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Evaluation of long-term stability of mesiodistal axial inclinations of maxillary molars through panoramic radiographs in subjects treated with Pendulum appliance

Abstracts

Objective:

To evaluate the stability of mesiodistal inclination of maxillary molars produced by a pendulum appliance, five years after completion of orthodontic treatment. Angulation changes were compared to an untreated sample.

Methods:

The sample consisted of 20 patients (14 females and 6 males) with Class II, Division 1 malocclusion that was treated through molar distalization with a pendulum appliance followed by cervical headgear and full fixed appliances. Maxillary molar inclination was evaluated through panoramic radiograph. The mean age at pretreatment was 14.3 ± 1.6 years, whereas at immediate post-treatment it was 18.6 ± 1.8 years, and at long-term post-treatment it was 23.8 ± 2.0 years. A control group of 16 untreated individuals with untreated normocclusion ranging in age from 12 to 17 years old were used as comparison group. Data were statistically analyzed with independent t-tests and ANOVA test followed by Tukey post-hoc tests.

Results:

Statistically significant differences were found between T1 (94.50) and T2 (98.80) as well as between T2 and T3 (94.70) for maxillary first molars. Maxillary second molars did not show any statistically significant positional changes during the evaluated time periods T1 (107.50), T2 (109.30) and T3 (106.90).

Conclusion:

Although maxillary first molars underwent distal crown inclination immediately after treatment, approximately five years thereafter their roots tended to upright close to the pretreatment positions.

Orthodontic appliances; Angle Class II malocclusion; Radiography


Objetivo:

avaliar a estabilidade da inclinação mesiodistal dos molares superiores cinco anos após o tratamento realizado com o aparelho Pendulum seguido de aparelho ortodôntico fixo. As mudanças na angulação foram comparadas com uma amostra não tratada.

Métodos:

a amostra consistiu de 20 pacientes (14 do sexo feminino e 6 do masculino) com má oclusão de Classe II, divisão 1 tratados por meio da distalização dos molares com o aparelho Pendulum seguido de ancoragem extrabucal cervical e aparelho fixo. A inclinação dos molares superiores foi avaliada por meio de radiografias panorâmicas. A média da idade ao início do tratamento foi de 14,3 ± 1,6 anos; ao final do tratamento, de 18,6 ± 1,8 anos e, no longo tempo pós-tratamento, de 23,8 ± 2,0 anos. Para comparação, foi usado um grupo controle com 16 indivíduos não tratados e com oclusão normal, apresentando idades entre 12 e 17 anos. Os dados foram analisados estatisticamente pelo teste t independente e ANOVA, seguido do teste de Tukey.

Resultados:

os primeiros molares superiores apresentaram diferenças estatisticamente significativas entre T1 (94,5o) e T2 (98,8o), bem como entre T2 e T3 (94,7o). Os segundos molares superiores não apresentaram alterações estatisticamente significativas no seu posicionamento durante os períodos avaliados, T1 (107,5o), T2 (109,3o) e T3 (106,9o).

Conclusões:

apesar de os primeiros molares superiores apresentarem inclinação distal da coroa imediatamente após o tratamento, aproximadamente cinco anos depois suas raízes tendem a ocupar posições próximas às do início do tratamento.

Aparelho ortodôntico; Má oclusão de Classe II; Radiografia


INTRODUCTION

In Class II malocclusion cases without a significant anteroposterior skeletal component, an available treatment option is to distalize maxillary molars and premolars to allow canines and incisors to attain normal overjet and overbite.1 1. Cetlin NM, Ten Hoeve A. Nonextraction treatment. J Clin Orthod. 1983 Jun;17(6):396-413.In the past,molar distalization was accomplished mainly with the use of headgears.2 2. Ciger S, Aksu M, Germeç D. Evaluation of posttreatment changes in Class II Division 1 patients after nonextraction orthodontic treatment: cephalometric and model analysis. Am J Orthod Dentofacial Orthop. 2005 Feb;127(2):219-23.The objective was to obtain a bodily distal movement of maxillary first molars by adjusting the headgear, so that the line of force application passed through molars center of resistance. A problem with the use of headgears is their compliance dependency.33. Doruk C, Agar U, Babacan H. The role of the headgear timer in extraoral co-operation. Eur J Orthod. 2004 Jun;26(3):289-91. Currently, there are other intraoral distalization appliances that are not compliant dependent.44. Hilgers JJ. The pendulum appliance for Class II non-compliance therapy. J Clin Orthod. 1992 Nov;26(11):706-14.,55. Patel MP, Janson G, Henriques JF, de Almeida RR, de Freitas MR, Pinzan A, et al. Comparative distalization effects of Jones jig and pendulum appliances. Am J Orthod Dentofacial Orthop. 2009 Mar;135(3):336-42. The reported disadvantage of these appliances is the potential loss of posterior anchorage during the overjet reduction stage.

