Different Therapeutic Effects of CO2 and Diode Laser Irradiation on Tooth Movement-Related Pain

Takako Tsuchiya; Naoya Hasegawa; Misato Yugawa; Au Sasaki; Naoto Suda; Kazunori Adachi

doi:10.3389/fneur.2020.00481

Different Therapeutic Effects of CO₂ and Diode Laser Irradiation on Tooth Movement-Related Pain

Front Neurol. 2020 Jun 5:11:481. doi: 10.3389/fneur.2020.00481. eCollection 2020.

Authors

Takako Tsuchiya¹, Naoya Hasegawa¹, Misato Yugawa¹, Au Sasaki¹, Naoto Suda¹, Kazunori Adachi²

Affiliations

¹ Division of Orthodontics, Meikai University School of Dentistry, Sakado, Japan.
² Division of Pharmacology, Meikai University School of Dentistry, Sakado, Japan.

Abstract

Although orthodontic treatment is common, orthodontic force often induced pain. Low-level laser therapy (LLLT) has been investigated to improve therapeutic comfort. In dentistry, LLLT is mainly applied using two types of lasers, CO₂ and diode lasers, whose biological actions are thought to be associated with wavelength (CO₂: 10,600 nm; diode: 808 nm). The analgesic effect of LLLT on orthodontic treatment-related pain is widely reported but inconsistent. This study aimed to (1) determine whether irradiation with a CO₂ or diode laser attenuates orthodontic treatment-related pain using the jaw-opening reflex model, (2) elucidate the optimal irradiation protocol for both lasers to obtain the maximal analgesic effect, (3) evaluate the effects of laser irradiation on other biological features [e.g., tooth movement, glial fibrillary acidic protein (GFAP) expression, and temperature alterations] and (4) investigate the mechanism underlying the analgesic effect of laser irradiation. In this animal model, orthodontic treatment-induced pain manifested as a significantly reduced the threshold for inducing the jaw-opening reflex on the orthodontically treated side compared with the contralateral side. GFAP expression in the bilateral trigeminal ganglia (TGs) was significantly increased by the application of orthodontic force. CO₂ laser irradiation of the orthodontically treated region significantly increased the threshold for inducing the jaw-opening reflex and the peripheral temperature. Similar reductions in jaw-opening reflex excitability were induced by surface anesthesia and thermal stimulation but not, the diode laser. Neither CO₂ nor diode laser irradiation altered GFAP expression in the TGs. Infiltration anesthesia also significantly increased the threshold for inducing the jaw-opening reflex on each anesthetized side. Irradiation (30 s) by either laser immediately after orthodontic force application (preirradiation) significantly decreased jaw-opening reflex excitability and GFAP expression in the bilateral TGs the next day. However, thermal stimulation immediately after orthodontic force application failed to alter jaw-opening reflex excitability the next day. Laser irradiation did not alter tooth movement; however, an optimized irradiation protocol for aiding tooth movement is suggested. In conclusion, both CO₂ and diode lasers are able to prevent orthodontic treatment-related pain. Furthermore, the involvement of temperature alterations and surface anesthesia in the analgesic effect induced by CO₂ laser irradiation is suggested.

Keywords: CO2 laser; diode laser; jaw-opening reflex; low-level laser therapy; orthodontic pain.