ABSTRACT
Introduction:
Anterior open bite is one of the most difficult malocclusions to correct in orthodontic treatment. Molar intrusion using miniscrew anchorage has been developed as a new strategy for open bite correction; however, this procedure still has an important concern about prolonged treatment duration in the patient with anteroposterior discrepancy due to the separate step-by-step movement of anterior and posterior teeth.
Objective:
This article illustrates a comprehensive orthodontic approach for dentoalveolar open bite correction of an adult patient, by using miniscrew.
Case report:
A woman 19 years and 5 months of age had chief complaints of difficulty chewing with the anterior teeth and maxillary incisor protrusion. An open bite of -2.0 mm caused by slight elongation of the maxillary molars was found. The patient was diagnosed with Angle Class II malocclusion with anterior open bite due to the vertical elongation of maxillary molars. After extraction of the maxillary first premolars, concurrent movements of molar intrusion and canine retraction were initiated with the combined use of sectional archwires, elastic chains and miniscrews.
Results:
At 4 months after the procedure, positive overbite was achieved subsequent to the intrusion of maxillary molars by 1.5 mm and without undesirable side effects. Class I canine relation was also achieved at the same time. The total active treatment period was 21 months. The resultant occlusion and satisfactory facial profile were maintained after 54 months of retention.
Conclusion:
The presented treatment shows the potential to shorten the treatment duration and to contribute to the long-term stability for open bite correction.
Keywords:
Open bite; Orthodontic anchorage procedures; Angle Class II; Tooth movement technique
RESUMO
Introdução:
A mordida aberta anterior é um dos tipos de má oclusão mais difíceis de se corrigir no tratamento ortodôntico. A intrusão de molares usando ancoragem em mini-implantes foi desenvolvida como uma nova estratégia para a correção da mordida aberta. Entretanto, ainda há preocupações quanto à longa duração desse tratamento em pacientes com discrepâncias anteroposteriores, já que os dentes anteriores são movimentados em etapa distinta dos posteriores.
Objetivo:
Este artigo descreve uma abordagem ampla para a correção da mordida aberta dentoalveolar em uma paciente adulta, usando mini-implantes.
Relato de caso:
Uma paciente de 19 anos e 5 meses de idade procurou tratamento apresentando como queixas principais a dificuldade de mastigar com os dentes anteriores e a protrusão dos incisivos superiores. Verificou-se, ainda, mordida aberta de -2,0 mm, causada por um comprimento levemente maior dos molares superiores. A paciente foi diagnosticada com má oclusão de Classe II de Angle com mordida aberta anterior devido à dimensão vertical aumentada dos molares superiores. Após a extração dos primeiros pré-molares superiores, iniciou-se movimentos simultâneos de intrusão dos molares e retração dos caninos, com o uso combinado de arcos seccionados, elásticos em cadeia e mini-implantes.
Resultados:
Após quatro meses em tratamento, alcançou-se uma sobremordida positiva, devido à intrusão de 1,5 mm dos molares superiores, sem qualquer efeito colateral indesejável. Ao mesmo tempo, também alcançou-se relação de Classe I nos caninos. O tempo total de tratamento ativo foi de 21 meses. A oclusão e o perfil facial satisfatório alcançados ao fim do tratamento mantiveram-se após 54 meses em contenção.
Conclusão:
A abordagem aqui apresentada tem o potencial de encurtar a duração do tratamento e contribuir para a estabilidade em longo prazo da correção da mordida aberta.