The pendulum appliance was developed in 1992 as a noncompliance intraoral molar distalization appliance. Several authors have shown its effectiveness in the correction of Class II molar relationships.66. Bussick TJ, McNamara JA Jr. Dentoalveolar and skeletal changes associated with the pendulum appliance. Am J Orthod Dentofacial Orthop. 2000 Mar;117(3):333-43.

7. Fuziy A, Rodrigues de Almeida R, Janson G, Angelieri F, Pinzan A. Sagittal, vertical, and transverse changes consequent to maxillary molar distalization with the pendulum appliance. Am J Orthod Dentofacial Orthop. 2006 Oct;130(4):502-10.

8. Kinzinger G, Fuhrmann R, Gross U, Diedrich P. Modified pendulum appliance including distal screw and uprighting activation for non-compliance therapy of Class II malocclusion in children and adolescents. J Orofac Orthop. 2000;61(3):175-90.
-99. Kinzinger GS, Fritz UB, Sander FG, Diedrich PR. Efficiency of a pendulum appliance for molar distalization related to second and third molar eruption stage. Am J Orthod Dentofacial Orthop. 2004 Jan;125(1):8-23. One identified limitation is that the more distal molar movement is produced, the more crown tipping is observed. The explanation for this side effect is the off-centered location of the point of force application.1010. Angelieri F, Almeida RR, Almeida MR, Fuziy A. Dentoalveolar and skeletal changes associated with the pendulum appliance followed by fixed orthodontic treatment. Am J Orthod Dentofacial Orthop. 2006 Apr;129(4):520-7. The importance of obtaining correct mesiodistal axial inclination with parallel roots is often emphasized in the literature.1111. Andrews LF. The six keys to normal occlusion. Am J Orthod. 1972 Sep;62(3):296-309.,1212. Ursi WJ, Almeida RR, Tavano O, Henriques JF. Assessment of mesiodistal axial inclination through panoramic radiography. J Clin Orthod. 1990 Mar;24(3):166-73. Improved occlusal stability by neutralization of occlusal forces is suggested.1313. Hatasaka HH. A radiographic study of roots in extraction sites. Angle Orthod. 1976 Jan;46(1):64-8.

Panoramic radiography is frequently used to determine root parallelism and mesiodistal axial inclination of teeth in orthodontic practices.1414. Almeida-Pedrin RR, Pinzan A, Almeida RR, Ursi W, Almeida MR. Panoramic evaluation of mesiodistal axial inclinations of maxillary anterior teeth in orthodontically treated subjects. Am J Orthod Dentofacial Orthop. 2006 Jul;130(1):56-60; discussion 60-1.,1515. Cuoghi OA, Sella RC, de Mendonça MR. Mesiodistal angulations of the mandibular canines, premolars and molars with or without the presence of third molars. Eur J Orthod. 2010 Aug;32(4):472-6. Although cone-beam volumetric tomography can provide more precise information, this method is not yet routinely available.1616. Peck JL, Sameshima GT, Miller A, Worth P, Hatcher DC. Mesiodistal root angulation using panoramic and cone beam CT. Angle Orthod. 2007 Mar;77(2):206-13. Moreover, panoramic radiograph is less expensive and more commonly performed, since it produces less radiation exposure.1717. Li G. Patient radiation dose and protection from cone-beam computed tomography. Imaging Sci Dent. 2013 Jun;43(2):63-9. It can be argued that craniofacial structures are magnified and distorted in panoramic radiographs;1818. Mckee IW, Williamson PC, Lam EW, Heo G, Glover KE, Major PW. The accuracy of 4 panoramic units in the projection of mesiodistal tooth angulations. Am J Orthod Dentofacial Orthop. 2002 Feb;121(2):166-75; quiz 192. however, some studies point out that relative accuracy can be obtained with the use of panoramic radiographs to assess angular measurements, if proper precautions are taken when positioning the head.1919. Stramotas S, Geenty JP, Petocz P, Darendeliler MA. Accuracy of linear and angular measurements on panoramic radiographs taken at various positions in vitro. Eur J Orthod. 2002 Feb;24(1):43-52.,2020. Nikneshan S, Sharafi M, Emadi N. Evaluation of the accuracy of linear and angular measurements on panoramic radiographs taken at different positions. Imaging Sci Dent. 2013 Sep;43(3):191-6.

