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, Saeed Sabzevari , Afsane Mokhtari , Hamidreza Rajati Haghi , Hemmat Gholinia Ahangar , Maryam Rezaei Dastjerdi *
Introduction: Accurate impressions are essential for implant restoration. Intraoral scanner (IOS) have become well-established for capturing digital impressions. The aim of this study was to evaluate the trueness and Precision of IOS in capturing implant position in a partially edentulous maxilla.
Methods & Materials: Six implant analogs (DIO Implant. UF) in three maxillary acrylic models with Kennedy class 2 edentulousness (in canine, premelars, and molars area) were placed in three groups A: 10 mm inter-implant distance (IID), B: 20 mm ID and C: 30 mm IID. After fixing the scan bodies, 10 digital impressions were recorded for each three models using IOS (TRIOS 3Shape). In addition, one scan per model was performed with the laboratory scanner (Smart Optic activity 885), and STL (Standard Tessellation Language) files were collected. All files were analyzed using Geomagic Control software. Accuracy was assessed by comparing IOS data with high-precision laboratory scanner data and the repeatability of IOS within groups.
Results: Inter-implant distance Reduced IOS trueness between all three groups significantly (p < 0.01). The accuracy was greatest at the 10 mm inter-implant distance through IOS. Mean IOS precision was higher in the 10 mm group, but this differences was not significant.
Conclusion: Despite in vivo limitations, this study shows that larger inter-implant distances reduces IOS trueness and precision for space implant impressions, potentially affecting digital impression accuracy and prosthetic outcome.
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