016/j.ajodo.2008.06.004. PMID: 18617096.

Kumar SA, Gurunathan D, Muruganandham SS, Kumar SA. Rapid Maxillary Expansion: A Unique

Treatment Modality in Dentistry. J Clin Diagn Res. 2011; 5(4): 906-11.

Romanyk DL, Liu SS, Lipsett MG, Toogood RW, Lagravère MO, Major PW, et al. Towards a viscoelastic

model for the unfused midpalatal suture: Development and validation using the midsagittal suture in New

Zealand white Rabbits. J Biomech. 2013; 46(10): 1618-25. doi: 10.1016/j.jbiomech.2013.04.011. PMID:

Larson CE. Midpalatal suture density ratio as a predictor of skeletal response to rapid maxillary expansion.

(Doctoral dissertation): University of Minnesota. 2015.

Poorsattar Bejeh Mir K, Poorsattar Bejeh Mir A, Bejeh Mir MP, Haghanifar S. A unique functional

craniofacial suture that may normally never ossify: A cone-beam computed tomography-based report of two

cases. Indian J Dent. 2016; 7(1): 48-50. doi: 10.4103/0975-962X.179375. PMID: 27134455, PMCID:

PMC4836098.

N’Guyen T, Ayral X, Vacher C. Radiographic and microscopic anatomy of the mid-palatal suture in the

elderly. Surg Radiol Anat. 2008; 30(1): 65-8. doi: 10.1007/s00276-007-0281-6. PMID: 18049790.

Hahn W, Fricke-Zech S, Fialka-Fricke J, Dullin C, Zapf A, Gruber R, et al. Imaging of the midpalatal suture

in a porcine model: flat-panel volume computed tomography compared with multislice computed

tomography. Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2009; 108(3): 443-9. doi:

1016/j.tripleo.2009.02.034. PMID: 19464211.

Fricke-Zech S, Gruber RM, Dullin C, Zapf A, Kramer FJ, Kubein-Meesenburg D, et al. Measurement of the

midpalatal suture width. Angle Orthod. 2012; 82(1): 145-50. doi: 10.2319/040311-238.1. PMID: 21812573.

Wehrbein H, Yildizhan F. The mid‐palatal suture in young adults. A radiological‐histological

investigation. Eur J Orthod. 2001; 23(2): 105-14. doi: 10.1093/ejo/23.2.105. PMID: 11398548.

Primožič J, Perinetti G, Richmond S, Ovsenik M. Three-dimensional longitudinal evaluation of palatal vault

changes in growing subjects. Angle Orthod. 2012; 82(4): 632-6. doi: 10.2319/070111-426.1. PMID:

Angelieri F, Franchi L, Cevidanes LH, McNamara Jr JA. Diagnostic performance of skeletal maturity for the

assessment of midpalatal suture maturation. Am J Orthod Dentofacial Orthop. 2015; 148(6): 1010-6. doi:

1016/j.ajodo.2015.06.016. PMID: 26672707.

Knaup B, Yildizhan F, Wehrbein H. Age-related changes in the midpalatal suture. J Orofac Orthop. 2004;

(6): 467-74. doi: 10.1007/s00056-004-0415-y. PMID: 15570405.

Korbmacher H, Schilling A, Püschel K, Amling M, Kahl-Nieke B. Age-dependent Three-dimensional

Microcomputed Tomography Analysis of the Human Midpalatal Suture. J Orofac Orthop. 2007; 68(5): 364- 76. doi: 10.1007/s00056-007-0729-7. PMID: 17882364.

Melsen B. Palatal growth studied on human autopsy material: a histologic microradiographic study. Am J

Orthod. 1975; 68(1): 42-54. PMID: 1056143.

Salgueiro DG, Rodrigues VH, Tieghi Neto V, Menezes CC, Gonçales ES, Ferreira Júnior O. Evaluation of

opening pattern and bone neoformation at median palatal suture area in patients submitted to surgically

assisted rapid maxillary expansion (SARME) through cone beam computed tomography. J Appl Oral Sci.

; 23(4): 397-404. doi: 10.1590/1678-775720140486. PMID: 26398512, PMCID: PMC4560500.

Acar YB, Motro M, Erverdi AN. Hounsfield Units: A new indicator showing maxillary resistance in rapid

maxillary expansion cases? Angle Orthod. 2014; 85(1): 109-16. doi: 10.2319/111013-823.1. PMID:

Ribeiro GLU, Locks A, Pereira J, Brunetto M. Analysis of rapid maxillary expansion using Cone-Beam

Computed Tomography. Dental Press J Orthod. 2010; 15(6): 107-12. doi: 10.1590/S2176- 94512010000600014.

Angelieri F, Cevidanes LH, Franchi L, Gonçalves JR, Benavides E, McNamara Jr JA. Midpalatal suture

maturation: Classification method for individual assessment before rapid maxillary expansion. Am J Orthod

Dentofacial Orthop. 2013; 144(5): 759-69. doi: 10.1016/j.ajodo.2013.04.022. PMID: 24182592, PMCID:

PMC4185298.

Thadani M, Shenoy U, Patle B, Kalra A, Goel S, Toshinawal N. Midpalatal Suture Ossification and Skeletal

Maturation: A Comparative Computerized Tomographic Scan and Roentgenographic Study. J Indian Acad

Oral Med Radiol. 2010; 22(2): 81-7.

N’Guyen T, Gorse FC, Vacher C. Anatomical modifications of the mid palatal suture during ageing: a

radiographic study. Surg Radiol Anat. 2007; 29(3): 253-9. doi: 10.1007/s00276-007-0204-6. PMID:

Cohen MM Jr. Sutural biology and the correlates of craniosynostosis. Am J Med Genet. 1993; 47(5): 581- 616. doi: 10.1002/ajmg.1320470507. PMID: 8266985.

Katsaros C, Zissis A, Bresin A, Kiliaridis S. Functional influence on sutural bone apposition in the growing

rat. Am J Orthod Dentofacial Orthop. 2006; 129(3): 352-7. doi: 10.1016/j.ajodo.2004.09.031. PMID:

de Melo Mde F, Melo SL, Zanet TG, Fenyo-Pereira M. Digital radiographic evaluation of the midpalatal

suture in patients submitted to rapid maxillary expansion. Indian J Dent Res. 2013; 24(1): 76-80. doi:

4103/0970-9290.114960. PMID: 23852237.

Revelo B, Fishman LS. Maturational evaluation of ossification of the midpalatal suture. Am J Orthod

Dentofacial Orthop. 1994; 105(3): 288-92. doi: 10.1016/S0889-5406(94)70123-7. PMID: 8135215.

Downloads

Published

2022-01-18

Issue

Vol. 9 No. 3 (2017): March 2017

Section

Articles

License

Copyright (c) 2020 KNOWLEDGE KINGDOM PUBLISHING

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.