There is scarcity of long-term studies evaluating the stability of dental changes produced by the pendulum appliance. Only two studies have evaluated the long-term stability of treatment effects with the pendulum appliance.2121. Caprioglio A, Fontana M, Longoni E, Cozzani M. Long-term evaluation of the molar movements following Pendulum and fixed appliances. Angle Orthod. 2013 May;83(3):447-54.,2222. Alessio LE Jr. Avaliação longitudinal da estabilidade do tratamento da má oclusão de classe II com o aparelho Pendulum seguido pelo aparelho fixo [dissertação]. Bauru (SP): Universidade de São Paulo; 2009. Significant dentoalveolar effects, as measured through lateral cephalograms, were partially maintained after a follow-up period of seven years.2121. Caprioglio A, Fontana M, Longoni E, Cozzani M. Long-term evaluation of the molar movements following Pendulum and fixed appliances. Angle Orthod. 2013 May;83(3):447-54. Partial stability was also shown when measuring dentoalveolar variables through the PAR index five years after treatment.2222. Alessio LE Jr. Avaliação longitudinal da estabilidade do tratamento da má oclusão de classe II com o aparelho Pendulum seguido pelo aparelho fixo [dissertação]. Bauru (SP): Universidade de São Paulo; 2009. Therefore, the objective of this study was to evaluate, through panoramic radiographs, the long-term stability of mesiodistal axial inclinations of maxillary molars after orthodontic treatment with the pendulum appliance followed by a cervical headgear and fixed orthodontic appliances, as compared to the expected normal values determined from an untreated sample. To this end, the null hypothesis assumed that mesiodistal axial maxillary molar inclination was not affected in the long term by treatment with the pendulum appliance followed by a cervical headgear and fixed orthodontic appliances.

MATERIAL AND METHODS

Material

Ethical approval was granted by Universidade de São Paulo (USP) Bauru School of Dentistry. In this retrospective clinical study, no sample size calculation was done as all available records were considered. From the available 33 patients treated with the pendulum appliance followed by a cervical headgear and fixed appliances, 11 patients' records were later excluded for the following reasons: three patients had their pendulum appliances removed prematurely due to breakage; three patients had inadequate radiographs because of improper head positioning at the time of exposure; and five had incomplete records. Out of the remaining 22 patients, two did not return for long-term post-treatment records (five years or more). Therefore, the final available sample consisted of 20 patients (6 males, 14 females). The initial mean pretreatment age was 14.3 ± 1.6 years. Thus a total of 60 panoramic radiographs was available from pretreatment (T1), immediate post-treatment (T2) and long-term post-treatment (T3) records (Figs 1-3).

Figure 1
- Pretreatment (T1) panoramic radiograph.

Figure 2
- Post-treatment (T2) panoramic radiograph.

Figure 3
- Long-term post-treatment (T3) panoramic radiograph.

All patients met the following inclusion criteria: (1) Angle Class II molar relationship (12 patients had full Class II molar relationships and eight had one-half Class II molar relationships in either side); (2) presence of all permanent teeth, including fully erupted maxillary second molars.

