Strutural Change of Root Surface Following CO2 Laser Treatment.
10.5051/jkape.1997.27.3.469
- Author:
Do Young KIM
1
;
Soo Boo HAN
;
Jae Sung KO
;
Sung Hyun PARK
;
Seung Beom KYE
;
Kwang Se HWANG
;
Woo Sung KIM
Author Information
1. Department of Periodontology and Dental Research Institute, Colleg of Dentistry, Seoul National University, Korea.
- Publication Type:Original Article ; Randomized Controlled Trial
- MeSH:
Bicuspid;
Dentin;
Dentin Sensitivity;
Edetic Acid;
Humans;
Lasers, Gas*;
Trout
- From:The Journal of the Korean Academy of Periodontology
1997;27(3):469-478
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
The purpose of this study was to evaluate the structural change of root surface and the occlusion of dentinal tubule following CO2 laser treatment. Seven extracted healthy human premolar werw curetted, sectioned, and four specimens were randomly assigned to each of 6 different treatment groups : 1) untreated EDTA etched control; 2) root plande only; 3) CO2 laser treated with 2W mode 6(10msec/pulse, 20pps) for 1 minute; 4) CO2 laser treated with 2W mode 6(10msec/pulse, 20pps) for 2 minutes; 5) CO2 laser treated with 2W mode 7(20msec/pulse, 20pps) for 1 minute; 6) CO2 laser treated with 2W mode 7(20msec/pulse, 20pps) for 2 minutes. Following the prescribed treatment, the specimens were prepared for SEM evaluation. Results showed that CO2 laser may be effective to occlude dentinal tubules tor dentin sensitivity treatment. The effect of dentinal tubule occlusion was enhanced with increasing the total energy level lased to specimen regardless of lasing mode. The structural changes of root surfaces were restricted to superficies, and these changes included fissuring, charring, crater formation over the smooth lava like texture. The charring and crater formation implying root damage was observed in the case of the longer duration of a pulse. The results of the present study suggests that the pulsed CO2 laser with shorter pulse duration and longer exposure time can be used effectively in order to obtain the optimal dentinal tubule occlusion with minimal root damage.