[1] Liu C, Zhu X, Zhang X. Three-dimensional finite element analysis of maxillary protraction with labiolingual arches and implants[J]. Am J Orthodont Dentofac Orthoped,2015, 148(3):466-478. [2] Ming Y, Hu Y, Li Y, et al. Effects of maxillary protraction appliances on airway dimensions in growing class Ⅲ maxillary retrognathic patients:A systematic review and meta-analysis[J]. Inter J Pediatr Otorhinolaryngol,2018,105:138-145. [3] Baccetti T, McGill J S, Franchi L, et al. Skeletal effects of early treatment of Class Ⅲ malocclusion with maxillary expansion and face-mask therapy[J]. Am J Orthodont Dentofac Orthoped,1998,113(3):333-343. [4] Franchi L, Baccetti T, McNamara JA. Postpubertal assessment of treatment timing for maxillary expansion and protraction therapy followed by fixed appliances[J].Am J Orthodont Dentofac Orthoped, 2004, 126(5):555-568. [5] Kim JH, Viana MA, Graber TM, et al. The effectiveness of protraction face mask therapy:a meta-analysis.[J].Am J Orthodont Dentofac Orthoped,1999,115(6):675-685. [6] Cha KS. Skeletal changes of maxillary protraction in patients exhibiting skeletal class Ⅲ malocclusion:a comparison of three skeletal maturation groups[J].Angle Orthod,2003,73(1):26-35. [7] Eid OM, Abdel-Fattah Ramadan A, Nadim MA, et al. Maxillary protraction using orthodontic miniplates in correction of Class Ⅲ malocclusion during growth[J].J World Federat Orthodont,2016, 5(3):100-106. [8] Küçükkeleş N, Yilmaz HN, Nevzatoglu S.New treatment modalities for class Ⅲ malocclusion[A].Ravindra N.Esthetics and biomechanics in orthodontics[M].2nd ed.Holland:Elsevier Inc, 2015:336-359. [9] González IGH, López EG. Maxillary protraction through skeletal anchorage in growing patients.Literature review[J].Revista Mexicana De Ortodonc, 2016, 4(3):e153-e156. [10] De Clerck HD, Cevidanes L, Baccetti T. Dentofacial effects of bone-anchored maxillary protraction:A controlled study of consecutively treated Class Ⅲ patients[J].Am J Orthodont Dentofac Orthoped,2010,138(5):577-581. [11] Maino G, Turci Y, Arreghini A, et al. Skeletal and dentoalveolar effects of hybrid rapid palatal expansion and facemask treatment in growing skeletal Class Ⅲ patients[J].Am J Orthodont Dentofac Orthoped,2018,153(2):262-268. [12] Major MP, Wong JK, Saltaji H, et al. Skeletal anchored maxillary protraction for midface deficiency in children and early adolescents with Class Ⅲ malocclusion:A systematic review and meta-analysis[J]. J World Federat of Orthodont, 2012, 1(2):e47-e54. [13] Lee NK, Baek SH. Stress and displacement between maxillary protraction with miniplates placed at the infrazygomatic crest and the lateral nasal wall:a 3-dimensional finite element analysis[J]. Am J Orthodont Dentofac Orthoped,2012, 141(3):345-351. [14] 周彦恒, 丁鹏, 林野,等. 钛板种植体上颌前方牵引治疗的初步应用研究[J].