These patients were assessed on an average of 5.2 years after the end of orthodontic treatment (T3). At T1, 19 patients had unerupted third molars present while the remaining patients had agenesis of third molars. At T2, only one patient had extraction of third molars. Finally, at T3, only four additional patients had third molars extracted.

A control group of 16 untreated normocclusion individuals ranging in age from 12 to 17 years were used as comparison group. Their maxillary molar mesiodistal angulations were considered normal for the purposes of this study. They had a full complement of teeth (except for third molars), Class I canine and molar relationship, overbite and overjet between 1 and 3 mm and absence of crowding. This control group, used previously by other researchers,1414. Almeida-Pedrin RR, Pinzan A, Almeida RR, Ursi W, Almeida MR. Panoramic evaluation of mesiodistal axial inclinations of maxillary anterior teeth in orthodontically treated subjects. Am J Orthod Dentofacial Orthop. 2006 Jul;130(1):56-60; discussion 60-1.,1515. Cuoghi OA, Sella RC, de Mendonça MR. Mesiodistal angulations of the mandibular canines, premolars and molars with or without the presence of third molars. Eur J Orthod. 2010 Aug;32(4):472-6. was obtained from the files of the Universidade de São Paulo (USP) Bauru School of Dentistry Growth Study.

Appliance setup

Each patient received a pendulum appliance, as described in the literature.4 4. Hilgers JJ. The pendulum appliance for Class II non-compliance therapy. J Clin Orthod. 1992 Nov;26(11):706-14.All orthodontic treatment was managed by one clinician and consisted of an acrylic Nance button and two coil springs (0.032-in TMA wire, Ormco, Glendora, CA, USA). Each pendulum was anchored to the first premolar through bands and to the second premolar through wires bonded to the occlusal surfaces. The pendulum springs were activated parallel to the palatal midline, with a mean force of about 250 g. Mean treatment time was 5.9 ± 1.8 months, until an overcorrected Class I molar relationship was achieved. The mean space opened was 7.25 mm, as determined through lateral cephalograms, and on the dental casts, the mean space opening on the right and left arch sides were 6.12 and 6.5 mm, respectively. Thereafter, the pendulum appliance was removed and a Nance button was used to anchor and retain the distalized maxillary first molars. Anchorage reinforcement was achieved with a cervical headgear with the outer bows tilted 15° to 20° upward from the occlusal plane, exerting 400 to 500 g of force with an average wear of 10 to 12 hours per day.

Following distalization of first molars, preadjusted Edgewise orthodontic appliances were bonded to finish occlusal detailing. The archwire sequence was: nickel-titanium 0.016-in, stainless steel 0.018-in, 0.020-in, and 0.019 x 0.025-in. During the use of the 0.019 x 0.025-in rectangular arch, sequential retraction of second premolars, followed by first premolars, was initiated with intraoral elastics while the cervical headgear was worn at night. After retraction of first premolars, the Nance button was removed for mass retraction of anterior teeth. At this stage, in addition to the cervical headgear, Class II elastics (12 to 20 hours per day) were used for retention of the molar relationship and reduction of overjet. After retraction of maxillary anterior teeth, finishing archwires were placed for completion of treatment. After removal of the fixed orthodontic appliances, standard upper Hawley and lower 3 x 3 fixed retainers were placed. Total treatment time (considering the pendulum, cervical headgear and fixed appliances use) was 4.4 ± 0.8 years, while the long-term post-treatment evaluation was 5.2 ± 1.1 years. The breakage rate of pendulum appliance was 9.09%.

Methods

Panoramic radiographs of experimental and control groups were taken using the same equipment Funk X-15 (Funk, Ribeirão Preto, SP, Brazil) with a cephalostat. Clinical Frankfort horizontal plane was parallel to the ground and the facial midline plane was perpendicular to the ground.

For each patient in the experimental group, panoramic radiographs were taken at T1, T2 and T3. The mean period between T1 and T2 was 4.4 years and between T2 and T3 was 5.2 years. No additional panoramic radiographs were taken during treatment. For subjects in the control group, only one radiograph was used (12 to 17 years of age).

