EFFECT OF LOW-POWER LASER IN THE AMOUNT OF DENTAL MOVEMENT AND IN THE PERCEPTION OF PAIN IN CANINE DISTALIZATION MECHANICS
DOI:
https://doi.org/10.31984/oactiva.v1i2.145Keywords:
Low power laser, Tooth movement, OrthodonticsAbstract
Aim: To compare the amount of tooth movement and the perception of pain in patients under going distal movement of canines with and without the application of low-power laser Materials and Method: Prospective field and level quasi-experimental. He worked with twenty young patients with extractions of first premolars. It was developed under the scheme mouth applying to them the starting low-power laser only on the right side, this side being the experimental group and the control group left. Observation techniques and EVA questionnaire was applied to assess pain. Results: The amount of tooth movement in patients under going the application of low-power laser had an average of 1.33mm,1.37mm and 1.56mm (for first, second and third posttest respectively). The perception of pain according to the EVA test was hurt a bit. The amount of tooth movement in patients without the application of low power laser in orthodontic mechanics for canine distalization had an average of 1.25mm, 1.31mm and 1.45mm (for first, second and third posttest respectively). The perception of pain for this process was a little hurt and it hurts even more. It is applied in analysis Student t for statistical analysis Conclusions: The difference between the amount of tooth movement with and with out the use of low-power laser is not statistically significantin any of the three posttest. When comparing the difference between the perception of pain with and with out the use of lasers, it is obtained if there is statistically significant difference in decreasing pain perception.
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2 Sámano R, D. L- Influencias de las prostaglandinas en el movimiento ortodóncico dental. Revista ADM 1999; LVI (2):59-63.
3 Ariasa O. R. and M. C. Marquez-Orozco. Aspirin, acetaminophen, and ibuprofen: Their effects on orthodontic tooth movement.AmJOrthodDentofacialOrthop2006;130:36470
4 Furstman L, Bernick S. Clinical considerations of the periodontium. Am J Orthod, 2002 Feb; 61(2): 138-155
5 Ohshiro T, Calderhead RG. Development of low reactivelevel lasertherapy and its present status. J Clin Laser Med Surg, 2004 Aug; 9(4): 267-275
6 Tost, A. J. Arnabat-Domínguez, J. Berini-Aytés, L.,GayEscoda, Cosme, Aplicaciones del láser en Odontología, RCOE, 2011, Vol 9, No5, 497-511
7 Cruz DR, Kohara EK, Ribeiro MS, Wetter NU. Effects of low-intensity laser therapy on the orthodontic movement velocity of human teeth: a preliminary study. Lasers Surg Med 2004;35:117-20
8 DeLoach LJ, Higgins MS, Caplan AB, et al. The visual analog scale in the immediate postoperative period: intrasubject variability and correlation with a numeric scale. Anesth Analg. 1998; 86:102-6
9 Uribe, RG. Fundamentos de Odontología Ortodoncia Teoría y Clínica, 2da Ed. 2010. Pág. 343. 10 Proffit W. Ortodoncia Contemporanea, 5ta edicion, Ed. Elsevier, España 2013. Pág. 421.
11 Doshi-Mehta, G., & Bhad-Patil, W. A. (2012). Efficacy of low-intensity laser therapy in reducing treatment time and orthodontic pain: a clinical investigation. American Journal of Orthodontics and Dentofacial Orthopedics, 141(3), 289297.
12 Youssef M, Ashkar S, Hamade E, Gutknecht N, Lampert F, Mir M. The effect of low-level laser therapy during orthodontic movement: a preliminary study. Lasers Med Sci 2008;23:27-33
13 Chow, Roberta T., and Les Barnsley. Systematic review of the literature of low level laser therapy LLLT in the management of neck pain. Lasers in surgery and medicine 37.1 2005: 46-52.
14 Mina Königsberg F, Nrf2: La historia de un nuevo factor de transcripción que responde a estrés oxidativo, REB 2007,26(1): 18-25
15 Capell JR, Almirall LA, Barrionuevo NC. (2015). Revista de Revistas 2/2015. Revista Española de Ortodoncia, 45(2), 118-121.
16 Kim, W. T., et al. .Effect of frequent laser irradiation on orthodontic pain.The Angle Orthodontist 2013. 83 (4): 611-616.
17 Doshi-Mehta Gauri, Efficacy of low-intensity laser therapy in reducing treatment time and orthodontic pain: A clinical investigation, American Journal of Orthodontics and Dentofacial Orthopedics, 2012; 142, (1), 3.
18 Fujiyama Koji, Deguchi Toru, Murakam Takashi i, Fujii Akihito, Kazuhiko Kushima and Teruko Takano-Yamamoto. Eficacia clínica del láser Co2 para reducir el dolor en ortodoncia. The Angle orthodontic 2010; 78(3), 2-7.
19 Von Böhl, M., et al. "Movimiento dental. Efectos de la fuerza y reacción periodontal. Rev Esp Ortod 34 2004: 249-254.
20 Abi-Ramia, L. B. P., et al. Effects of Low-Level Laser Therapy and Orthodontic Tooth Movement on Dental Pulps in Rats.The Angle Orthodontist 2010. 80(1): 116-122.
21 Roberts, W. Eugene; Huja, Sarandeep; Roberts, Jeffery A. Bone modeling: biomechanics, molecular mechanisms, and clinical perspectives. Seminars in orthodontics. WB Saunders, 2004. p. 123-161.
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