Selective corticotomy and orthodontics: distance and time in which a displacement is achieved. Bibliographic review

Authors

DOI:

https://doi.org/10.29166/odontologia.vol21.n2.2019-114-122

Keywords:

Orthodontics, osteotomy, cortical bone, bone remodeling, treatment time

Abstract

Corticotomy is defined as an osteotomy, in which the cortical bone is cut, perforated or mechanically altered in a controlled surgical way and at the same time minimally penetrating the bone marrow to accelerate orthodontic dental movement in response to a demand for patients regarding the effectiveness of the treatment and the rapid movement of each zone. Objective: by means of a bibliographic review, determine the distance and time in which an orthodontic movement is achieved after having performed a selective corticotomy. For the search, Platforms such as Pubmed, Scielo, Science Direct and Google Scholar were used, in which keywords such as distance, time, selective corticotomy and orthodontic treatment were used and articles published between 2001 and 2017 were searched. Results: It was obtained that the movements are carried out in a period of 4 months, with respect to the distance and it was observed that an average of 3.5 mm can be moved. Conclusions: in adult patients, the demand for reducing treatment times has increased; orthodontics facilitated by corticotomy achieves successful treatment and decreases treatment times. However, the evidence is scarce, since it is mainly based on case reports, so more research is required about this procedure.

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Author Biographies

Héctor Eduardo Méndez Zapata

Residente del Instituto Mexicano de Ortodoncia. León, Gto. México. C.D.E.C.M.

José Angel Lonato Ponce

Profesor del Instituto Mexicano de Ortodoncia. León, Gto. México. C.D.E.O.

Jelsyka Quirós Castillo

Profesora del Instituto Mexicano de Ortodoncia. León, Gto. México.

References

Bhattacharya P. Assessment of corticotomy facilitated tooth movement and changes in alveolar bone thickness - A CT Scan study. Journal of Clinical and Diagnostic Research. 2014 Octubre; 8(10).

Murphy H. Periodontal Accelerated osteogenic orthodontics: a description of the surgical technique. J Oral maxillofac surg. 2009; 67(21).

Wilcko WM WTBJFD. Rapid orthodontics with alveolar reshaping: two case reports of decrowding. Int J periodont Restorat Dent. 2001; 21(1).

Burrow. S. Biomechanics and the paradigm shift in orthodontic treatment plannin. J Clin Orthod. 2009; 43(10).

Dibart S S. Piezocision: a minimally invasive, periodontally accelerated orthodontic tooth movement procedure. Practical Osseous Surgery in Periodontics and Implant Dentistry. 2011;(195).

Dibart S S. Piezocision: a minimally invasive, periodontally accelerated orthodontic tooth movement procedure. Practical Osseous Surgery in Periodontics and Implant Dentistry. 2011;(195).

Nowzari YH. Periodontally accelerated osteogenic orthodontics combined with autogenous bone. Compend contin Educ Dent. 2008; 29.

Samuel Salvador Robles Andrade CGCCHH. Ortodoncia acelerada periodontalmente: Fundamentos biológicos y técnicas quirúrgicas. Revista Mexicana de Periodontología. 2011 abril; 2(1).

Arango JDCMR. Comparación Clínica entre el tratatmiento ortódontico facilitado por corticotomia y ortodoncia convencional. Int. J odontostomat. 2015; 9(2).

Akay M AAGTASKB. Enhanced effect of combined treatment with corticotomy and skeletal anchorage in open bite correction. J Oral Maxillofac Surg. 2009;(67).

Dubravko Pavlin DMD MPD,RAMVRDMPTGDPD. Cyclic Loading (Vibration) Accelerates Tooth Movement in Orthodontic Patients: A Double-Blind, Randomized Controlled Trial, Semin Orthod. http://dx.doi.org/10.1053/j.sodo.2015.06.005. .

Düker I. experimental animal research into segmental alveolar movement after corticotomy. J Maxillofac Surg. 1975; 3.

Shoichiro L SSGITNTISM. Acceleration of orthodontic tooth movement by alveolar corticotomy in the dog. Am J Orthod Dentofacial Orthop. 2007; 131(4).

