This work is licensed under the Creative Commons Attribution 4.0 International License.
Melsen B, Melsen F. The postnatal development of the palatomaxillary region studied on human autopsy material. Am J Orthod 1982;82:329–342.MelsenBMelsenF. The postnatal development of the palatomaxillary region studied on human autopsy material. 1982;82:329–342.10.1016/0002-9416(82)90467-56961805Search in Google Scholar
Baccetti T, Franchi L, Cameron CG, McNamara JAJr. Treatment timing for rapid maxillary expansion. Angle Orthod 2001;71:343–350.BaccettiTFranchiLCameronCGMcNamaraJAJr. Treatment timing for rapid maxillary expansion. 2001;71:343–350.Search in Google Scholar
Holberg C, Rudzki-Janson I. Stresses at the cranial base induced by rapid maxillary expansion. Angle Orthod 2006;76:543–550.HolbergCRudzki-JansonI. Stresses at the cranial base induced by rapid maxillary expansion.2006;76:543–550.Search in Google Scholar
Verna C, Melsen B. Tissue reaction. In: Melsen B, ed. Adult orthodontics. Chichester, West Sussex, UK; Ames, Iowa, USA: Wiley-Blackwell, 2012;77-98.VernaCMelsenB. Tissue reaction. In: Melsen B, ed.. Chichester, West Sussex, UK; Ames, Iowa, USA: Wiley-Blackwell, 2012;77-98.10.1002/9781118702925.ch6Search in Google Scholar
Kayalar E, Schauseil M, Kuvat SV, Emekli U, Firatli S. Comparison of tooth-borne and hybrid devices in surgically assisted rapid maxillary expansion: A randomized clinical cone-beam computed tomography study. J Craniomaxillofac Surg 2016;44:285–293.KayalarESchauseilMKuvatSVEmekliUFiratliS. Comparison of tooth-borne and hybrid devices in surgically assisted rapid maxillary expansion: A randomized clinical cone-beam computed tomography study.2016;44:285–293.10.1016/j.jcms.2015.12.00126782847Search in Google Scholar
Wilmes B, Drescher D. A miniscrew system with interchangeable abutments. J Clin Orthod 2008;42:574–580.WilmesBDrescherD. A miniscrew system with interchangeable abutments.2008;42:574–580.Search in Google Scholar
Lagravere MO, Carey J, Heo G, Toogood RW, Major PW. Transverse, vertical, and anteroposterior changes from bone-anchored maxillary expansion vs traditional rapid maxillary expansion: a randomized clinical trial. Am J Orthod Dentofacial Orthop 2010;137:304; e301-312.LagravereMOCareyJHeoGToogoodRWMajorPW. Transverse, vertical, and anteroposterior changes from bone-anchored maxillary expansion vs traditional rapid maxillary expansion: a randomized clinical trial.2010;137:304; e301-312.10.1016/j.ajodo.2009.10.004Search in Google Scholar
Celenk-Koca T, Erdinc AE, Hazar S, Harris L, English JD, Akyalcin S. Evaluation of miniscrew-supported rapid maxillary expansion in adolescents: A prospective randomized clinical trial. Angle Orthod 2018;88:702–709.Celenk-KocaTErdincAEHazarSHarrisLEnglishJDAkyalcinS. Evaluation of miniscrew-supported rapid maxillary expansion in adolescents: A prospective randomized clinical trial.2018;88:702–709.10.2319/011518-42.1817407530102085Search in Google Scholar
Mosleh MI, Kaddah MA, Abd ElSayed FA, ElSayed HS. Comparison of transverse changes during maxillary expansion with 4-point bone-borne and tooth-borne maxillary expanders. Am J Orthod Dentofacial Orthop 2015;148:599–607.MoslehMIKaddahMAAbd ElSayedFAElSayedHS. Comparison of transverse changes during maxillary expansion with 4-point bone-borne and tooth-borne maxillary expanders.2015;148:599–607.10.1016/j.ajodo.2015.04.04026432315Search in Google Scholar
Seif-Eldin NF, Elkordy SA, Fayed MS, Elbeialy AR, Eid FH. Transverse skeletal effects of rapid maxillary expansion in pre and post pubertal subjects: a systematic review. Open Access Maced J Med Sci 2019;7:467–477.Seif-EldinNFElkordySAFayedMSElbeialyAREidFH. Transverse skeletal effects of rapid maxillary expansion in pre and post pubertal subjects: a systematic review.2019;7:467–477.10.3889/oamjms.2019.080639013830834021Search in Google Scholar
Günyüz Toklu M, Germeç-Çakan D, Tozlu M. Periodontal, dentoalveolar, and skeletal effects of tooth-borne and tooth-bone-borne expansion appliances. Am J Orthod Dentofacial Orthop 2015;148:97–109.Günyüz TokluMGermeç-ÇakanDTozluM. Periodontal, dentoalveolar, and skeletal effects of tooth-borne and tooth-bone-borne expansion appliances.2015;148:97–109.10.1016/j.ajodo.2015.02.02226124033Search in Google Scholar
Garib D, Miranda F, Palomo JM, Pugliese F, da Cunha Bastos JC, Dos Santos AM. Orthopedic outcomes of hybrid and conventional Hyrax expanders. Angle Orthod 2021;91:178–186.GaribDMirandaFPalomoJMPuglieseFda Cunha BastosJCDos SantosAM. Orthopedic outcomes of hybrid and conventional Hyrax expanders.2021;91:178–186.10.2319/060820-527.1802848333434282Search in Google Scholar
