The cross‐pin retained implant supported restoration: a study of gasket placement and leakage

Sambrook, R; Judge, Roy

doi:10.1111/j.1834-7819.2012.01730.x

Cited by 5 publications

(13 citation statements)

References 20 publications

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“…The location of the stress in the neck of the prosthetic screw of the transocclusal screw model and in its head coincides with the area most prone to the loosening/fracturing described in other studies, while in the transversal screw, the stress is primarily located in the area connecting to the abutment, indicating that this screw can bring the retainer closer towards the margin of the implant. This leads to a reduction in misfit, which in turn clinically hinders the filtration and colonization of bacteria . In accordance with what has been stated here, the clinical application of this is that the practitioner may choose a transversal screw model with a view to achieving fewer mechanical complications in the prosthetic screw model—including with oblique loads—compared with those encountered with the transocclusal screw model.…”

Section: Discussionmentioning

confidence: 99%

“…Different biomechanics studies show that the stress on the prosthetic components (abutment and screws) of a single‐unit prosthesis is mainly found in the conical connection between the abutment and the implant and in the neck and first threads of the abutment screw or along the threads of the transocclusal screw . However, no data is available for the stress on the implant‐retained prosthesis of a transversal screw model; the information available shows only the description and method results of clinical cases . Furthermore, determining the distribution and the location of the highest concentration of stress in the prosthetic components has clinical interest inasmuch as it can provide data to help implement designs that offer greater resistance and optimum stress distribution in order to avoid or prevent mechanical and technical risks.…”

Section: Introductionmentioning

confidence: 99%

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Does the transversal screw design increase the risk of mechanical complications in dental implants? A finite elements analysis

Lasheras

Rodríguez

Mauvezín-Quevedo

et al. 2019

Numer Methods Biomed Eng

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The transversal screw was introduced in order to overcome some disadvantages of the transocclusal screw. However, its mechanical risk has not been studied sufficiently. The main purpose of this research was to assess and compare stress distribution in the screws and abutment of a single-crown implant with transversal and transocclusal screw models. Two 3D models were assembled to analyse a single-implant-supported prosthesis with transversal and transocclusal screws embedded in the jawbone. The crown was subjected to a static load of value 300 N with different levels of inclination. The transversal screw model, with an axial load of 15°, was the one with lowest stress values in all its components. However, the stress was greater with more inclined loads

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Does the transversal screw design increase the risk of mechanical complications in dental implants? A finite elements analysis

Lasheras

Rodríguez

Mauvezín-Quevedo

et al. 2019

Numer Methods Biomed Eng

View full text Add to dashboard Cite

show abstract

“…Several implant systems have been evaluated aiming to combine optimal mechanical, biological, and aesthetics of the prosthesis, reducing the above-mentioned disadvantages [ 11 ]. One of the previous purposed retention types was the lateral-screw-retained implant prosthesis in which an extra lateral screw is used to retain the crown instead of the conventional screw accessed through the occlusal surface [ 12 ]. This technique has been first purposed in 1995 [ 13 ], named as lingual locking screw.…”

Section: Introductionmentioning

confidence: 99%

Effect of crown retention systems and loading direction on the stress magnitude of posterior implant-supported restorations: A 3D-FEA

Tribst,

de Jager,

Dal Piva

et al. 2024

Heliyon

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“…Limiting the system is the additional space requirement, which increases the risk of soft tissue complications, and the need for a more voluminous screw channel that enables the screwdriver to be inserted correctly, which can lead to a thinning of the veneering materials and possibly to technical or esthetic problems [30]. Similar problems arise for horizontal screw connections and cross-pin retained restorations [31].…”

Section: Introductionmentioning

confidence: 99%

3D-based buccal augmentation for ideal prosthetic implant alignment—an optimized method and report on 7 cases with pronounced buccal concavities

et al. 2022

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Objectives Screw-retained restoration of implants is advantageous for biological and esthetic reasons. Due to buccal concavities, however, this preferred type of restoration can only be used in about half of the anterior indications. Based on case series, an optimized method for the treatment of such indications is to be described; the clinical reliability is to be ascertained by means of measurements (before and after augmentation) and assigned to the current literature. Material and methods A case series of seven cases with buccal concavities of the anterior alveolar ridge were treated with optimized method, which is presented step-by-step until the prosthetic restoration. The depths of the bone concavities were measured and related to the bone gain after augmentation procedure respectively after implantation. Results Linear measurements of the buccal concavities showed an average undercut of 4 mm [SD ± 1.13]. After healing period of six months, the buccal concavities could be compensated bony to such an extent that implants could be inserted in correct position and angulation. On average, there was a horizontal bone gain of 3.7 mm [SD ± 0.59]. Even after implantation and another six months of healing, stable bone dimensions could be assumed with an average of 4.3 [SD ± 0.83] mm of bone gain compared to baseline. In six of the seven cases, the favorite screw-retained, one-piece full-ceramic restoration could be fixed on the implants. Due to the implant axis, one case had to be treated with a cemented two-part full-ceramic system. Conclusions With the described optimized method the most favorable screw-retained restoration can also be used in situations with unfavorable concavities of buccal bone. Especially for this indication, a special form of the horizontal deficit, the customized bone regeneration with titanium meshes is highly reliable in terms of healing and extent of augmentation. However, long-term results and a study/control group are required to evaluate the effectiveness of the presented protocol. Clinical relevance. Since these situations require an augmentation that is up to 5 mm thick and a procedure that is as minimally invasive as possible appears to be necessary in the visible area, an optimized method is described in this publication.

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The cross‐pin retained implant supported restoration: a study of gasket placement and leakage

Cited by 5 publications

References 20 publications

Does the transversal screw design increase the risk of mechanical complications in dental implants? A finite elements analysis

Does the transversal screw design increase the risk of mechanical complications in dental implants? A finite elements analysis

Effect of crown retention systems and loading direction on the stress magnitude of posterior implant-supported restorations: A 3D-FEA

3D-based buccal augmentation for ideal prosthetic implant alignment—an optimized method and report on 7 cases with pronounced buccal concavities

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