An SEM study on the effect of 9.3-µm CO2 laser on dentinal tubules for hypersensitivity treatment

Objectives In-vitro studies were performed on dentin of extracted human molars to investigate the effectiveness of 9.3 μm CO 2 laser irradiation to occlude dentinal tubules. The observed occlusion of dentinal tubules with the irradiation was compared with application of three reagents: 2% Sodium Flu...

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Bibliographic Details
Published in:Lasers in medical science 2024-07, Vol.39 (1), p.200, Article 200
Main Authors: Ramareddy, Vijayashankar, Kerbage, Charles
Format: Article
Language:English
Subjects:
Dentistry
Lasers
Medicine
Medicine & Public Health
Optical Devices
Optics
Original Article
Photonics
Quantum Optics
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Summary:Objectives In-vitro studies were performed on dentin of extracted human molars to investigate the effectiveness of 9.3 μm CO 2 laser irradiation to occlude dentinal tubules. The observed occlusion of dentinal tubules with the irradiation was compared with application of three reagents: 2% Sodium Fluoride gel, an aqueous solution of hydroxyapatite nanoparticles and an equal mix of the two. We show that 9.3 μm CO 2 laser irradiation occludes dentinal tubules, and the use of laser irradiation produces better occlusion of the opened tubules compared to the use of topical reagents. Methods Nine extracted and cleaned human molars were cut to obtain dentin disks of thickness of 3–5 mm. Each disc was divided into four quarters, and each quarter served as two samples corresponding to irradiated and non-irradiated group counterparts. Five disks were used to study the effect of various laser irradiation energies on the dentinal tubules to find a good pulse fluence for occlusion of the dentinal tubules, and four disks were used for studying the effects of reagents and irradiation at the pulse fluences found in the first part of the study. The samples were irradiated with a beam diameter of 1 mm (1/e 2 ) at 15 Hz pulse repetition rate, scanned automatically using a set of scanning mirrors. Samples were imaged using Scanning Electron Microscope (SEM) which were processed to determine tubule diameter. Safety of the irradiation treatment was investigated on 6 samples by measuring pulpal temperature rise. The effect of three topical reagents corresponding to 2% Sodium Fluoride gel (F), Hydroxyapatite nanoparticles (HA) and an equal mix of F and HA (HAF) on dentinal tubule occlusion was evaluated and compared with the laser irradiation. Results In all examined cases, laser irradiation at a fluence of 0.81 J/cm 2 resulted in a temperature increase less than 3 °C which is safe, and no surface cracking was observed. There is a threshold pulse fluence of 0.27 J/cm 2 above which, laser produced surface melting. At a pulse fluence of 0.81 J/cm 2 a layer of recast of melted dentin was formed. Under this layer, peritubular dentin melting and occluding of the dentinal tubules was observed. Application of either F or HA or HAF did not produce visible occlusion effect on open tubules after washing and microbrushing with excess distilled water. Conclusions 9.3 μm CO2 laser irradiation on extracted human molar dentin at pulse fluence of 0.81 J./cm 2 resulted in tubule area reduction by
ISSN:1435-604X
1435-604X
DOI:10.1007/s10103-024-04157-1