The efficacy of tad palatal skeletal anchors with mini screws as expanders and distalizers in the postpuberal era
DOI:
https://doi.org/10.55312/op.vi2.6082Abstract
The transverse deficit of the maxilla is present in every age group, from baby teeth to permanent teeth. If it is not treated in time, it can worsen and cause a complex malocclusion. In addition to occlusal problems, it can also cause serious respiratory problems. In growing patients, this problem can be best solved through a rapid palatal expander. In adult patients who have passed the growth peak, more invasive procedures are required such as SURGICALLY ASSISTED RAPID PALATAL EXPANSION (SARPE), but in recent years, studies have shown that it is possible to achieve maxillary expansion in adult patients without performing osteotomy but through the placement of mini implants in the palatal with assisted anchorage. In this article, we will present and discuss the technique of placing mini implants in the palatal with anchorage and the effectiveness of this device through the functions it performs, such as palatal expansion, distalization, and anchorage in adult patients. Thus, avoiding extractions and surgical intervention. This study was conducted at the University Clinic of the Albanian University in the Department of Dentistry.
Keywords:
RAPID PALATAL EXPANSION SARPE, placing mini-implants, extractions and surgical interventionDownloads
References
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Angelieri, Cevidanes, Franchi, Goncalves, McNamara Jr. Midpalatal suture maturation: Classification method for individual assessment before rapid maxillary expansion. Am J Orthod Dentofacial Orthop 2013; 144:759-69.
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Cantarella, Dominguez-Mompell, Joseph Miller, Won Moon. Changes in the midpalatal and pterygopalatine sutures induced by micro-implant-supported skeletal expander, analyzed with a novel 3D method based on CBCT imaging. Progress in Orthodontics 2017; 18:34.
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Ghoneima, Abdel-Fattah, Hartsfield. Effects of rapid maxillary expansion on the cranial and circummaxillary sutures. Am J Orthod Dentofacial Orthop 2011; 140:510-9.
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Hye Kyung Lee, Mohamed Bayome, Chee Soo Ahn, Seong-Hun Kim, Ki Beom Kim, Sung-Seo Mo, and Yoon-Ah Kook. Stress distribution and displacement by different bone-borne palatal expanders with micro-implants: a three-dimensional finite-element analysis. European Journal of Orthodontics 2014; 36:531–540.
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Jung Jin Park, Young-Chel Park, Kee-Joon Lee, Jung-Yul Cha, Ji Hyun Tahk, Yoon Jeong Choi. Skeletal and dentoalveolar changes after miniscrew-assisted rapid palatal expansion in young adults: A cone-beam computed tomography study. Korean J Orthod 2017; 47(2):77-86.
-
Korbmacher, Schilling, Puschel. Age-dependent three-dimensional micro-computed tomography analysis of the human midpalatal suture. Journal of Orofacial Orthopedics 2007; 68:364–76.
-
Lu Lin, Hyo-won Ahn, Su-Jung Kim, Sung-chul Moon, Seong-Hun Kim, Gerald Nelson. Tooth-borne vs bone-borne rapid maxillary expanders in late adolescence. Angle Orthod 2015; 85:253-262.
-
Maino, B.G.; Paoletto, E.; Lombardo, L.; and Siciliani, G. From planning to delivery of a bone-borne rapid maxillary expander in one visit. J. Clin. Orthod 2017; LI(4):198-207.
-
Sung-Hwan Choi, Kyung-Keun Shib, Jung-Yul Chac, Young-Chel Parkd, Kee-Joon Lee. Nonsurgical miniscrew-assisted rapid maxillary expansion results in acceptable stability in young adults. Angle Orthod. 2016; 86:713–720.
-
Wilmes, Nienkemper, Drescher. Application and effectiveness of mini-implant and tooth-borne rapid palatal expansion device: the hybrid hyrax. World Journal of Orthodontics 2010; 11(4):323-330.
References
Angelieri, Cevidanes, Franchi, Goncalves, McNamara Jr. Midpalatal suture maturation: Classification method for individual assessment before rapid maxillary expansion. Am J Orthod Dentofacial Orthop 2013; 144:759-69.
Cantarella, Dominguez-Mompell, Joseph Miller, Won Moon. Changes in the midpalatal and pterygopalatine sutures induced by micro-implant-supported skeletal expander, analyzed with a novel 3D method based on CBCT imaging. Progress in Orthodontics 2017; 18:34.
Ghoneima, Abdel-Fattah, Hartsfield. Effects of rapid maxillary expansion on the cranial and circummaxillary sutures. Am J Orthod Dentofacial Orthop 2011; 140:510-9.
Hye Kyung Lee, Mohamed Bayome, Chee Soo Ahn, Seong-Hun Kim, Ki Beom Kim, Sung-Seo Mo, and Yoon-Ah Kook. Stress distribution and displacement by different bone-borne palatal expanders with micro-implants: a three-dimensional finite-element analysis. European Journal of Orthodontics 2014; 36:531–540.
Jung Jin Park, Young-Chel Park, Kee-Joon Lee, Jung-Yul Cha, Ji Hyun Tahk, Yoon Jeong Choi. Skeletal and dentoalveolar changes after miniscrew-assisted rapid palatal expansion in young adults: A cone-beam computed tomography study. Korean J Orthod 2017; 47(2):77-86.
Korbmacher, Schilling, Puschel. Age-dependent three-dimensional micro-computed tomography analysis of the human midpalatal suture. Journal of Orofacial Orthopedics 2007; 68:364–76.
Lu Lin, Hyo-won Ahn, Su-Jung Kim, Sung-chul Moon, Seong-Hun Kim, Gerald Nelson. Tooth-borne vs bone-borne rapid maxillary expanders in late adolescence. Angle Orthod 2015; 85:253-262.
Maino, B.G.; Paoletto, E.; Lombardo, L.; and Siciliani, G. From planning to delivery of a bone-borne rapid maxillary expander in one visit. J. Clin. Orthod 2017; LI(4):198-207.
Sung-Hwan Choi, Kyung-Keun Shib, Jung-Yul Chac, Young-Chel Parkd, Kee-Joon Lee. Nonsurgical miniscrew-assisted rapid maxillary expansion results in acceptable stability in young adults. Angle Orthod. 2016; 86:713–720.
Wilmes, Nienkemper, Drescher. Application and effectiveness of mini-implant and tooth-borne rapid palatal expansion device: the hybrid hyrax. World Journal of Orthodontics 2010; 11(4):323-330.
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