Surface changes of anodic oxidized orthodontic titanium miniscrew

Choi, Sung‐Hwan; Yul, Jung; Joo, Uk Hyon; Hwang, Chung Ju

doi:10.2319/071311-448.1

Cited by 25 publications

(12 citation statements)

References 21 publications

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“…Choi et al 27 evaluated the surface roughness of two different types of miniimplants and did not find any definite alteration, corroborating with our findings. However, Eliades et al 19 observed surface alterations in retrieved devices, such as loss of gloss in some parts.…”

Section: Discussionsupporting

confidence: 81%

Mini-implants for Orthodontic Anchorage: Surface Analysis after Redrilling and Sterilization – An in vitro Study

Gross¹,

Nascimento

Araújo

et al. 2016

The Journal of Contemporary Dental Practice

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Objective: This study aimed to investigate, in vitro, possible alterations on mini-implants surface after retrieval and if the cleaning process and sterilization can predispose damages. Materials and methods:Two commercial mini-implants were tested for deformations after drilling and removing in artificial bone four times. Samples were analyzed by scanning electron microscopy, and surface alterations verified through thread and pitches deformation. To alterations caused by insertion/removal and the cleaning process and sterilization were verified in different procedures: Insertions and sterilization, only insertions, and only sterilization. Photomicrographs were analyzed in order to compare the surface characteristics. Head deformation was verified qualitatively. For a quantitative analysis, distances between threads were measured across the active part of the mini-implants. Results:No deformation was observed in both groups. The cleaning and sterilization processes did not provoke alteration in both groups. Nevertheless, the presence of synthetic bone was noted in some samples. The mean distances between implant threads were similar after all steps in all regions in both groups. Conclusion:The results suggest that the tested mini-implants can be retrieved without damage of its surface after four cycles of insertion, removal, and sterilization.

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Section: Discussionsupporting

confidence: 81%

Mini-implants for Orthodontic Anchorage: Surface Analysis after Redrilling and Sterilization – An in vitro Study

Gross¹,

Nascimento

Araújo

et al. 2016

The Journal of Contemporary Dental Practice

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“…Furthermore, previous studies have mostly assessed miniscrews with MS. However, the use of miniscrews with treated surfaces is gradually increasing, with improved success rates 910. Therefore, we assessed both MS and ES in the present study.…”

Section: Discussionmentioning

confidence: 99%

Effects of recycling on the biomechanical characteristics of retrieved orthodontic miniscrews

et al. 2017

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ObjectiveThe aim of this study was to compare recycled and unused orthodontic miniscrews to determine the feasibility of reuse. The comparisons included both miniscrews with machined surfaces (MS), and those with etched surfaces (ES).MethodsRetrieved MS and ES were further divided into three subgroups according to the assigned recycling procedure: group A, air-water spray; group B, mechanical cleaning; and group C, mechanical and chemical cleaning. Unused screws were used as controls. Scanning electron microscopy, energy-dispersive X-ray spectrometry, insertion time and maximum insertion torque measurements in artificial bone, and biological responses in the form of periotest values (PTV), bone–implant contact ratio (BIC), and bone volume ratio (BV) were assessed.ResultsMorphological changes after recycling mainly occurred at the screw tip, and the cortical bone penetration success rate of recycled screws was lower than that of unused screws. Retrieved ES needed more thorough cleaning than retrieved MS to produce a surface composition similar to that of unused screws. There were no significant differences in PTV or BIC between recycled and unused screws, while the BV of the former was significantly lower than that of the latter (p < 0.05).ConclusionsThese results indicate that reuse of recycled orthodontic miniscrews may not be feasible from the biomechanical aspect.

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“…Among these procedures is the recently introduced anodic oxidation, which is obtained by immersion of the titanium in an electrolyte solution and by the application of high current voltage [4,5]. Upon anodic oxidation, the titanium surface is covered by a TiO 2 layer [4,5], organized in self-ordered nanotubular structures [2] vertically oriented on the titanium surface with a closed bottom and open top [6]. Notably, the greater the applied current voltage, the thicker and more rough the TiO 2 layer will be [7].…”

Section: Introductionmentioning

confidence: 99%

“…[11]), no previous studies have evaluated the behavior of commercially available products, including the effects of varying the thickness of the TiO 2 layer. Specifically, previous studies on orthodontic miniscrews are limited to the analyses of implant surfaces [5], insertion/removal torque and bone-to-implant contact sites [6][7][8].…”

Section: Introductionmentioning

confidence: 99%

Biological Effects of Anodic Oxidation on Titanium Miniscrews: An In Vitro Study on Human Cells

Iodice¹,

Perinetti

Ludwig³

et al. 2019

Dentistry Journal

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This controlled in vitro study compared the effects of varying the thickness of a TiO2 layer on cellular activity using commercially available miniscrew samples with identical surface features to derive information with direct clinical impact. Titanium grade V plates with four different thicknesses of TiO2 layer/color were used: absent/gray (Control group), 40–50 nm/pink (Pink group), 130 nm/gold (Gold group) and 140 nm/rosé (Rosé group). In vitro experiments used Saos-2 cells and included cell growth analysis, phospho-Histone H3 and procollagen I staining, cell viability analysis, and a cell migration assay at 12, 24, 40 and to 48 h. Few differences were seen among the groups, with no clear behavior of cellular activity according to the TiO2 thickness. The Control group showed a greater cell count. Phospho-Histone H3 staining was similar among the groups and procollagen I staining was greater in the Rosé group. Cell viability analysis showed a significant difference for live cell counts (greater in the Rosé group) and no difference for the dead cell counts. The cell migration assay showed a delay for the Rosé group up to 40 h, where full repopulation of cell-free areas was obtained at 48 h. The results suggest that the TiO2 layers of the commercial miniscrews have minimal biological effects, including cytotoxicity, with possibly negligible or minimal clinical implications.

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Surface changes of anodic oxidized orthodontic titanium miniscrew

Cited by 25 publications

References 21 publications

Mini-implants for Orthodontic Anchorage: Surface Analysis after Redrilling and Sterilization – An in vitro Study

Mini-implants for Orthodontic Anchorage: Surface Analysis after Redrilling and Sterilization – An in vitro Study

Effects of recycling on the biomechanical characteristics of retrieved orthodontic miniscrews

Biological Effects of Anodic Oxidation on Titanium Miniscrews: An In Vitro Study on Human Cells

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