From: Accelerated orthodontic tooth movement: surgical techniques and the regional acceleratory phenomenon
Author(s) and year of publication | Type of subjects | Number of subjects | Control group and type | Procedure being assessed | Type of publication |
---|---|---|---|---|---|
Liou and Huang, 1998 [14] | Human | 15 | No | Rapid canine retraction/dental distraction | Clinical study |
Wilcko and Wilcko, 2001 [18] | Human | 2 | None | PAOO | Case report—2 cases |
Kisnisci et al., 2002 [36] | Human | 11 | No | Rapid canine retraction/dental distraction | Clinical study |
Bilodeau, 2003 [35] | Human | 1 | No | Rapid canine retraction/dental distraction | Case report |
Iseri et al., 2005 [37] | Human | 10 | No | Rapid canine retraction/dental distraction | Clinical study |
Lee et al., 2007 [30] | Human | 65 | Yes—conventional orthodontics | Corticotomy, segmental osteotomy | Clinical study |
Iino et al., 2007 [32] | Beagle dogs | 12 | Split mouth design | Corticotomy | Animal study |
Nowzari et al., 2008 [27] | Human | 1 | None | PAOO | Case report |
Wilcko and Wilcko, 2009 [28] | Human | 2 | None | PAOO | Case report—2 cases |
Wilcko and Wilcko, 2009 [29] | Human | 3 | None | PAOO | Case report—3 cases |
KIm et al., 2009 [19] | Cat | 16 | Yes | Corticision | Animal study |
Dibart et al., 2009 [22] | Human | 1 | None | Piezocision | Case report |
Mostafa et al., 2009 [33] | Beagle dogs | 6 | Split mouth design | Corticotomy | Animal study |
Sanjideh et al., 2010 [34] | Foxhound dogs | 5 | Split mouth design | Corticotomy | Animal study |
Teixeira et al., 2010 [55] | Sprague-Dawley rats | 48 | Yes | Soft tissue flap and osteoperforations | Animal study |
About-Ela et al., 2011 | Human | 13 | Split mouth design | Corticotomy | Clinical study |
Keser and Dibart, 2011 [40] | Human | 1 | None | Piezocision | Case report |
Keser and Dibart, 2013 [41] | Human | 1 | None | Piezocision | Case report |
Alikhani et al., 2013 [25] | Human | 20 | Yes—conventional orthodontics | Microosteoperforations | Clinical study |
Murphy et al., 2014 [38] | Wistar Rats | 44 | Yes | Corticision | Animal study |
Milano et al., 2014 [42] | Human | 1 | None | Piezocision | Case report |
Dibart et al., 2014 [53] | Sprague-Dawley rats | 94 | Yes | Piezocision | Animal study |
Murphy et al., 2016 [39] | Wistar rats | 44 | Yes | Corticision | Animal study |
Aksakalli et al., 2016 [44] | Human | 10 | Split mouth design | Piezocision | Clinical study |
Charavet et al., 2016 [45] | Human | 24 | Yes—conventional orthodontics | Piezocision | Clinical study |
Abbas et al., 2016 [46] | Human | 20 | Split mouth design | Two groups for canine retraction: corticotomy and piezocision | Clinical study |
Dibart et al., 2016 [68] | Ex-vivo calvarial bone organ culture—mice | 276 | Yes | Groups: piezoelectric knife, bur, handheld screw device | Animal study |
Uribe et al., 2017 [67] | Human | 29 | Yes—conventional orthodontics | Piezotome-corticisions | Clinical study |
Sugimori et al., 2018 [56] | Wistar Rats | 50 | yes—orthodontic force only | Microosteoperforations | Animal study |
Alkebsi et al., 2018 [58] | Human | 32 | Yes—conventional orthodontics | Microosteoperforations | Clinical study |
Chan et al., 2018 [61] | Human | 20 | Yes—conventional orthodontics | Microosteoperforations | Clinical study |
Attri et al., 2018 [59] | Human | 60 | Yes—conventional orthodontics | Microosteoperforations | Clinical study |
Hou et al., 2019 [43] | Human | 1 | None | Piezocision | Case report |
Strippoli et al., 2019 | Human | 24 | Yes—conventional orthodontics | Piezocision | Clinical study |
Van Gemert et al., 2019 [57] | Beagle dogs | 13 | Split mouth design | Microosteoperforations | Animal study |
Sivarajan et al., 2019 [60] | Human | 30 | Split mouth design | Microosteoperforations | Clinical study |
Charavet et al., 2019 [54] | (Oncins France Strain A) Rats | 60 | Yes—orthodontic force only | Piezocision | Animal study |
Hatrom et al., 2020 | Human | 26 | Yes—conventional orthodontics | Piezocision | Clinical study |
Khlef et al., 2020 [52] | Human | 40 | No | Two groups: corticotomy done by using piezoelectric knife with flap and piezocision( defined as flawless corticotomy) | Clinical study |
Hannequin et al., 2020 [71] | Human | 1 | None | Corticotomy done by using piezoelectric knife with flap | Case report |
Hatrom et al., 2021 [50] | Human | 23 | Yes—conventional orthodontics | Piezocision | Clinical study |
Alvarez et al., 2021 [51] | Human | 36 | Yes—conventional orthodontics | Piezocision | Clinical study |
Kernitsky et al., 2021 [69] | Sprague-Dawley rats | 18 | Yes | Groups: deep and shallow piezoelectric decortications | Animal study |
Sharon et al., 2021 | Human | 30 | Yes—conventional orthodontics | Microosteoperforations | Clinical study |