Palavras-chave:
Mordida aberta; Procedimentos de ancoragem ortodôntica; Classe II de Angle; Técnica de movimentação dentária
INTRODUCTION
Successful correction of anterior open bite is considered one of the most difficult task in orthodontics, and ensuring the long-term stability of the treatment outcome is an important factor to be considered when choosing the method of treatment for patients with anterior open bite.11 Greenlee GM, Huang GJ, Chen SS, Chen J, Koepsell T, Hujoel P. Stability of treatment for anterior open-bite malocclusion: a meta-analysis. Am J Orthod Dentofacial Orthop. 2011 Feb;139(2):154-69.,22 Solano-Hernández B, Antonarakis GS, Scolozzi P, Kiliaridis S. Combined orthodontic and orthognathic surgical treatment for the correction of skeletal anterior open-bite malocclusion: a systematic review on vertical stability. J Oral Maxillofac Surg. 2013 Jan;71(1):98-109. Combined surgical-orthodontic treatment is mainly proposed as the common treatment approach for adult patients with severe skeletal maxillomandibular discrepancy.33 Swinnen K, Politis C, Willems G, De Bruyne I, Fieuws S, Heidbuchel K, et al. Skeletal and dento-alveolar stability after surgical-orthodontic treatment of anterior open bite: a retrospective study. Eur J Orthod. 2001 Oct;23(5):547-57.,44 Frost DE, Fonseca RJ, Turvey TA, Hall DJ. Cephalometric diagnosis and surgical-orthodontic correction of apertognathia. Am J Orthod. 1980 Dec;78(6):657-69. Conventional orthodontic treatment methods, such as multiloop edgewise archwire (MEAW)55 Kim YH. Anterior openbite and its treatment with Multiloop Edgewise Archwire. Angle Orthod.1987 Oct;57(4):290-321. and nickel-titanium wire with intermaxillary elastics,66 Enacar A UT, Toroglu S. A method for correction of openbite. J Clin Orthod. 1996 Jan;30(1):43-8. have also been used for patients who are reluctant to undergo surgery for open bite correction. Although the patients treated with these modalities achieved adequate overbite, the changes were mainly caused by the extrusion of the anterior teeth, since molar intrusion is relative to incisors extrusion due to the intermaxillary elastics.77 Kim YH, Han UK, Lim DD, Serraon ML. Stability of anterior openbite correction with multiloop edgewise archwire therapy: A cephalometric follow-up study. Am J Orthod Dentofacial Orthop. 2000 July; 118(1):43-54. Such compensatory eruption of incisors is often undesirable for patients who also have maxillary vertical excess, a long face, or excessive gingival display.
In recent years, several studies have demonstrated effective molar intrusion in the treatment of anterior open bite patients using temporary anchorage devices (TADs).88 Umemori M, Sugawara J, Mitani H, Nagasaka H, Kawamura H. Skeletal anchorage system for open-bite correction. Am J Orthod Dentofacial Orthop. 1999 Feb;115(2):166-74.
9 Sherwood KH, Burch JG, Thompson WJ. Closing anterior open bites by intruding molars with titanium miniplate anchorage. Am J Orthod Dentofacial Orthop. 2002 Dec;122(6):593-600.-1010 Kuroda S, Sakai Y, Tamamura N, Deguchi T, Takano-Yamamoto T. Treatment of severe anterior open bite with skeletal anchorage in adults: comparison with orthognathic surgery outcomes. Am J Orthod Dentofacial Orthop. 2007 Nov;132(5):599-605. This new treatment strategy resulted in counterclockwise rotation of the mandible, a reduction in the anterior vertical facial height, advancement of the chin, and improvement of the retrognathic appearance of the facial profile without surgical intervention or incisal elongation. However, the overall treatment duration would be prolonged in cases of anterior open bite with anteroposterior discrepancy, as the anterior teeth would be moved after intrusion of the molars using other methods.
In this article, an approach of treatment of an adult patient with dentoalveolar open bite using miniscrews is presented. An efficient method of simultaneous molar intrusion and canine retraction is reported to shorten the treatment duration for correcting open bite with minimal side effects. In addition, information about the long-term stability throughout 4.5 years of retention is provided.
DIAGNOSIS AND ETIOLOGY
A woman 19 years and 5 months of age came to the outpatient clinic of Okayama University Hospital. Her chief complaints were difficulty chewing with the anterior teeth and maxillary incisor protrusion. She had a convex profile and suffered from circumoral musculature strain to achieve lip seal (Fig 1). A decreased overbite of -2.0 mm with Angle Class II molar relationships on both sides was observed. In addition, she had two distinct occlusal planes within the maxilla. Anterior shift of the mandible could be found due to occlusal interference positively associated with the crossbite on the left first premolars. Mild crowding was also observed in the maxillary incisors. The maxillary dental midline was shifted 0.5 mm toward the left of the facial midline. The mandibular dental midline almost coincided with the facial midline (Fig 1). A dental panoramic radiograph revealed asymmetry of both condyles and mandibular ramus without pathological problems in the root structure or the periodontal condition (Fig 2). The patient reported clicking sounds in the temporomandibular joint on the left side. The interincisal distance on maximum opening without pain was 43 mm. Her gingival display on smiling was acceptable.