Pasqua BPM, Andre CB, Paiva JB, Tarraf NE, Wilmes B, Rino-Neto J. Dentoskeletal changes due to rapid maxillary expansion in growing patients with tooth-borne and tooth-bone-borne expanders: a randomized clinical trial. Orthod Craniofac Res 2022;25:476-. doi: 10.1111/ocr.12559.PasquaBPMAndreCBPaivaJBTarrafNEWilmesBRino-NetoJ. Dentoskeletal changes due to rapid maxillary expansion in growing patients with tooth-borne and tooth-bone-borne expanders: a randomized clinical trial. 2022;25:476-. doi: 10.1111/ocr.12559.34951124Open DOISearch in Google Scholar
Gokce G, Akan B, Veli I. A postero-anterior cephalometric evaluation of different rapid maxillary expansion appliances. J World Fed Orthod 2021;10:112–118.GokceGAkanBVeliI. A postero-anterior cephalometric evaluation of different rapid maxillary expansion appliances. 2021;10:112–118.10.1016/j.ejwf.2021.04.002Search in Google Scholar
McNamara JAJr, Franchi L. The cervical vertebral maturation method: A user’s guide. Angle Orthod 2018;88:133–143.McNamaraJAJrFranchiL. The cervical vertebral maturation method: A user’s guide.2018;88:133–143.10.2319/111517-787.1831253529337631Search in Google Scholar
Wilmes B, Nienkemper M, Drescher D. Application and effectiveness of a mini-implant- and tooth-borne rapid palatal expansion device: the hybrid hyrax. World J Orthod 2010;11:323–330.WilmesBNienkemperMDrescherD. Application and effectiveness of a mini-implant- and tooth-borne rapid palatal expansion device: the hybrid hyrax.2010;11:323–330.Search in Google Scholar
Cheung GC, Dalci O, Mustac S, Papageorgiou SN, Hammond S, Darendeliler MA. The upper airway volume effects produced by Hyrax, Hybrid-Hyrax, and Keles keyless expanders: a single-centre randomized controlled trial. Eur J Orthod 2021;43:254–264.CheungGCDalciOMustacSPapageorgiouSNHammondSDarendelilerMA. The upper airway volume effects produced by Hyrax, Hybrid-Hyrax, and Keles keyless expanders: a single-centre randomized controlled trial.2021;43:254–264.10.1093/ejo/cjaa03132377675Search in Google Scholar
Kayalar E, Schauseil M, Hellak A, Emekli U, Firatli S, Korbmacher-Steiner H. Nasal soft- and hard-tissue changes following tooth-borne and hybrid surgically assisted rapid maxillary expansion: a randomized clinical cone-beam computed tomography study. J Craniomaxillofac Surg 2019;47:1190–1197.KayalarESchauseilMHellakAEmekliUFiratliSKorbmacher-SteinerH. Nasal soft- and hard-tissue changes following tooth-borne and hybrid surgically assisted rapid maxillary expansion: a randomized clinical cone-beam computed tomography study.2019;47:1190–1197.10.1016/j.jcms.2019.01.00531307850Search in Google Scholar
Zandi M, Miresmaeili A, Heidari A. Short-term skeletal and dental changes following bone-borne versus tooth-borne surgically assisted rapid maxillary expansion: a randomized clinical trial study. J Craniomaxillofac Surg 2014;42:1190–1195.ZandiMMiresmaeiliAHeidariA. Short-term skeletal and dental changes following bone-borne versus tooth-borne surgically assisted rapid maxillary expansion: a randomized clinical trial study.2014;42:1190–1195.10.1016/j.jcms.2014.02.00724704281Search in Google Scholar
Seeberger R, Abe-Nickler D, Hoffmann J, Kunzmann K, Zingler S. One-stage tooth-borne distraction versus two stage bone-borne distraction in surgically assisted maxillary expansion (SARME). Oral Surg Oral Med Oral Pathol Oral Radiol 2015;120:693–698.SeebergerRAbe-NicklerDHoffmannJKunzmannKZinglerS. One-stage tooth-borne distraction versus two stage bone-borne distraction in surgically assisted maxillary expansion (SARME). 2015;120:693–698.10.1016/j.oooo.2015.07.00926340898Search in Google Scholar
Landes CA, Laudemann K, Schubel F, Petruchin O, Mack M, Kopp S. Comparison of tooth- and bone-borne devices in surgically assisted rapid maxillary expansion by three-dimensional computed tomography monitoring: transverse dental and skeletal maxillary expansion, segmental inclination, dental tipping, and vestibular bone resorption. J Craniofac Surg 2009;20:1132–1141.LandesCALaudemannKSchubelFPetruchinOMackMKoppS. Comparison of tooth- and bone-borne devices in surgically assisted rapid maxillary expansion by three-dimensional computed tomography monitoring: transverse dental and skeletal maxillary expansion, segmental inclination, dental tipping, and vestibular bone resorption.2009;20:1132–1141.10.1097/SCS.0b013e3181abb430Search in Google Scholar
Pangrazio-Kulbersh V, Jezdimir B, de Deus Haughey M, Kulbersh R, Wine P, Kaczynski R. CBCT assessment of alveolar buccal bone level after RME. Angle Orth 2013;83:110–116.Pangrazio-KulbershVJezdimirBde Deus HaugheyMKulbershRWinePKaczynskiR. CBCT assessment of alveolar buccal bone level after RME.2013;83:110–116.10.2319/030712-198.1880552322946618Search in Google Scholar
Lo Giudice A, Barbato E, Cosentino L, Ferraro CM, Leonardi R. Alveolar bone changes after rapid maxillary expansion with tooth-born appliances: a systematic review. Europ J Orth 2018;40:296–303.Lo GiudiceABarbatoECosentinoLFerraroCMLeonardiR. Alveolar bone changes after rapid maxillary expansion with tooth-born appliances: a systematic review.2018;40:296–303.10.1093/ejo/cjx05729016774Search in Google Scholar