Ultrashort pulsed laser (USPL) application in dentistry: basic investigations of ablation rates and thresholds on oral hard tissue and restorative materials
Autor: | Matthias Frentzen, Florian Schelle, Sebastian Polz, Hatim Haloui, Claudia Dehn, Jörg Meister, Andreas Braun |
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Rok vydání: | 2013 |
Předmět: |
Materials science
Light Scanning electron microscope medicine.medical_treatment Dentistry Dermatology Fluence law.invention Dental Materials law medicine Dentin Humans Dental Enamel Enamel paint business.industry Lasers Ablation Laser medicine.anatomical_structure visual_art visual_art.visual_art_medium Surgery Laser Therapy Profilometer business Tooth Ultrashort pulse Software |
Zdroj: | Lasers in Medical Science. 29:1775-1783 |
ISSN: | 1435-604X 0268-8921 |
DOI: | 10.1007/s10103-013-1315-4 |
Popis: | Modern ultrashort pulse lasers with scanning systems provide a huge set of parameters affecting the suitability for dental applications. The present study investigates thresholds and ablation rates of oral hard tissues and restorative materials with a view towards a clinical application system. The functional system consists of a 10 W Nd:YVO4 laser emitting pulses with a duration of 8 ps at 1,064 nm. Measurements were performed on dentin, enamel, ceramic, composite, and mammoth ivory at a repetition rate of 500 kHz. By employing a scanning system, square-shaped cavities with an edge length of 1 mm were created. Ablation threshold and rate measurements were assessed by variation of the applied fluence. Examinations were carried out employing a scanning electron microscope and optical profilometer. Irradiation time was recorded by the scanner software in order to calculate the overall ablated volume per time. First high power ablation rate measurements were performed employing a laser source with up to 50 W. Threshold values in the range of 0.45 J/cm(2) (composite) to 1.54 J/cm(2) (enamel) were observed. Differences between any two materials are statistically significant (p 0.05). Preparation speeds up to 37.53 mm(3)/min (composite) were achieved with the 10 W laser source and differed statistically significant for any two materials (p 0.05) with the exception of dentin and mammoth ivory (p 0.05). By employing the 50 W laser source, increased rates up to ∼50 mm(3)/min for dentin were obtained. The results indicate that modern USPL systems provide sufficient ablation rates to be seen as a promising technology for dental applications. |
Databáze: | OpenAIRE |
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