Compared with Japanese norms,1111 Wada K, Matsushima K, Shimazaki S, Miwa Y, Hasuike Y, Sunami R. An evaluation of a new case analysis of a lateral cephalometric roentgenogram. J Kanazawa Med Univ. 1981;6:60-70. a cephalometric analysis showed a skeletal Class I jaw relationship (ANB = 4.0°) with a low mandibular plane angle (Mp-FH, 24.0°), a small gonial angle (111.0°), and a normal anterior facial height (N-Me = 126.0 mm). The maxillary incisors were slightly inclined labially (U1-FH = 117.0°), and the mandibular incisors were significantly inclined labially (L1-Mp = 110.0°). The maxillary molars were slightly extruded (U6/PP = 27.0 mm) (Table 1).
TREATMENT OBJECTIVES
The patient was diagnosed with skeletal Class I jaw-base relationship, an Angle Class II malocclusion with a low mandibular plane angle, and an anterior dentoalveolar open bite. The treatment objectives were to correct the anterior open bite and establish ideal overjet and overbite, to achieve an acceptable occlusion with a good functional Class I occlusion, and to improve her facial profile. In this case, the maxillary first premolars and mandibular second premolars were extracted to achieve the treatment objectives. The use of miniscrews to achieve intrusion of the elongated maxillary molars to correct the dentoalveolar open bite was planned.
TREATMENT ALTERNATIVES
The first treatment option involved comprehensive orthodontic-surgical treatment. The patient considered this approach too aggressive and invasive. In addition, she wished to avoid orthognathic surgery.
Another proposed treatment option involved a conventional orthodontic treatment, such as the MEAW technique, without skeletal anchorage. This option would have led to slight extrusion of both the incisors, as described above; nonetheless, the vertical relationship of the patient’s incisors and upper lip was considered acceptable before orthodontic treatment.
Miniscrews have a lower surgical burden and cause less discomfort to the patient than traditional procedures. This patient had two distinct occlusal planes, and the extruded maxillary molars were suggested as a main cause of the dentoalveolar open bite. Therefore, intrusion of the extruded maxillary molars was considered to be the a more appropriate treatment choice. This would have led to the autorotation of the mandible in the counterclockwise direction, thereby increasing the overbite and improving the convex profile. After discussing each treatment options, the patient selected the miniscrew-assisted treatment.
TREATMENT PROGRESS
Following the extraction of the maxillary first premolars, two titanium miniscrews (1.6 mm diameter; 6 mm length; Absoanchor®; Dentos Ltd., Daegu, South Korea) were implanted at the distal alveolus of the maxillary first molars (Fig 3). A transpalatal arch appliance was also placed between the maxillary first molars to compensate for the crown buccal torque that would be caused by the intrusion force. A 0.018-in preadjusted Edgewise appliance was placed on the maxillary molars. After leveling and alignment with nickel-titanium archwires for two months, 0.016×0.022-in stainless-steel archwires were installed to initiate an orthodontic intrusive load of 100g on the maxillary molars (Fig 4A). Simultaneously, 0.018-in preadjusted Edgewise appliances were also placed into the maxillary canines. A 0.016-in stainless-steel archwire was installed and ligated to the miniscrews to induce space closure of the maxillary arch using sliding mechanics (Fig 4B, C). This method for achieving simultaneous molar intrusion and canine retraction enabled the achievement of both a positive overbite and a maxillary canine retraction during four months of treatment without undesirable side effects (Fig 4D). The maxillary occlusal plane was also flattened.
A) Schematic illustration of simultaneous molar intrusion and canine retraction procedure. (B) Miniscrew implanted at the distal alveolus of the maxillary first molars.
