An Overview of the Mechanical Integrity of Dental Implants

Shemtov‐Yona, Keren; Rittel, D.

doi:10.1155/2015/547384

Cited by 67 publications

(54 citation statements)

References 38 publications

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“…Even the best results in laboratory testing and FEA cannot guarantee clinical success, if the basic biomechanical principles are not taken into consideration during insertion and loading. The leading cause of dental implant loss is considered to be of biological nature but mechanical complications (implant fracture, abutment screw fracture, and abutment fracture) are almost as important [9,10]. Failure can also come from an incorrect prosthetic plan (no metal framework in OD, Cantilever > 15 mm, extreme length of the reconstruction, splinting teeth and implants, ignoring the patient's anatomy and function ( Figure 2) etc.)…”

Section: Background and Aimsmentioning

confidence: 99%

“…The most frequently taken into account local parameters concerning the implant are related to diameter, length and angulation, dictated by the bone anatomy. Also, the implant design is taken into consideration, especially when evaluating the bone quality (density) [9,12]. Practitioners are also increasingly aware of the implant surface treatment, with a considerable effect on osseointegration and function [13].…”

Section: Background and Aimsmentioning

confidence: 99%

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Principles of biomechanics in oral implantology

Manea

Bran

Dinu

et al. 2019

Medicine and Pharmacy Reports

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Background and aims. The principles of biomechanics comprise all the interactions between the body (tissues) and the forces acting upon it (directly or via different medical devices). Besides the mechanical aspects, the tissues response is also studied. Understanding and applying these principles is vital for the researchers in the field of oral implantology, but they must be equally known by the practitioners. From the planning stages to the final prosthetic restoration, they are involved in each and every aspect. Ignoring them inevitably leads to failure.Methods. The first part of this paper includes a review of our current research in oral implantology (mechanical, digital and biological testing), while the second part includes a review of the available literature on certain biomechanical aspects and their implications in everyday practice.Results. Our research opens new study directions and provides increased chances of success for dental implant therapy. The practical aspects of our findings, combined with the available literature (from the basic principles described more than 40 years ago to the most recent studies and technologies) can serve as a guide to practitioners for increasing their success rate. Conclusion.While no therapy is without failure risk, a good understanding of the biomechanics involved in oral implantology can lead to higher success rates in implant supported prosthetic restorations.

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Section: Background and Aimsmentioning

confidence: 99%

Section: Background and Aimsmentioning

confidence: 99%

Principles of biomechanics in oral implantology

Manea

Bran

Dinu

et al. 2019

Medicine and Pharmacy Reports

View full text Add to dashboard Cite

show abstract

“…[3,4] At a biological level, osseointegration is defined as close contact between the implant surface and the surrounding bone. [5,6] This is strictly dependent on the surface geometry and topography of the device.…”

Section: Introductionmentioning

confidence: 99%

Non-Washed Resorbable Blasting Media (NWRBM) on Titanium Surfaces could Enhance Osteogenic Properties of MSCs through Increase of miRNA-196a And VCAM1

Gardin

Ferroni

Piattelli

et al. 2016

Stem Cell Rev and Rep

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Surface topography of Titanium (Ti) dental implants strongly influences osseointegration. In the present work, we have analyzed the influence of two Ti implant surfaces characterized by similar microtopography but different nanotopography and chemistry on the osteoblastic phenotype of Dental Pulp Stem Cells (DPSCs). The effect on osteogenic differentiation, extracellular matrix (ECM) and cell adhesion molecules production have been evaluated by means of molecular biology analyses. The morphology of the cells grown onto these surfaces has been analyzed with SEM and immunofluorescence (IF), and the safety of the surfaces has been tested by using karyotype analysis, Ames test and hemocompatibility assay. Results showed that starting from 15 days of DPSCs culture, a substantial expression of osteoblast specific markers and a strong increase of cell adhesion molecules can be detected. In particular, when DPSCs are seeded on the Ti implants expression of microRNA (miRNA)-196a, which is involved in osteoblastic commitment of stem cells, and of Vascular Cell Adhesion Molecule 1 (VCAM1), a factor involved in angiogenesis, is strongly enhanced.

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“…The main issue in implant osseointegration is surface irregularity, that demonstrated to raise osteoblast action in contrast to a smooth surface (7) . Surface roughness of the implant has been improved via different means as machining, plasma spray coating, grit blasting, acid etching, sandblasted and acid etching (SLA), anodizing, and biomimetic coating (8,9) .…”

mentioning

confidence: 99%

Evaluation of Topical Application of Nigella Sativa (Black Seeds) on Delayed Dental Implant

Ahmed¹,

Attia²,

Mahmoud³

et al. 2020

ADJ-for Girls

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Purpose: The present study was conducted to evaluate the effect of topically applied Nigella Sativa (Black Seeds) on osseointegration of delayed dental implant in an effort to improve outcomes of dental implants. Subjects and Methods: The current study was performed on twelve (12) healthy patients that were divided randomly into two groups: Group 1 (Test group) included six (6) patients with delayed implant insertion with the topical use of nigella sativa; Group 2 (Control group) included six (6) patients with delayed implant insertion without the use of nigella sativa. Results: A non-statistically significant difference was recorded in clinical parameters after three and six months follow up in both groups. Test group showed a highly significant increase in its bone density after six months in comparison with control group. Conclusion: The topical use of nigella sativa in delayed dental implant showed an improvement in peri-implant tissues. INTRODUCTION Dental implant is a valuable management approach in complete or partially edentulous patients, playing an important role in orofacial anatomic contour reconstruction, health, function, and esthetic (1,2) .

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An Overview of the Mechanical Integrity of Dental Implants

Cited by 67 publications

References 38 publications

Principles of biomechanics in oral implantology

Principles of biomechanics in oral implantology

Non-Washed Resorbable Blasting Media (NWRBM) on Titanium Surfaces could Enhance Osteogenic Properties of MSCs through Increase of miRNA-196a And VCAM1

Evaluation of Topical Application of Nigella Sativa (Black Seeds) on Delayed Dental Implant

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