The inferior outline of the orbits and the contours of maxillary molars were traced on acetate paper over each radiograph by one evaluator, while the tracings were verified by another evaluator. The reference line used passed through the most inferior points of the right and left orbits.2323. Tuverson DL. Anterior interocclusal relations. Part I. Am J Orthod. 1980 Oct;78(4):361-70. The angles formed by the upper reference line and the long axes of teeth (palatal root) were measured on each radiograph. Figure 4 shows the anatomic structures, references lines and angular measurements used in this study.

Figure 4
- Angular measurements between long axes of teeth and upper reference line.

Error of the method

To assess the error of localizing the reference points and the manual procedure, 18 randomly selected radiographs were retraced and remeasured by the same examiner about four weeks later. Random errors were assessed by Dahlberg's formula, and the systematic errors were ascertained by paired t-tests. Intraobserver reproducibility of angular measurement was examined by Intraclass Correlation Coefficient (ICC). The degree of concordance observed is classified as: weak if ICC is < 0.4, satisfactory ≤ 0.4 and < 0.75 and excellent ≥ 0.75.2424. Fleiss JL. The design and analysis of clinical experiments. New York: Wiley; 1986.

Statistical analysis

Means and standard deviations for each variable were calculated. Normal distributions were verified by the Kolmogorov-Smirnov test. Results of this test showed that all variables were normally distributed. Therefore, paired ANOVA, followed by Tukey tests were used. The mean mesiodistal axial inclinations at stages T1, T2 and T3 were compared with normal mean values through independent t-test. All statistical analyses were performed with Statistica software (Statistica for Windows 7.0; Statsoft, Tulsa, Oklahoma, USA). Results were considered statistically significant at p < 0.05.

RESULTS

Systematic and random errors varied from 0.91° (maxillary second left molar) to 1.50° (maxillary first right molar). Therefore, the random error of the method (Dahlberg's formula) did not exceed 1.50°. Paired t-tests did not show statistically significant differences for systematic errors (p < 0.05). Reproducibility was found to be excellent through ICC values of 0.838, 0.846, 0.932 and 0.968, respectively for maxillary first right molar, maxillary first left molar, maxillary second right molar, maxillary second left molar.

The mean mesiodistal axial inclination values at T1, T2 and T3 and the significance of their differences are found on Table 1. Statistically significant differences were demonstrated between T1 and T2, as well as between T2 and T3 for maxillary first right and left molars.

Table 1
- Means and standard deviation values of tooth at pretreatment (T1), post-treatment (T2) and long-term post-treatment (T3), and results of dependent ANOVA and Tukey tests.

At T1, no statistically significant differences between groups were demonstrated (Table 2).

Table 2
- Independent t-test for groups at pretreatment (T1).

At T2, statistically significant differences between groups were demonstrated only for maxillary first right and left molars (Table 3).

Table 3
- Independent t-test for groups at post-treatment (T2).

At T3, statistically significant differences between groups were demonstrated only for maxillary first right molar (Table 4).

Table 4
- Independent t-test for groups at long-term post-treatment (T3).

DISCUSSION

The aim of this study was to evaluate the mesiodistal axial inclination of maxillary molars, five years after completion of orthodontic treatment with a pendulum appliance followed by a cervical headgear and fixed appliances. It must be emphasized that the effectiveness of the pendulum appliance in the correction of Class II molar relationships has been previously reported.66. Bussick TJ, McNamara JA Jr. Dentoalveolar and skeletal changes associated with the pendulum appliance. Am J Orthod Dentofacial Orthop. 2000 Mar;117(3):333-43.

7. Fuziy A, Rodrigues de Almeida R, Janson G, Angelieri F, Pinzan A. Sagittal, vertical, and transverse changes consequent to maxillary molar distalization with the pendulum appliance. Am J Orthod Dentofacial Orthop. 2006 Oct;130(4):502-10.