The treatment progress during simultaneous molar intrusion and canine retraction. (A) At the start of simultaneous molar intrusion and canine retraction. (B) Two months after the start of simultaneous molar intrusion and canine retraction. (C) Four months after the start of simultaneous molar intrusion and canine retraction. (D) Representative intraoral photographs showing gradual changes in the incisor relationships.
Extraction of the mandibular second premolars resulted in a more retruded position of the mandible. This shift was probably due to the removal of occlusal interference. Class II intermaxillary elastics were used for three months to assist the mesial movement of the mandibular molars.
After removing the appliances and the miniscrews, the maxillary and mandibular teeth were stabilized using a 6-unit lingual bonded retainer and a wraparound-type retainer. The total active treatment period was 21 months.
RESULTS
The posttreatment facial photographs showed a balanced and harmonious facial profile due to the upper and lower lips retraction, reducing the strain of the mentalis muscle on lip closure. The dental midlines were coincident with the facial midline (Fig 5). A Class I molar relationship and an acceptable interincisal relationship were established on both sides. The posttreatment intraoral photographs also showed well-aligned arches, a flattened occlusal plane, and the good interdigitation of the teeth (Fig 5). Acceptable root parallelism was observed on the panoramic radiograph. Slight apical root resorption was observed, especially in the maxillary incisors (Fig 6). A posttreatment cephalometric evaluation and the superimposed cephalometric tracing showed no marked skeletal changes. The maxillary first molars were intruded 1.5 mm toward the palatal plane, whereas both the maxillary and the mandibular incisors were extruded by 0.5 mm (Fig 7). In an evaluation of the jaw movement with a jaw movement recording system with six degrees of freedom (Gnathohexagraph system, v. 1.31; Ono Sokki, Kanagawa, Japan),1212 Ishihara Y, Kuroda S, Sumiyoshi K, Takano-Yamamoto T, Yamashiro T. Extraction of the lateral incisors to treat maxillary protrusion: quantitative evaluation of the stomatognathic functions. Angle Orthod. 2013 Mar;83(2):341-54. a smooth and stable incisal path was found during protrusive or lateral excursion. Furthermore, an increase in the condylar movement was also observed on the left side during maximum opening mandibular movement (Fig 8). The interincisal distance on maximum opening without pain increased to 50 mm. After a 2-year retention period, the patient’s occlusion was stable, and the favorable facial profile achieved by the orthodontic treatment was also maintained (Fig 9). Post-retention intraoral photographs also showed that the molar and canine relationships, respectively, had been maintained whereas slight reopening of the extraction space between right second premolar and first molar (Fig 9). A cephalometric analysis over the 2-years post-retention period showed a slight forward movement of the maxillary dental arch (Fig 10). In addition, the mandibular incisors were labially inclined by 2° (Fig 11, Table 1). There was no significant difference between the retention at 2 years and that at 4.5 years (Fig 12, Table 1). The acceptable occlusion and ideal overbite and overjet were well maintained, and the patient was satisfied with the treatment results.
Superimposed cephalometric tracings showing changes from pretreatment to posttreatment: A) Sella-nasion plane at sella, B) Palatal plane at ANS, C) Mandibular plane at menton.
Condylar movement and incisal paths recorded with the six degrees of freedom jaw movement recording system. The red lines indicate the opening phase, and the blue lines indicate the closing phase: A) Pretreatment, B) Posttreatment.
Superimposed cephalometric tracings showing changes from posttreatment to 4.5 years of retention: A) Sella-nasion plane at sella, B) Palatal plane at ANS, (C) Mandibular plane at menton.
DISCUSSION
The orthodontic correction of the anterior open bite can be achieved by several mechanisms that will result in the intrusion of posterior teeth, the extrusion of anterior teeth, or a combination of both. When the treatment of the dentoalveolar open bite is considered, leveling a maxillary arch by inserting a continuous archwire promotes extrusion of the incisors that is sometimes undesirable in adult patients. This can be explained by the leveling of a maxillary arch with two distinct occlusal planes, which is a common characteristic of a dentoalveolar open bite.1313 Nagan P, Fields HW. Openbite: a review of etiology and management. Pediatr Dent. 1997 Mar-Apr;19(2):91-8. The principle of segmental molar intrusion involves minimizing any adverse side effect before leveling and retracting the anterior teeth. However, these separate step-by-step movements of the anterior and posterior teeth can prolong the overall treatment duration.