L Soichiro SSMS. An adult bimaxillary protrusion treated with corticotomy-facilitated orthodontics and titanium miniplates. Angle orthodontist. 2006; 76(6).

Sumit Yadav aTDAAHGZKaRNFC. Effect of low-frequency mechanical vibration on orthodontic tooth movement.. Am J Orthod Dentofacial Orthop. 2015 Sep; 148(3).

Wilcko M. accelerated osteogenic orthodontics technique: a 1- stage surgically facilitated rapid orthodontic technique with alveolar augmentation. J oral maxillofac surg.. 2009; 67(10).

Yamasaki K SYISTYSYFT. Clinical application of prostaglandin E1 (PGE1) upon orthodontic tooth movement. American Journal of Orthodontics and Dentofacial Orthopedics. 1984; 85.

Pavlin D ZRGHJ. Temporal pattern of stimulation of osteoblast-associated genes during mechanically-induced osteogenesis in vivo: Early responses of osteocalcin and type I collagen. Connective Tissue Research. 2001; 42.

Pavlin D MMZRGEGHJ. Orthodontically stressed periodontium of transgenic mouse as a model for studying mechanically induced gene regulation in bone: The effect on the number of osteoblasts. Clinical Orthododontics and Research. 2000; 3.

Rubin C TSMRMEMKLWaQY. Quantity and quality of trabecular bone in the femur are enhanced by a strongly anabolic, noninvasive mechanical intervention. J Bone and Mineral Research. 2002; 17(2).

Rubin J RCJC. Molecular pathways mediating mechanical signaling in bone.. Gene. 2006; 367.

Gluhak-Heinrich J YLBLFJMMHSPD. Mechanical loading stimulates dentin matrix protein 1 (DMP1) in osteocytes in vivo. Journal of Bone and Mineral Research. 2003; 18.

Andrade MSR. Ortodoncia celerada periodontalmente: fundamentos biológicos técnicas quirúrgicas. Revista mexicana de peridiodontología. 2011 abril; 2(1).

Kawasaki K SN. Effects of low-energy laser irradiation on bone remodeling during experimental tooth movement in rats. Lasers in Surgery and Medicine. 2000; 26.

Stark TM SP. Effect of pulsed electromagnetic fields on orthodontic tooth movement. American Journal of Orthodontics and Dentofacial Orthopedics. 1987;(91).

Takano-Yamamoto T KMYT. Effect of age on the rate of tooth movement in combination with local use of 1,25(OH)2D3 and mechanicalforce in the rat. Journal of Dental Research. 1992; 71.

Motohashi T NMKK. Biomechanical efffects of orthodontic treatment by using anchorage device combined with corticotomy. Journal of Cranio-Maxillofacial Surgery.. 2006; 34(1).

Vercellotti TP. Orthodontic microsurgery: a new surgically guided technique for dental movement. Int J periodontics Restorative Dent. 2007; 27.

Köle H. Surgical operations of the alveolar ridge to correct occlusal abnormalities. Oral Surg Oral Med Oral Pathol. 1959; 12(3).

Frost H. The regional acceleratory phenomenom: a review. Henry Ford Hosp Med J. 1983; 31(1).

Kanno T MMFYKSAN. Corticotomy and compression osteogenesis in the posterior maxilla for treating severe anterior open bite. Int J Oral Maxillofacial Surg. 2007;(4).

Oliveira D OBAHGSMP. Selective alveolar corticotomy to intrude overerupted molars. Am J Orthod Dentofacial Orthop. 2008; 133.

Rubin C JSQY. Low-level mechanical signals and their potential as a non-pharmacological intervention for osteoporosis. Age and Ageing. 2006; 35(S2).

Pavlin D GHJ. Effect of mechanical loading on periodontal cells. Critical Reviews in Oral Biology and Medicine. 2001; 12.

Published

2019-07-01

How to Cite

Méndez Zapata, H. E., Lonato Ponce, J. A., & Quirós Castillo, J. (2019). Selective corticotomy and orthodontics: distance and time in which a displacement is achieved. Bibliographic review. Odontología, 21(2), 114–122. https://doi.org/10.29166/odontologia.vol21.n2.2019-114-122

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Section

Bibliographic review