The change of rotational freedom following different insertion torques in three implant systems with implant driver

Kwon, Joon Ho; Han, Chao; Kim, Sunjai; Chang, Jihoon

doi:10.4047/jap.2009.1.1.37

Cited by 16 publications

(27 citation statements)

References 6 publications

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“…Rotational freedom of maximum 5 degrees is necessary for optimum stability between the hexagon of the prosthetic abutment and the implant. When rotational freedom exceeds 5 degrees, the torque needed to loosen the contact of implant‐prosthetic abutment is greatly reduced …”

Section: Discussionmentioning

confidence: 99%

“…When rotational freedom exceeds 5 degrees, the torque needed to loosen the contact of implant-prosthetic abutment is greatly reduced. [62][63][64] The rotational freedom between internal and external hexagon was examined in a pilot study in conjunction with the prosthetic abutment. The external hexagon presented greater rotational freedom (5.5 degrees) compared to the internal hexagon (2.9 degrees).…”

Section: Rotational Freedommentioning

confidence: 99%

See 1 more Smart Citation

Loosening of the fixing screw in single implant crowns: predisposing factors, prevention and treatment options

Kourtis

Damanaki

Kaitatzidou

et al. 2017

J Esthet Restor Dent

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The problem of technical complications in implants and implant-supported restorations has existed for decades. The most frequent complication is the loosening of the fixing screw which, although is not catastrophic, if it occurs repeatedly, it may affect the success of the implant therapy and the patient satisfaction. Factors that affect the frequency of prosthetic complications include: the implant-abutment connection, para-functional habits, cantilevers and the type of restoration. The treatment options for the clinician are limited but certain preventing measures during construction of the restoration may be helpful to overcome this clinical problem.

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Section: Discussionmentioning

confidence: 99%

Section: Rotational Freedommentioning

confidence: 99%

Loosening of the fixing screw in single implant crowns: predisposing factors, prevention and treatment options

Kourtis

Damanaki

Kaitatzidou

et al. 2017

J Esthet Restor Dent

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show abstract

“…The implant-abutment connection is most stable when the degree of rotational freedom is less than 2 , 66 and significant torque loss occurs when the degree is greater than 5 . [67][68][69][70] The anti-rotation design of the abutment can limit the rotational freedom, thereby maintaining well the stability of the joint. In the experiment of Yao et al, 71 all the abutments without anti-rotation design were rotated after cyclic loading, and fatigue fracture was observed.…”

Section: The Geometrical Morphology Materials Used and Manufacturimentioning

confidence: 99%

Mechanism of and factors associated with the loosening of the implant abutment screw: A review

Huang

Wang

2019

J Esthet Restor Dent

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Objective While the loosening of the abutment screw is one of the most common complications in implant‐supported restorations, there is a lack of comprehensive literatures for mechanism of and factors associated with the loosening of the implant abutment screw. The review was to summarize the mechanism of and factors associated with the loosening of the implant abutment screw. Overview A total of 99 relevant articles were included in the literature review. The mechanism of the abutment screw loosening was explained. The factors contributed to abutment screw loosening were divided into five aspects and then expounded respectively. Conclusions The internal connection and abutments with anti‐rotational and conical designs have better resistance to screw loosening. Cantilevers increase the risk of screw loosening. The effect of surface treatment of the abutment screw is unsure. Clinicians need to tighten the abutment screw to the recommended torque while avoiding repeated tightening and loosening, and increase the frequency of follow‐ups to retighten the loosened screws in time. Clinical Significance While the loosening of the abutment screw is one of the most common complications in implant‐supported restorations, there is a lack of comprehensive literatures for mechanism of and factors associated with the loosening of the implant abutment screw. The review was to summarize the mechanism of and factors associated with the loosening of the implant abutment screw, so that clinicians may make better choices in clinical practice.

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“…Over the past several decades, due to the reliable functional and aesthetic results, dental rehabilitation with implants has been widely accepted by dentists and patients. Conventionally, the implant/abutment interface is described as external or internal connection 2 . A review of existing literature has shown that amongst the cylindrical type of dental implants, the internal implant-abutment connections are greatly preferred.…”

Section: Introductionmentioning

confidence: 99%

How do differences of dental implants' internal connection systems affect stress distribution?: A 3-dimensional finite element analysis

Zincir

Karapinar²,

Ünür

et al. 2019

Balkan J Dent Med

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Summary Background/Aim: A factor affecting the success rate of dental implants, which has been used successfully for many years, is the implant-abutment connection system. The purpose of this study was to evaluate the stress distribution of different implant-abutment connection systems under different forces. Material and Methods: This in vitro study included a finite element analysis. In the study, the cylindrical and screwed dental implants available in 3 different diameters from 4 different companies were categorized into 12 different models. Two different scenarios of force application were conducted on each model in this study. In the first scenario, 100 N force and 100 N moment were applied in a vertical direction onto a point considered as the center of each tooth. In the second scenario, a 100 N force and moment were applied at a 45° angle in an oblique direction. Results: As a result of the forces applied to dental implants of different diameters from different companies, octagon implant-abutment connection systems had less stress accumulation than hexagon implant-abutment connection systems. In addition, when stress accumulation ratios were evaluated according to the diameter of the implants used, it was observed that 3 mm diameter implants accumulated more stress in bone than 4 mm diameter implants; there was no significant difference between 4 mm diameter implants and 5 mm diameter implants. Conclusions: Implant-abutment connection system is important for the longevity of implants under the forces. Therefore, this factor should be considered during implant selection.

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The change of rotational freedom following different insertion torques in three implant systems with implant driver

Cited by 16 publications

References 6 publications

Loosening of the fixing screw in single implant crowns: predisposing factors, prevention and treatment options

Loosening of the fixing screw in single implant crowns: predisposing factors, prevention and treatment options

Mechanism of and factors associated with the loosening of the implant abutment screw: A review

How do differences of dental implants' internal connection systems affect stress distribution?: A 3-dimensional finite element analysis

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