In the present report, we demonstrated a concurrent approach for managing molar intrusion and canine retraction with miniscrew-aided mechanics. The method, which involved a combination of three segmented archwires, miniscrews, and a transpalatal arch, enabled us to control the anterior and posterior segments independently. This approach is clinically relevant because the vertical and anteroposterior problems can be addressed simultaneously, resulting in a shorter treatment duration. Our simple design proposed in this study is easy to fabricate, requires no patient cooperation, is less likely to cause soft tissue impingement, and allows clinicians to deliver well-controlled orthodontic force with minimum chair-side adjustment. In addition, a shorter treatment duration may also desirable from the perspective of exposure to possible undesirable side effects of orthodontic treatment, especially the shortening of tooth roots.
The occurrence of apical root resorption is an undesirable but frequent side effect for patients who undergo orthodontic treatment.14Killiany DM. Root resorption caused by orthodontic treatment: an evidence-based review of literature. Semin Orthod. 1999 June;5(2):128-33. Lund et al.1515 Lund H, Gröndahl K, Hansen K, Gröndahl HG. Apical root resorption during orthodontic treatment. A prospective study using cone beam CT. Angle Orthod. 2012 May;82(3):480-7. reported that practically all patients and up to 91% of all teeth showed some degree of root shortening. Some of the risk factors of root resorption are very controversial, but previous reports have concluded that open bite1616 Motokawa M, Terao A, Kaku M, Kawata T, Gonzales C, Darendeliler MA, et al. Open bite as a risk factor for orthodontic root resorption. Eur J Orthod. 2013 Dec;35(6):790-5.,1717 Elhaddaoui R, Benyahia H, Azeroual MF, Zaoui F, Razine R, Bahije L. Resorption of maxillary incisors after orthodontic treatment--clinical study of risk factors. Int Orthod. 2016 Mar;14(1):48-64. and a prolonged treatment duration1818 Apajalahti S, Peltola JS. Apical root resorption after orthodontic treatment -- a retrospective study. Eur J Orthod. 2007 Aug;29(4):408-12.,1919 Segal GR, Schiffman PH, Tuncay OC. Meta analysis of the treatment-related factors of external apical root resorption. Orthod Craniofac Res. 2004 May;7(2):71-8. are high-risk factors for apical root resorption. In the present case, no force was applied to move the maxillary incisors in the early stage of the treatment, so there were no potentially detrimental effects on the teeth, such as round-trip movement. Consequently, we think that our system might help reduce the risk of severe root resorption in the upper incisors due to the small amount of time for which Edgewise appliances were mounted in this patient.
Pretreatment records revealed asymmetric mandibular morphology and condylar movement (Fig 8). Although determining the cause of an anterior open bite is complicated, this asymmetry may be related to the functional impairment-induced resorption of the condyles and consequent shortening of the mandibular rami, leading to the development of a Class II anterior open bite.
We used Class II intermaxillary elastics to move the mandibular molars mesially in the later stage of the treatment. Although the patient’s mandible did not rotate toward the clockwise direction, this procedure led to the slight extrusion of the mandibular molars. Several reports have described no mandibular advancement or correction of the convex profile by molar intrusion in a single jaw due to the adverse extrusion of molars in the opposite jaw.20,21 In the present patient, it was not necessary to reduce the facial height because she already had an aesthetically balanced facial height at pretreatment.
