The effect of piezoelectric ultrasonic instrumentation on titanium discs: a microscopy and trace elemental analysis in vitro study

Aim To evaluate in vitro topographical and composition changes by piezoelectric ultrasonic instrumentation with metallic and plastic tips on machined and moderately roughened titanium surfaces. Methods Twenty machined and moderately roughened laser‐marked titanium discs were ultrasonically instrumen...

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Bibliographic Details
Published in:International journal of dental hygiene 2016-08, Vol.14 (3), p.191-201
Main Authors: Tawse-Smith, A, Atieh, MA, Tompkins, G, Duncan, WJ, Reid, MR, Stirling, CH
Format: Article
Language:English
Subjects:
Carbon - chemistry
confocal microscope
Dental Implants
Dental Instruments
Dental Scaling - instrumentation
Dentistry
Equipment Design
ICPMS
Imaging, Three-Dimensional
implant surface
Materials Testing
mechanical means
Metals - chemistry
Microscopy
Microscopy, Confocal - methods
Microscopy, Electron, Scanning - methods
Plastics - chemistry
scanning electron microscopy
Spectrophotometry, Atomic
surface alterations
Surface Properties
Surface roughness
Titanium
Titanium - chemistry
Trace elements
Trace Elements - analysis
Ultrasonic Therapy - instrumentation
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Summary:Aim To evaluate in vitro topographical and composition changes by piezoelectric ultrasonic instrumentation with metallic and plastic tips on machined and moderately roughened titanium surfaces. Methods Twenty machined and moderately roughened laser‐marked titanium discs were ultrasonically instrumented with metallic and plastic tips. Surface instrumentation was carried out with controlled pressure for 20 and 30 seconds at two power settings. For each time and power setting, instrumentation was repeated four times with one instrumentation per disc quadrant. Surface topography analysis was performed using scanning electron microscopy (SEM) and confocal laser scanning microscopy (CLSM). Surface roughness measurements were compared between instrumented and non‐instrumented surfaces. Surface element composition and rinsing solutions were evaluated using energy‐dispersive spectroscopy (EDS) and trace elemental analysis using inductively coupled plasma mass spectrometry (ICPMS), respectively. Results SEM photomicrographs and CLSM 3D surface plot images of instrumented machined and moderately roughened surfaces demonstrated severe surface topographical alterations with metallic tips and mild to moderate changes for plastic tip instrumented sites. ICPMS analysis of the rinsing solutions identified titanium and other metal traces with the use of metallic tips, and mainly titanium and carbon when plastic tips were used. Surface EDS analysis showed elemental traces of the ultrasonic tips. Conclusion Ultrasonic instrumentation with metallic or plastic tips created surface topographical and compositional changes. Different changes in surface topography were noted between the surfaces, as the roughness of the machined surfaces increased while the extent of roughness of the moderately roughened surfaces decreased. The clinical relevance of these changes is yet to be determined.
ISSN:1601-5029
1601-5037
DOI:10.1111/idh.12142