AI Article Synopsis
- A standard single implant is commonly used for molar tooth replacement, but using two narrow implants might better handle functional and biomechanical forces.
- The study aimed to analyze and compare how stress is distributed in bone around a single wide implant versus two narrow implants in a molar area using computer-aided modeling and finite element analysis.
- Findings showed that the bone stress around the single implant was lower, suggesting that the broader implant's increased contact area with the bone reduces stress significantly compared to the two narrow implants.
Article Abstract
Statement Of The Problem: In most cases, insertion of single implants with a standard diameter is used to replace a molar tooth but placing two implants with a narrow diameter seems to be a viable treatment modality to withstand functional and biomechanical forces.
Purpose: This study aimed to evaluate and compare stress distribution in the bone surrounding a single molar area rehabilitated by a single implant versus two implants with a narrow diameter.
Materials And Method: The study was conducted by computer-aided modeling. The initial model used a single implant, 4.8 mm wide in diameter, inserted with a 3.9-mm distance from both sides and 12.6-mm mesiodistal space. The second model used two 3.3-mm narrow-sized implants with a 3-mm distance from one another, 1.5 mm from both sides, and a 12.6-mm mesiodistal space. Following the completion of these models, a 100-N force was exerted obliquely, once in three locations and once in the mesial aspect of the implant-supported crown. Stress distribution was then measured using finite element analysis (FEA) with ANSYS Workbench software package in both models.
Results: The maximum stress in the bone around the single implant was less than that around double implants. The maximum stress of cortical bone in three-point loading was lower than mesial loading either in one (146.7 vs. 126.72 MPa) or two implants model (186.8 vs. 139.24).
Conclusion: According to the results, because of more cortical bone contact area, the stress of surrounding bone in wide implant was decreased.
Download full-text PDF |
Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10084560 | PMC |
| http://dx.doi.org/10.30476/dentjods.2022.92584.1659 | DOI Listing |
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