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Frontiers in Medical Science Research, 2023, 5(9); doi: 10.25236/FMSR.2023.050913.

Influencing factors of the curative effect of maxillary molar distalization

Author(s)

Yuwei Han1, Lan Lan1, Yishan Liu1,2

Corresponding Author:
Yishan Liu
Affiliation(s)

1Department of Pediatric Prevention of Stomatology, The First Afiliated Hospital (Afiliated Stomatological Hospital) of Xinjiang Medical University, Urumqi, 830054, China

2Xinjiang Uygur Autonomous Region Institute of Stomatology, Urumqi, Xinjiang Uygur Autonomous Region, 830054, China

Abstract

In recent years, with the development and maturity of orthodontic technology, the indications of non-tooth extraction orthodontic methods are constantly expanding. On implementing all types of tooth movement, molar distalzation is the most efficient. However, clinical prone to molar distal tilt, loss of anchorage and other problems. This review reviews the basic patient characteristics, posterior maxillary molar space characteristics and the treatment design, to provide a reference for orthodontists' upper molar distal design to improve mobility efficiency.

Keywords

maxillary molar distalization; retromolar space; influencing factors; Clinical effect

Cite This Paper

Yuwei Han, Lan Lan, Yishan Liu. Influencing factors of the curative effect of maxillary molar distalization. Frontiers in Medical Science Research (2023) Vol. 5, Issue 9: 66-70. https://doi.org/10.25236/FMSR.2023.050913.

References

[1] Almuzian M. , Alharbi F. , White J. , McIntyre G. Distalizing maxillary molars - how do you do it? Orthodontic Update. 2016; 9 (2): 42-50. 

[2] Chen Lin, Wu Jiahua, Gu Weihuai, et al. Evaluation of distal maxillary molars with invisible appliance without bracket [J]. Journal of Practical Stomatology, 2017, 33 (2): 203-207.  

[3] Xu Jianguang, Shen Jun, Zhang Zheng, Liu Yajun, Wang Yuanyin. Cone-beam CT study of maxillary cortical thickness in patients with different vertical bone surface types [J]. Chinese Aesthetic Medicine, 2019, 28(04): 74-77. 

[4] Zhai Junhui, Wang Mingfeng, Wang Qian. A clinical study on the upper dentition of Class II high Angle patients with remote implantation nails [J]. Chinese Journal of Aesthetic Medicine, 2018, 27(11): 67-71. (In Chinese)

[5] Henrioues F P, Janson G, HenriouesJ F, et al Effects of cervical headgear appliance: a systematic review [J]. Dental Press Journal of Orthodontics, 2015, 20 (4): 76-81.  

[6] Guo Y. Comparative analysis of the effect of orthodontic traction on maxillary impacted fangs of different ages [J]. World Latest Medical Information Journal, 2018, 18(82): 44-46. 

[7] Kircali M, Yuksel A S. Evaluation of Dentoalveolar and Dentofacial Effects of a Mini- Screw- Anchored Pendulum Appliance in Maxillary Molar Distalization [J]. Turkish Journal of Orthodontics, 2018, 31(4): 103-109.

[8] Silva DBHD, Gonzaga AS. Importance of orthodontic intervention of the Class III malocclusion in mixed dentition. Dental Press J Orthod. 2020Sep-Oct; 25(5): 57-65. 

[9] Choi YT, Kim YJ, Yang KS, Lee DY. Bone availability for mandibular molar distalization in adults with mandibular prognathism. Angle Orthod. 2018Jan; 88(1): 52-57. 

[10] Lai Wenli. Clinical application strategy for pushing molar teeth backward by invisible correction technique without bracket [J]. International Journal of Stomatology, 2019, 46 (4): 373-382

[11] Chen L, Lin J X, Xu T M, et al. A longitudinal study on the changes of posterior arch space available in Chinese normal adolescents aged 13-18 years [J]. Journal of Orthodontics, 2007, 14(1): 25-28. 

[12] Iliadi A, Koletsi D, Eliades T. Forces and moments generated by aligner-type appliances for orthodontic tooth movement: a systematic review and meta-analysis [J]. Orthod Craniofac Res, 2019, 22(4): 248-258.

[13] Han Rui, Ma Lei, Mi Congbo, Wang Li, Wang Yongliang, Zhang Qian. Auto-CAD computer aided design software for fixed-point measurement of anterior wall of maxillary sinus and maxillary tubercle in children [J]. Chinese Journal of Tissue Engineering, 2016, 20(02): 202-207. 

[14] Qu Zhuli, Guo Jie. CBCT study on posterior space of second molar in adult patients with bimaxillary protrude [D]. Shandong: Clinical Stomatology of Shandong University, 2012. 

[15] Liu Liping, Yang Tongtong, Cheng Jiaxiu. Analysis of anatomical characteristics of posterior space of Class II maxillary molars [J]. Shanghai Journal of Stomatology, 2019, 30(04): 410-413. (In Chinese)

[16] Tian Jincong, Cang Song. Correlation between third molar space and posterior molar plane in adult patients with Class III malocclusion [J]. Journal of Guangdong Medicine, 2019, 43(03): 351-355. 

[17] Guo Xueqiang, Liu Xinqiang, Wang Zheng, Zhao Rui, Kong Lei. Three-dimensional study on the relationship between the posterior space of mandibular molar and the third molar in adults [J]. Chinese Journal of Orthodontics, 2019, 28(02): 74-79. 

[18] Marchiori DF, Packota GV, Boughner JC. Initial third molar development is delayed in jaws with short distal space: An early impaction sign? Arch Oral Biol. 2019 Oct; 106: 104475. 

[19] Aron AC, Guilherme J, Ernesto AL, Vinicius L, Daniela G. Effect of posterior space discrepancy angulation on anterior overbite. Am J Orthod Dentofacial Orthop. 2018. 154(4). 

[20] Kang JM, Park J H, Bayome M, et al. A three- dimensional finite element analysis of molar distalization with a palatal plate, pendulum, and headgear according to molar eruption stage [J]. Korean Journal of Orthodontics, 2016, 46(5): 290300.