8. Kinzinger G, Fuhrmann R, Gross U, Diedrich P. Modified pendulum appliance including distal screw and uprighting activation for non-compliance therapy of Class II malocclusion in children and adolescents. J Orofac Orthop. 2000;61(3):175-90.
-99. Kinzinger GS, Fritz UB, Sander FG, Diedrich PR. Efficiency of a pendulum appliance for molar distalization related to second and third molar eruption stage. Am J Orthod Dentofacial Orthop. 2004 Jan;125(1):8-23. However, only two studies evaluated the stability of pendulum appliance correction.2121. Caprioglio A, Fontana M, Longoni E, Cozzani M. Long-term evaluation of the molar movements following Pendulum and fixed appliances. Angle Orthod. 2013 May;83(3):447-54.,2222. Alessio LE Jr. Avaliação longitudinal da estabilidade do tratamento da má oclusão de classe II com o aparelho Pendulum seguido pelo aparelho fixo [dissertação]. Bauru (SP): Universidade de São Paulo; 2009. One of this studies evaluated the long-term stability (seven years) of molar movements following pendulum and fixed appliance and found no maxillary molar relapse during the postretention period.2121. Caprioglio A, Fontana M, Longoni E, Cozzani M. Long-term evaluation of the molar movements following Pendulum and fixed appliances. Angle Orthod. 2013 May;83(3):447-54. The other study2222. Alessio LE Jr. Avaliação longitudinal da estabilidade do tratamento da má oclusão de classe II com o aparelho Pendulum seguido pelo aparelho fixo [dissertação]. Bauru (SP): Universidade de São Paulo; 2009. evaluated treatment stability (five years) of the pendulum appliance followed by fixed appliances by means of PAR index in dental casts and cephalometric measurements. It was concluded that treatment was stable (PAR relapse percentage of only 17.19%). The results also showed great stability of cephalometric variables.

Both studies evaluated, through a clinical cast analysis, the stability of molar position after pendulum appliance correction. Neither one used panoramic radiographs. Panoramic radiography is frequently used to assess root parallelism and mesiodistal axial inclination before, during, and after treatment.1212. Ursi WJ, Almeida RR, Tavano O, Henriques JF. Assessment of mesiodistal axial inclination through panoramic radiography. J Clin Orthod. 1990 Mar;24(3):166-73.,1414. Almeida-Pedrin RR, Pinzan A, Almeida RR, Ursi W, Almeida MR. Panoramic evaluation of mesiodistal axial inclinations of maxillary anterior teeth in orthodontically treated subjects. Am J Orthod Dentofacial Orthop. 2006 Jul;130(1):56-60; discussion 60-1.,1515. Cuoghi OA, Sella RC, de Mendonça MR. Mesiodistal angulations of the mandibular canines, premolars and molars with or without the presence of third molars. Eur J Orthod. 2010 Aug;32(4):472-6. Although it can be argued that craniofacial structures are magnified and distorted in panoramic radiographs,1212. Ursi WJ, Almeida RR, Tavano O, Henriques JF. Assessment of mesiodistal axial inclination through panoramic radiography. J Clin Orthod. 1990 Mar;24(3):166-73.,1818. Mckee IW, Williamson PC, Lam EW, Heo G, Glover KE, Major PW. The accuracy of 4 panoramic units in the projection of mesiodistal tooth angulations. Am J Orthod Dentofacial Orthop. 2002 Feb;121(2):166-75; quiz 192.,2525. McKee IW, Glover KE, Williamson PC, Lam EW, Heo G, Major PW. The effect of vertical and horizontal head positioning in panoramic radiography on mesiodistal tooth angulations. Angle Orthod. 2001 Dec;71(6):442-51. accurately assessing mesiodistal tooth inclination with panoramic radiograph is still possible, as suggested by other studies.1212. Ursi WJ, Almeida RR, Tavano O, Henriques JF. Assessment of mesiodistal axial inclination through panoramic radiography. J Clin Orthod. 1990 Mar;24(3):166-73.,2020. Nikneshan S, Sharafi M, Emadi N. Evaluation of the accuracy of linear and angular measurements on panoramic radiographs taken at different positions. Imaging Sci Dent. 2013 Sep;43(3):191-6. Although some authors2020. Nikneshan S, Sharafi M, Emadi N. Evaluation of the accuracy of linear and angular measurements on panoramic radiographs taken at different positions. Imaging Sci Dent. 2013 Sep;43(3):191-6. emphasized that linear measurements were unreliable; angular measurements, such as axial tooth inclinations, are not as variable.2020. Nikneshan S, Sharafi M, Emadi N. Evaluation of the accuracy of linear and angular measurements on panoramic radiographs taken at different positions. Imaging Sci Dent. 2013 Sep;43(3):191-6.,2626. Lucchesi MV, Wood RE, Nortjé CJ. Suitability of the panoramic radiograph for assessment of mesiodistal angulation of teeth in the buccal segments of the mandible. Am J Orthod Dentofacial Orthop. 1988 Oct;94(4):303-10. To diminish distortion and magnification of images as much as possible, radiographs were carefully obtained through standard exposure parameters and proper patient posture. Small deviations of ideal head position can significantly affect panoramic radiograph; however, there is some tolerance of variation in head positioning.1919. Stramotas S, Geenty JP, Petocz P, Darendeliler MA. Accuracy of linear and angular measurements on panoramic radiographs taken at various positions in vitro. Eur J Orthod. 2002 Feb;24(1):43-52.,2020. Nikneshan S, Sharafi M, Emadi N. Evaluation of the accuracy of linear and angular measurements on panoramic radiographs taken at different positions. Imaging Sci Dent. 2013 Sep;43(3):191-6. Studies demonstrate that variation of occlusal plane in 10 degrees or less do not significant affect teeth angulation.1919. Stramotas S, Geenty JP, Petocz P, Darendeliler MA. Accuracy of linear and angular measurements on panoramic radiographs taken at various positions in vitro. Eur J Orthod. 2002 Feb;24(1):43-52.,2020. Nikneshan S, Sharafi M, Emadi N. Evaluation of the accuracy of linear and angular measurements on panoramic radiographs taken at different positions. Imaging Sci Dent. 2013 Sep;43(3):191-6.