中华口腔正畸学杂志,2007,14(3):102-105. [15] Konno M, Iijima M, Nagasaka-Konno M, et al. Correction of a skeletal Class Ⅲ malocclusion during a pubertal growth spurt by bone-anchored maxillary protraction[J]. J World Federat Orthodont,2017,6(2):62-68. [16] Zúñiga LR, Núñez EG. Management of a class Ⅲ malocclusion with facemask therapy anchoraged with TADs and orthodontic treatment. Case report[J].Revista Mexicana de Ortodonc,2017,5:1761-83. [17] Ngan P, Moon W. Evolution of Class Ⅲ treatment in orthodontics[J]. Am J Orthodont Dentofac Orthoped,2015, 148(1):22-36. [18] Baccetti T, De Clerck HJ, Cevidanes LH, et al. Morphometric analysis of treatment effects of bone-anchored maxillary protraction in growing Class Ⅲ patients[J]. Eur J Orthodon t, 2011, 33(2):121-125. [19] Elnagar MH, Elshourbagy E, Ghobashy S, et al. Comparative evaluation of 2 skeletally anchored maxillary protraction protocols[J]. Am J Orthodont Dentofac Orthoped,2016, 150(5):751-762. [20] 罗晨, 秦晓中, 曾照斌,等. 不同部位植入微种植钉进行前方牵引时上颌骨旋转趋势[J].医用生物力学,2015,30(1):38-42. [21] Yilmaz C A, Kütük N, Kurt G, et al. Development of a new three-directional distractor system for the correction of maxillary transverse and sagittal deficiency[J].J Cranio-Maxillofac Surg,2018,46(3):424-431. [22] Elnagar MH, Elshourbagy E, Ghobashy S, et al. Dentoalveolar and arch dimension changes in patients treated with miniplate-anchored maxillary protraction[J].Am J Orthodont Dentofac Orthoped,2017:1092-1106. [23] Cordasco G, Matarese G, Rustico L, et al. Efficacy of orthopedic treatment with protraction facemask on skeletal Class Ⅲ malocclusion:a systematic review and meta-analysis[J]. Orthodont Craniofac Res,2014,17(3):133-143. [24] 张晓歌,陈扬熙.上颌前牵引矫治骨性Ⅲ类错(牙合) 畸形的研究进展[J].国际口腔医学杂志,2013,40(6):813-816. [25] 吴志芳,张亚梅,雷勇华,等. 骨缝结构对上颌前牵引及横向扩弓的生物力学影响[J].中华口腔正畸学杂志,2014,21(3):151-155. [26] 熊再道,柯杰,赵桂芝,等. 两种扩弓方式对骨性Ⅲ类错前方牵引效果的影响[J].中华口腔医学研究杂志:电子版,2017,11(3):169-173. [27] 姚宁,王林,顾永佳,等.两种扩弓方法结合前方牵引的临床效果比较性研究[J].口腔医学,2015,35(9):767-769. [28] Foersch M, Jacobs C, Wriedt S, et al. Effectiveness of maxillary protraction using facemask with or without maxillary expansion:a systematic review and meta-analysis[J]. Clin Oral Investigat, 2015, 19(6):1181-1192. [29] Wilmes B, Ngan P, Liou EJ, et al. Early class Ⅲ facemask treatment with the hybrid hyrax and Alt-RAMEC protocol[J].J Clin Orthodont Jco,2014,48(2):84-93. [30] Maino G,Paoletto E,Lombardo L,et al.MAPA:A new high-precision 3D method of palatal miniscrew placement[J].Eur J Clin Orthodont,2015,3:41-47. [31] Maino BG, Paoletto E, Siciliani G. A Three-dimensional digital insertion guide for palatal miniscrew placement[J].J Clin Orthodont Jco,2016,50(1):12-22. [32] Moon W. Class Ⅲ treatment by combining facemask (FM) and maxillary skeletal expander (MSE)[J].Semin Orthodont,2018.24:95-107. [33] Nelson EC, Jogaib FD, Souza ZD, et al. Extensiometric analysis of strain in craniofacial bones during implant-supported palatal expansion[J].J Mechan Behavior Biomed Materials,2017,76:104-109. [34] Park JH, Bayome M, Zahrowski JJ, et al. Displacement and stress distribution by different bone-borne palatal expanders with facemask:A 3-dimensional finite element analysis[J].Am J Orthodont Dentofac Orthoped, 2017, 151(1):105-117. |