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Duarte MEA, Gribel BF, Spitz A, Artese F, Miguel JAM. Reproducibility of digital indirect bonding technique using three-dimensional (3D) models and 3D-printed transfer trays. Angle Orthod 2020;90:92-9.DuarteMEAGribelBFSpitzAArteseFMiguelJAM. Reproducibility of digital indirect bonding technique using three-dimensional (3D) models and 3D-printed transfer trays.2020;90:92-9.10.2319/030919-176.1808706831411488Search in Google Scholar
Kihara T, Tanimoto K, Michida M, Yoshimi Y, Nagasaki T, Murayama T et al. Construction of orthodontic setup models on a computer. Am J Orthod Dentofacial Orthop 2012;141:806-13.KiharaTTanimotoKMichidaMYoshimiYNagasakiTMurayamaT. Construction of orthodontic setup models on a computer.2012;141:806-13.10.1016/j.ajodo.2011.10.02722640682Search in Google Scholar
Plooij JM, Maal TJ, Haers P, Borstlap WA, Kuijpers-Jagtman AM, Bergé SJ. Digital three-dimensional image fusion processes for planning and evaluating orthodontics and orthognathic surgery. A systematic review. Int J Oral Maxillofac Surg 2011;40: 341-52.PlooijJMMaalTJHaersPBorstlapWAKuijpers-JagtmanAMBergéSJ. Digital three-dimensional image fusion processes for planning and evaluating orthodontics and orthognathic surgery. A systematic review.2011;40: 341-52.10.1016/j.ijom.2010.10.01321095103Search in Google Scholar
Xue C, Xu H, Guo Y, Xu L, Dhami Y, Wang H et al. Accurate bracket placement using a computer-aided design and computer-aided manufacturing-guided bonding device: an in vivo study. Am J Orthod Dentofacial Orthop 2020;157:269-77.XueCXuHGuoYXuLDhamiYWangH. Accurate bracket placement using a computer-aided design and computer-aided manufacturing-guided bonding device: an in vivo study.2020;157:269-77.10.1016/j.ajodo.2019.03.02232005479Search in Google Scholar
Lim S-W, Park H, Lim S-Y, Choo H-H, Baek S-H, Hwang H-S et al. Can we estimate root axis using a 3-dimensional tooth model via lingual-surface intraoral scanning? Am J Orthod Dentofacial Orthop 2020;158:e99-e109LimS-WParkHLimS-YChooH-HBaekS-HHwangH-S. Can we estimate root axis using a 3-dimensional tooth model via lingual-surface intraoral scanning?2020;158:e99-e10910.1016/j.ajodo.2020.07.03233131571Search in Google Scholar
Gaddam R, Freer E, Kerr B, Weir T. Reliability of Labiolingual Incisor Inclination Changes with the Invisalign® Appliance – A Retrospective Study. Thesis submitted in partial fulfilment of DClinDent, University of Queensland, 2020.GaddamRFreerEKerrBWeirT. . Thesis submitted in partial fulfilment of DClinDent, University of Queensland, 2020.Search in Google Scholar
Maree A, Kerr B, Weir T, Freer E. Clinical expression of programmed rotation and uprighting of bilateral winged maxillary central incisors with the Invisalign® appliance – A retrospective study. Accepted for publication, Am J Orthod Dentofacial Orthop, November 2021.MareeAKerrBWeirTFreerE. Clinical expression of programmed rotation and uprighting of bilateral winged maxillary central incisors with the Invisalign® appliance – A retrospective study. Accepted for publication, , November2021.10.1016/j.ajodo.2020.06.04934563426Search in Google Scholar
Lascala CA, Panella J, Marques MM. Analysis of the accuracy of linear measurements obtained by cone beam computed tomography (CBCT-NewTom). Dentomaxillofac Radiol 2004;33:291-4.LascalaCAPanellaJMarquesMM. Analysis of the accuracy of linear measurements obtained by cone beam computed tomography (CBCT-NewTom).2004;33:291-4.10.1259/dmfr/2550085015585804Search in Google Scholar
Mah JK, Huang JC, Choo H. Practical applications of cone-beam computed tomography in orthodontics. J Am Dent Assoc 2010;141(Suppl 3):7S-13S.MahJKHuangJCChooH. Practical applications of cone-beam computed tomography in orthodontics.2010;141(Suppl 3):7S-13S.10.14219/jada.archive.2010.036120884934Search in Google Scholar
Zhou N, Guo J. Efficiency of upper arch expansion with the Invisalign system. Angle Orthod 2020;90:23-30.ZhouNGuoJ. Efficiency of upper arch expansion with the Invisalign system.2020;90:23-30.10.2319/022719-151.1808706231368778Search in Google Scholar
Grünheid T, Gaalaas S, Hamdan H, Larson BE. Effect of clear aligner therapy on the buccolingual inclination of mandibular canines and the intercanine distance. Angle Orthod 2016;86:10-6.GrünheidTGaalaasSHamdanHLarsonBE. Effect of clear aligner therapy on the buccolingual inclination of mandibular canines and the intercanine distance.2016;86:10-6.10.2319/012615-59.1860395126000701Search in Google Scholar