Regarding specific distortions in the molar area, in one study, a change of 5 degrees in inferior head tilt resulted in significant changes in maxillary molars inclination.2727. Hardy TC, Suri L, Stark P. Influence of patient head positioning on measured axial tooth inclination in panoramic radiography. J Orthod. 2009 Jun;36(2):103-10. In another study, maxillary posterior roots appear to be projected more distally in panoramic radiography.1818. Mckee IW, Williamson PC, Lam EW, Heo G, Glover KE, Major PW. The accuracy of 4 panoramic units in the projection of mesiodistal tooth angulations. Am J Orthod Dentofacial Orthop. 2002 Feb;121(2):166-75; quiz 192. Nevertheless, panoramic radiograph should be used with caution to assess the axial inclination of teeth, considering its distortion and alteration due to aberrant head positioning or inherent distortion problems of the radiographic method.1818. Mckee IW, Williamson PC, Lam EW, Heo G, Glover KE, Major PW. The accuracy of 4 panoramic units in the projection of mesiodistal tooth angulations. Am J Orthod Dentofacial Orthop. 2002 Feb;121(2):166-75; quiz 192.,2525. McKee IW, Glover KE, Williamson PC, Lam EW, Heo G, Major PW. The effect of vertical and horizontal head positioning in panoramic radiography on mesiodistal tooth angulations. Angle Orthod. 2001 Dec;71(6):442-51.

Evaluating the axial inclinations of teeth has potential significant relevance in Orthodontics. Orthodontic treatment objectives include obtaining functional occlusion, esthetics and stability. A criterion for obtaining functional occlusion is to have ideal axial inclinations of all teeth after active treatment. This is especially important for orthodontically closed extraction sites which are more likely to open if adjacent teeth roots are not parallel.1313. Hatasaka HH. A radiographic study of roots in extraction sites. Angle Orthod. 1976 Jan;46(1):64-8.,2323. Tuverson DL. Anterior interocclusal relations. Part I. Am J Orthod. 1980 Oct;78(4):361-70.

