In vitro integrity of implant external hexagon after application of surgical placement torque simulating implant locking

Davi, Letícia Resende; Golin, Alexsander Luiz; Bernardes, Sérgio Rocha; Araújo, Cleudmar; Neves, Flávio Domingues das

doi:10.1590/s1806-83242008000200006

Cited by 19 publications

(30 citation statements)

References 11 publications

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“…In this study, the implants were inserted in self-curing acrylic resin rigid plates in pattern way using liners. It enables a specimen evaluation with appropriately fixed on the acrylic in order to decease external variables that could interfere on the results, as bone type and quality, implant thread macro and micro geometry and eve implant surface treatment [25][26][27][28][29][30] . .…”

Section: Discussionmentioning

confidence: 99%

Evaluaton of hexagon deformation of dental implant regarding to the insertion force

Molina¹,

Neto²,

Oliveira³

et al. 2017

J. res. dent.

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The aim of this study is to evaluate hexagon deformation of dental implant regarding to the insertion force, verifying the external hexagon platforms before and after each torque performed. Thereunto, 25 implants were selected and divided into 5 groups with 5 implants each one; every group received different torque 10N, 20N, 30N, 40N and 100N. A Surgical torque wrench was used, with the implant installation key, what established the insertion force for each group. The platform measurements were carried out before and after apply the torque by analyses of images acquired through implant platforms. We conclude, by this study methodology, 100N forces were able to cause changes on hexagon dimensions; however, it did not damage the prosthesis platform adaptation.

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Section: Discussionmentioning

confidence: 99%

Evaluaton of hexagon deformation of dental implant regarding to the insertion force

Molina¹,

Neto²,

Oliveira³

et al. 2017

J. res. dent.

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show abstract

“…Deformations in the geometry of EH caused by external torque (16) have led to the use of internal torque, since the internal area of the implant exhibits greater resistance as compared to the external area. Therefore, in order to identify possible changes in the internal area of the implant and to exclude interfering variables, the static positioning of the implants into the acrylic model was chosen for the application of torque in this study.…”

Section: Discussionmentioning

confidence: 99%

“…However, the level of changes observed in the EA of both N80 and S40, 0.59% (0.038 mm 2 ) and 0.49% (0.032 mm 2 ) respectively, may affect the correct fit of the prosthesis to the implant. Studies indicate a direct correlation between implant-abutment rotational misfit and screw loosening (10,(16)(17)(18)(19).…”

Section: Hexagon Deformation Subjected To Torquementioning

confidence: 99%

External Hexagon Deformation in Implants Subjected to Internal Torque

Magalhães

Naves

Menezes³

et al. 2015

Braz. Dent. J.

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Failures may occur in the connections of dental implants, especially in external hexagon (EH). Due to the deformations in this portion of implants, this study aimed to evaluate the levels of deformation of EH connections subjected to internal toque. Two types of implants were used: N group and S group. Torques of 0, 32, 45, 60 and 80 Ncm were applied to the N group, and torques of 0, 30, 40, 60 and infinite Ncm were applied to the S group implants. The internal distance (ID), internal area (IA) and external area (EA) of the EH were obtained from digital pictures, which were analyzed by a specific software. Statistical analysis was performed by the Scott-Knott test. The results showed that the higher the torque applied, the greater were the changes in the evaluated dimensions in both groups. In the S group, torque levels equal or greater than 40 Ncm and 30 Ncm caused greater deformation of EA and IA respectively, while in the N group, torque levels equal or greater than 60 Ncm and 32 Ncm caused greater deformation of EA and IA respectively. Levels of deformation were greater in the S group as compared with the N group. These findings suggest that the IA, EA and ID of the EH may be affected by different internal torque levels.

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“…Afterwards, the external hexagon was also shown to work as an antirotational mechanism and to orient the abutment in single tooth prostheses (Davi et al, 2008). The biomechanical complications reported are loosening or fracturing of the abutment and prostheses screws (Merz et al, 2000).…”

Section: External Hexagonmentioning

confidence: 99%

“…However, the weak-link to the fixture of the external hexagon configuration, is often referred as a fail-self mechanism for over-loading situations (Maeda et al, 2006). Davi et al (2008) evaluated the integrity of the external hexagon of an implant system with internal and external hexagons but with prosthetic connection through the external hexagon (internal torque) in comparison with that of an implant system with external hexagon with mount (external hexagon). They concluded that the internal torque implant system may be preferable in clinical situations where implant placement within a certain bone density could generate torques higher than 60 N.cm.…”

Section: External Hexagonmentioning

confidence: 99%

An Overview Regarding Contemporary Biomechanical Aspects on Immediate Loading Dental Implants

Reis¹,

Pinelli²,

Neto³

et al. 2011

Implant Dentistry - A Rapidly Evolving Practice

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In vitro integrity of implant external hexagon after application of surgical placement torque simulating implant locking

Cited by 19 publications

References 11 publications

Evaluaton of hexagon deformation of dental implant regarding to the insertion force

Evaluaton of hexagon deformation of dental implant regarding to the insertion force

External Hexagon Deformation in Implants Subjected to Internal Torque

An Overview Regarding Contemporary Biomechanical Aspects on Immediate Loading Dental Implants

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