Lee RJ, Pham J, Choy M, Weissheimer A, Dougherty HL Jr, Sameshima GT et al. Monitoring of typodont root movement via crown superimposition of single cone-beam computed tomography and consecutive intraoral scans. Am J Orthod Dentofacial Orthop 2014;145:399-409.LeeRJPhamJChoyMWeissheimerADoughertyHLJrSameshimaGT. Monitoring of typodont root movement via crown superimposition of single cone-beam computed tomography and consecutive intraoral scans.2014;145:399-409.10.1016/j.ajodo.2013.12.01124582031Search in Google Scholar
Lee RJ, Weissheimer A, Pham J, Go L, de Menezes LM, Redmond WR et al. Three-dimensional monitoring of root movement during orthodontic treatment. Am J Orthod Dentofacial Orthop 2015;147:132-42.LeeRJWeissheimerAPhamJGoLde MenezesLMRedmondWR. Three-dimensional monitoring of root movement during orthodontic treatment.2015;147:132-42.10.1016/j.ajodo.2014.10.01025533080Search in Google Scholar
Lee RJ, Pi S, Park J, Nelson G, Hatcher D, Oberoi S. Three-dimensional evaluation of root position at the reset appointment without radiographs: a proof-of-concept study. Prog Orthod 2018;19:15.LeeRJPiSParkJNelsonGHatcherDOberoiS. Three-dimensional evaluation of root position at the reset appointment without radiographs: a proof-of-concept study.2018;19:15.10.1186/s40510-018-0214-4598524229862456Search in Google Scholar
Lee RJ, Pi S, Park J, Devgon D, Nelson G, Hatcher D et al. Accuracy and reliability of the expected root position setup methodology to evaluate root position during orthodontic treatment. Am J Orthod Dentofacial Orthop 2018;154:583-95.LeeRJPiSParkJDevgonDNelsonGHatcherD. Accuracy and reliability of the expected root position setup methodology to evaluate root position during orthodontic treatment.2018;154:583-95.10.1016/j.ajodo.2018.05.01030268268Search in Google Scholar
Lee RJ, Ko J, Park J, Pi S, Devgon D, Nelson G et al. Accuracy and reliability of the expected root position setup on clinical decision making of root position at midtreatment. Am J Orthod Dentofacial Orthop 2019;156:566-73.LeeRJKoJParkJPiSDevgonDNelsonG. Accuracy and reliability of the expected root position setup on clinical decision making of root position at midtreatment.2019;156:566-73.10.1016/j.ajodo.2019.03.01831582128Search in Google Scholar
Staderini E, Guglielmi F, Cornelis MA, Cattaneo PM. Three-dimensional prediction of roots position through cone-beam computed tomography scans-digital model superimposition: a novel method. Orthod Craniofac Res 2019;22:16-23.StaderiniEGuglielmiFCornelisMACattaneoPM. Three-dimensional prediction of roots position through cone-beam computed tomography scans-digital model superimposition: a novel method.2019;22:16-23.10.1111/ocr.1225230449070Search in Google Scholar
Haouili N, Kravitz ND, Vaid NR, Ferguson DJ, Makkia L. Has Invisalign improved? A prospective follow-up study on the efficacy of tooth movement with Invisalign. Am J Orthod Dentofacial Orthop 2020;158:420-5.HaouiliNKravitzNDVaidNRFergusonDJMakkiaL. Has Invisalign improved? A prospective follow-up study on the efficacy of tooth movement with Invisalign.2020;158:420-5.10.1016/j.ajodo.2019.12.01532620479Search in Google Scholar
Grünheid T, Loh C, Larson BE. How accurate is Invisalign in nonextraction cases? Are predicted tooth positions achieved? Angle Orthod 2017;87:809-15.GrünheidTLohCLarsonBE. How accurate is Invisalign in nonextraction cases? Are predicted tooth positions achieved?2017;87:809-15.10.2319/022717-147.1831755528686090Search in Google Scholar
Blundell H, Weir T, Freer E, Kerr B. Predictability of overbite control with the Invisalign® appliance. Accepted for publication, Am J Orthod Dentofacial Orthop, October 2021.BlundellHWeirTFreerEKerrB. Predictability of overbite control with the Invisalign® appliance. Accepted for publication, , October2021.10.1016/j.ajodo.2020.06.04234373153Search in Google Scholar
Goh P, Weir T, Freer E, Kerr B. Accuracy of predicted versus achieved aligner treatment outcome of a complex case using digital heatmaps. Accepted for publication, Aust Ortho J, May 2021.GohPWeirTFreerEKerrB. Accuracy of predicted versus achieved aligner treatment outcome of a complex case using digital heatmaps. Accepted for publication, , May2021.10.21307/aoj-2021-012Search in Google Scholar