Investigation of the influence of design details on short implant biomechanics using colorimetric photoelastic analysis: a pilot study

Introduction : The clinical survival of a dental implant is directly related to its biomechanical behavior. Since short implants present lower bone/implant contact area, their design may be more critical to stress distribution to surrounding tissues. Photoelastic analysis is a biomechanical method t...

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Veröffentlicht in:	Research on biomedical engineering 2015-12, Vol.31 (4), p.313-318
Hauptverfasser:	Zielak, João César, Archetti, Felipe Belmonte, Scotton, Ricardo, Filietaz, Marcelo, Storrer, Carmen Lucia Mueller, Giovanini, Allan Fernando, Deliberador, Tatiana Miranda
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container_title	Research on biomedical engineering
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creator	Zielak, João César Archetti, Felipe Belmonte Scotton, Ricardo Filietaz, Marcelo Storrer, Carmen Lucia Mueller Giovanini, Allan Fernando Deliberador, Tatiana Miranda
description	Introduction : The clinical survival of a dental implant is directly related to its biomechanical behavior. Since short implants present lower bone/implant contact area, their design may be more critical to stress distribution to surrounding tissues. Photoelastic analysis is a biomechanical method that uses either simple qualitative results or complex calculations for the acquisition of quantitative data. In order to simplify data acquisition, we performed a pilot study to demonstrate the investigation of biomechanics via correlation of the findings of colorimetric photoelastic analysis (stress transition areas; STAs) of design details between two types of short dental implants under axial loads. Methods Implants were embedded in a soft photoelastic resin and axially loaded with 10 and 20 N of force. Implant design features were correlated with the STAs (mm2) of the colored fringes of colorimetric photoelastic analysis. Results Under a 10 N load, the surface area of the implants was directly related to STA, whereas under a 20 N load, the surface area and thread height were inversely related to STA. Conclusion A smaller external thread height seemed to improve the biomechanical performance of the short implants investigated.
doi_str_mv	10.1590/2446-4740.0630
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Since short implants present lower bone/implant contact area, their design may be more critical to stress distribution to surrounding tissues. Photoelastic analysis is a biomechanical method that uses either simple qualitative results or complex calculations for the acquisition of quantitative data. In order to simplify data acquisition, we performed a pilot study to demonstrate the investigation of biomechanics via correlation of the findings of colorimetric photoelastic analysis (stress transition areas; STAs) of design details between two types of short dental implants under axial loads. Methods Implants were embedded in a soft photoelastic resin and axially loaded with 10 and 20 N of force. Implant design features were correlated with the STAs (mm2) of the colored fringes of colorimetric photoelastic analysis. 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title	Investigation of the influence of design details on short implant biomechanics using colorimetric photoelastic analysis: a pilot study
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