Many orthodontists remain concerned about the long-term stability of molar intrusion using TADs. A high prevalence of relapse of molars has been reported within the first2222 Sugawara J, Baik UB, Umemori M, Takahashi I, Nagasaka H, Kawamura H, et al. Treatment and posttreatment dentoalveolar changes following intrusion of mandibular molars with application of a skeletal anchorage system (SAS) for open bite correction. Int J Adult Orthod Orthognath Surg. 2002;17(4):243-53.,2323 Baek MS, Choi YJ, Yu HS, Lee KJ, Kwak J, Park YC. Long-term stability of anterior open-bite treatment by intrusion of maxillary posterior teeth. Am J Orthod Dentofacial Orthop. 2010 Oct;138(4):396.e1-9. or second years of retention.2020 Deguchi T, Kurosaka H, Oikawa H, Kuroda S, Takahashi I, Yamashiro T, et al. Comparison of orthodontic treatment outcomes in adults with skeletal open bite between conventional edgewise treatment and implant-anchored orthodontics. Am J Orthod Dentofacial Orthop. 2011 Apr;139(4 Suppl):S60-8. Several studies have also examined various risk factors influencing the relapse of open bite correction, such as a long divergent skeletal pattern2424 Beckmann SH, Segner D. Changes in alveolar morphology during open bite treatment and prediction of treatment result. Eur J Orthod. 2002 Aug;24(4):391-406. and non-extraction treatment.2525 Janson G, Valarelli FP, Beltrão RT, de Freitas MR, Henriques JF. Stability of anterior open-bite extraction and nonextraction treatment in the permanent dentition. Am J Orthod Dentofacial Orthop. 2006 June;129(6):768-74. Our patient showed acceptable retention up to 4.5 years post-retention, with a low mandibular plane angle and the extraction of four premolars. We believe that our treatment choices contributed to the good stability of the occlusion. Although limited information is available and further studies will be needed to determine the prognosis, these findings provide information to help achieve further favorable stability in this patient.
CONCLUSION
This report described comprehensive biomechanics for achieving simultaneous molar intrusion and canine retraction in the treatment of anterior open bite using miniscrew anchorage. This treatment method enabled the independent control of both the anteroposterior and vertical dimensions with optimum force and minimum side effects. The resultant occlusion and facial profile were stable after 4.5 years. These results suggest that our system is an effective approach in the treatment of dentoalveolar open bite patients with anteroposterior discrepancy for attaining functionally stable occlusion with a short treatment duration.
REFERENCES
-
1Greenlee GM, Huang GJ, Chen SS, Chen J, Koepsell T, Hujoel P. Stability of treatment for anterior open-bite malocclusion: a meta-analysis. Am J Orthod Dentofacial Orthop. 2011 Feb;139(2):154-69.
-
2Solano-Hernández B, Antonarakis GS, Scolozzi P, Kiliaridis S. Combined orthodontic and orthognathic surgical treatment for the correction of skeletal anterior open-bite malocclusion: a systematic review on vertical stability. J Oral Maxillofac Surg. 2013 Jan;71(1):98-109.
-
3Swinnen K, Politis C, Willems G, De Bruyne I, Fieuws S, Heidbuchel K, et al. Skeletal and dento-alveolar stability after surgical-orthodontic treatment of anterior open bite: a retrospective study. Eur J Orthod. 2001 Oct;23(5):547-57.
-
4Frost DE, Fonseca RJ, Turvey TA, Hall DJ. Cephalometric diagnosis and surgical-orthodontic correction of apertognathia. Am J Orthod. 1980 Dec;78(6):657-69.
-
5Kim YH. Anterior openbite and its treatment with Multiloop Edgewise Archwire. Angle Orthod.1987 Oct;57(4):290-321.
-
6Enacar A UT, Toroglu S. A method for correction of openbite. J Clin Orthod. 1996 Jan;30(1):43-8.
-
7Kim YH, Han UK, Lim DD, Serraon ML. Stability of anterior openbite correction with multiloop edgewise archwire therapy: A cephalometric follow-up study. Am J Orthod Dentofacial Orthop. 2000 July; 118(1):43-54.
-
8Umemori M, Sugawara J, Mitani H, Nagasaka H, Kawamura H. Skeletal anchorage system for open-bite correction. Am J Orthod Dentofacial Orthop. 1999 Feb;115(2):166-74.
-
9Sherwood KH, Burch JG, Thompson WJ. Closing anterior open bites by intruding molars with titanium miniplate anchorage. Am J Orthod Dentofacial Orthop. 2002 Dec;122(6):593-600.
