Tehran University of Medical Sciences

Science Communicator Platform

Stay connected! Follow us on X network (Twitter):
Share this content! By
Finite Element Assessment of a Novel Patient-Specific Mandibular Implant for Severely Atrophic Ridge Publisher Pubmed



A Parhiz ALIREZA ; R Nourishirazi REZA ; A Asadi AMIRALI ; M Karimpour MORAD
Authors

Source: BioMed Research International Published:2024


Abstract

Purpose: Dental reconstruction for patients diagnosed with severe mandibular bone atrophy using common dental implants is a challenging process. In such cases, surgeons may encounter challenges such as insufficient available bone, soft tissue, damage to the inferior alveolar nerve, and even the risk of bone fracture. In this study, a new design concept of mandibular patient-specific implants for severely atrophic ridges followed by finite element evaluation was presented to investigate the mechanical functionality of the concept.Method: The implant is comprised of two modular parts including an inferior border cover and a horseshoe-shaped structure. This horseshoe segment fits into the cover and is then screwed to it using two screws on each side. A 1 mm deflection was applied to a reference point located between the two anterior posts to extract the resulting Von Mises stress distribution in each part and the reaction force on the reference point which corresponds to the chewing force that the patient must apply to deform the horseshoe. This 1 mm gap is a design consideration and critical distance that horseshoe contacts the gingiva and disturbs the alveolar nerve.Results: The results revealed that load was transmitted from the horseshoe to the cover, and there were no stress contours on the body of the mandible. However, stress concentration was observed in screw locations in the mandible, the amount of which was decreased by increasing the number of used screws. In horseshoe, stress concentration values were around 350 MPa, and the measured reaction force on the reference point was just under 200 N.Conclusion: The finite element analysis results showed that this concept would be functional as the minimum load would be transmitted to the mandibular ridge, and since the patients diagnosed with atrophic ridge are not able to apply load to an amount near 200 N, the horseshoe would not contact the gingiva. Also, it is concluded that increasing the number of bone screw fixations would decrease the risk of long-term screw loosening. © 2024 Elsevier B.V., All rights reserved.
Related Docs
View other Related Docs
1. The Role of Lingual Frame on Stability of Mandibular Subperiosteal Implant: A Patient-Specific Finite Element Study, 2023 30th National and 8th International Iranian Conference on Biomedical Engineering# ICBME 2023 (2023)
2. The Effect of Mandibular Flexure on Stress Distribution in the All-On-4 Treated Edentulous Mandible: A Comparative Finite-Element Study Based on Mechanostat Theory, Journal of Long-Term Effects of Medical Implants (2019)
3. Finite Element Analysis of Stress Distribution on Residual Root Structure in Socket Shield Procedure Following Immediate Dental Implant Placement: An in Vitro Study, BMC Oral Health (2024)
Experts (# of related papers)
View all Related Experts
Allahyar Geramy (4)
Ata Garajei (2)
Other Related Docs
4. Mandibular Overdentures Supported by Two Vs Four Endosteal Implants: A Retrospective Cohort Study, Journal of Contemporary Dental Practice (2019)
5. Stress Distribution in Splinted and Unsplinted Implant-Supported Maxillary Overdentures: A 3D Finite Element Analysis, Implant Dentistry (2018)
6. Improved Ridge Width With Tenting Screw Bone Augmentation Using Particulate and Block Grafts: A Case Report, SAGE Open Medical Case Reports (2024)
7. New Dental Implants With Micro-Movement Capability - Biomechanical Evaluation and Evolution, 2021 29th Iranian Conference on Electrical Engineering# ICEE 2021 (2021)
8. Mandibular Reconstruction System Reliability Analysis Using Probabilistic Finite Element Method, Computer Methods in Biomechanics and Biomedical Engineering (2021)
9. Screw Loosening of Original and Non-Original Abutments in Implant Dentistry: An in Vitro Study, Journal of Osseointegration (2022)
10. Biomechanical Evaluation of Reconstructed Extensive Mandibular Defects by Different Models Using Finite Element Method, Journal of Mechanics in Medicine and Biology (2020)
11. Treatment of Skeletal Anterior Open Bite Using Absolute Anchorage: A Case Report and Review, Journal of Mazandaran University of Medical Sciences (2022)
12. Comparative Evaluation of the Effect of Implant Crown Materials on Implant Components and Bone Stress Distribution: A 3D Finite Element Analysis, International Journal of Dentistry (2023)
13. Splinting Anterior Teeth With Periodontal Bone Loss: 3D Analysis Using Finite Element Method, Oral Pathology and Oral Medicine (2015)
14. Application and Analysis of Customized Bone Graft of a Patient Undergoing Mandible Augmentation and Dental Implantation, Journal of Mechanics in Medicine and Biology (2023)
15. Effect of Occlusal Scheme and Bone-Level Implant Number and Position on Stress Distribution in Kennedy Class Ii Implant-Assisted Removable Partial Dentures: A 3D Finite Element Analysis, Clinical and Experimental Dental Research (2025)
16. Bone Stress and Strain Modification in Diastema Closure: 3D Analysis Using Finite Element Method, International orthodontics (2015)
17. Effect of Implant Connection Type and Depth on the Seating Accuracy of Hand-Tightened Abutments, Journal of Prosthodontics (2019)
18. Inferior Alveolar Nerve Medialization for Dental Implant Placement: Case Report With the Introduction of a New Technique, International Journal of Oral and Maxillofacial Implants (2018)
19. Effect of Bone Quality and Osseointegration on Stress Distribution in the Bone Tissue Surrounding Dental Implant: A Finite Element Analysis, Journal of Osseointegration (2023)
20. Comparison of Stress Distribution in Alveolar Bone With Different Implant Diameters and Vertical Cantilever Length Via the Finite Element Method, Journal of Long-Term Effects of Medical Implants (2019)