In this sample, maxillary second molars were already erupted into the occlusal plane. It has been previously proposed that tipping of maxillary first molars was much more pronounced than bodily movement when maxillary second molars were still at the budding stage. In contrast, when eruption of maxillary second molar was completed, distalization of maxillary first molars happened almost exclusively by bodily movement.99. Kinzinger GS, Fritz UB, Sander FG, Diedrich PR. Efficiency of a pendulum appliance for molar distalization related to second and third molar eruption stage. Am J Orthod Dentofacial Orthop. 2004 Jan;125(1):8-23. To further support this concept, a recent systematic review showed that the effect of maxillary second molar eruption stage on molar angular distalization appears to be minimal; however, the large variability reported should be considered clinically.2828. Flores-Mir C, McGrath L, Heo G, Major PW. Efficiency of molar distalization associated with second and third molar eruption stage. Angle Orthod. 2013 Jul;83(4):735-42.

Our results did not demonstrate statistically significant differences between the mean values at T1 from those with normal untreated occlusions. In this Class II malocclusion sample, molar inclination was acceptable at T1. Results later showed that treatment changed the mesiodistal axial inclinations of maxillary first molars through distalization of the molar crown (9.40 of distal inclination immediately after distalization) without a similar degree of root distal movement. This crown distal inclination was expected, since the pendulum appliance, as other similar intraoral distalizers, tend to tip the molar distally due to the point of force application as related to the center of resistance.77. Fuziy A, Rodrigues de Almeida R, Janson G, Angelieri F, Pinzan A. Sagittal, vertical, and transverse changes consequent to maxillary molar distalization with the pendulum appliance. Am J Orthod Dentofacial Orthop. 2006 Oct;130(4):502-10.,1010. Angelieri F, Almeida RR, Almeida MR, Fuziy A. Dentoalveolar and skeletal changes associated with the pendulum appliance followed by fixed orthodontic treatment. Am J Orthod Dentofacial Orthop. 2006 Apr;129(4):520-7.,2929. Melsen B, Dalstra M. Distal molar movement with Kloehn headgear: is it stable? Am J Orthod Dentofacial Orthop. 2003 Apr;123(4):374-8. However, in this sample, molar inclination almost normalized at T3, indicating that either normal growth changes or dental relapse might have improved maxillary molar inclinations. It has been proposed that fully erupted permanent teeth can still move as part of normal craniofacial changes well into adulthood.3030. Van der Linden FPGM. Development of the dentition. New York: Quintessence; 1983. This change is evidenced radiographically by previously reported mesial axial inclination of maxillary first and second molars.3030. Van der Linden FPGM. Development of the dentition. New York: Quintessence; 1983. Although a possible hypothesis is that the horizontal component of force during chewing may cause a mesial axial inclination of molars while adapting to the occlusal functional demands,31 31. Southard TE, Southard KA, Tolley EA. Periodontal force: a potential cause of relapse. Am J Orthod Dentofacial Orthop. 1992 Mar;101(3):221-7.the reported differences may not be clinically meaningful. Only the maxillary first right molar presented statistically significant differences at this stage. It has to be considered that this statistical difference was small and therefore considered clinically insignificant.

Limitations

The relatively small sample size of both treatment and control groups should be considered. Additionally, the use of cross sectional data, instead of longitudinal data for the control group could be considered a limiting factor. Furthermore, the current method does not indisputably allow determination if the change in molar angulation is as a result of dental relapse or normal growth changes.

CONCLUSIONS

In this sample, treatment with the pendulum appliance followed by a cervical headgear and fixed orthodontic appliances caused distal tipping of maxillary first molars (between 94.50 and 98.80), but in the long term, these axial inclination values tended to normalize to pretreatment values (between 98.80 and 94.70). Thus, the null hypothesis that mesiodistal axial maxillary molar inclination would not be affected by treatment with pendulum appliance followed by fixed orthodontic appliance in the long term was rejected.

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  • » This manuscript is part of a thesis submitted by the first author to Bauru School of Dentistry, Universidade de São Paulo (USP), in partial fulfillment of the requirements for the Master's degree in Orthodontics.
  • » The authors report no commercial, proprietary or financial interest in the products or companies described in this article.
  • » Patients displayed in this article previously approved the use of their facial / intraoral photographs or radiographs.

Publication Dates

  • Publication in this collection
    Jan-Feb 2016

History

  • Received
    28 May 2015
  • Accepted
    23 Aug 2015
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