-
10Kuroda S, Sakai Y, Tamamura N, Deguchi T, Takano-Yamamoto T. Treatment of severe anterior open bite with skeletal anchorage in adults: comparison with orthognathic surgery outcomes. Am J Orthod Dentofacial Orthop. 2007 Nov;132(5):599-605.
-
11Wada K, Matsushima K, Shimazaki S, Miwa Y, Hasuike Y, Sunami R. An evaluation of a new case analysis of a lateral cephalometric roentgenogram. J Kanazawa Med Univ. 1981;6:60-70.
-
12Ishihara Y, Kuroda S, Sumiyoshi K, Takano-Yamamoto T, Yamashiro T. Extraction of the lateral incisors to treat maxillary protrusion: quantitative evaluation of the stomatognathic functions. Angle Orthod. 2013 Mar;83(2):341-54.
-
13Nagan P, Fields HW. Openbite: a review of etiology and management. Pediatr Dent. 1997 Mar-Apr;19(2):91-8.
- Killiany DM. Root resorption caused by orthodontic treatment: an evidence-based review of literature. Semin Orthod. 1999 June;5(2):128-33.
-
15Lund H, Gröndahl K, Hansen K, Gröndahl HG. Apical root resorption during orthodontic treatment. A prospective study using cone beam CT. Angle Orthod. 2012 May;82(3):480-7.
-
16Motokawa M, Terao A, Kaku M, Kawata T, Gonzales C, Darendeliler MA, et al. Open bite as a risk factor for orthodontic root resorption. Eur J Orthod. 2013 Dec;35(6):790-5.
-
17Elhaddaoui R, Benyahia H, Azeroual MF, Zaoui F, Razine R, Bahije L. Resorption of maxillary incisors after orthodontic treatment--clinical study of risk factors. Int Orthod. 2016 Mar;14(1):48-64.
-
18Apajalahti S, Peltola JS. Apical root resorption after orthodontic treatment -- a retrospective study. Eur J Orthod. 2007 Aug;29(4):408-12.
-
19Segal GR, Schiffman PH, Tuncay OC. Meta analysis of the treatment-related factors of external apical root resorption. Orthod Craniofac Res. 2004 May;7(2):71-8.
-
20Deguchi T, Kurosaka H, Oikawa H, Kuroda S, Takahashi I, Yamashiro T, et al. Comparison of orthodontic treatment outcomes in adults with skeletal open bite between conventional edgewise treatment and implant-anchored orthodontics. Am J Orthod Dentofacial Orthop. 2011 Apr;139(4 Suppl):S60-8.
-
21Scheffler NR, Proffit WR, Phillips C. Outcomes and stability in patients with anterior open bite and long anterior face height treated with temporary anchorage devices and a maxillary intrusion splint. Am J Orthod Dentofacial Orthop. 2014 Nov;146(5):594-602.
-
22Sugawara J, Baik UB, Umemori M, Takahashi I, Nagasaka H, Kawamura H, et al. Treatment and posttreatment dentoalveolar changes following intrusion of mandibular molars with application of a skeletal anchorage system (SAS) for open bite correction. Int J Adult Orthod Orthognath Surg. 2002;17(4):243-53.
-
23Baek MS, Choi YJ, Yu HS, Lee KJ, Kwak J, Park YC. Long-term stability of anterior open-bite treatment by intrusion of maxillary posterior teeth. Am J Orthod Dentofacial Orthop. 2010 Oct;138(4):396.e1-9.
-
24Beckmann SH, Segner D. Changes in alveolar morphology during open bite treatment and prediction of treatment result. Eur J Orthod. 2002 Aug;24(4):391-406.
-
25Janson G, Valarelli FP, Beltrão RT, de Freitas MR, Henriques JF. Stability of anterior open-bite extraction and nonextraction treatment in the permanent dentition. Am J Orthod Dentofacial Orthop. 2006 June;129(6):768-74.
Publication Dates
-
Publication in this collection
19 Aug 2020 -
Date of issue
May-Jun 2020
History
-
Received
22 Sept 2018 -
Accepted
09 Mar 2019