PMID- 33625384 OWN - Quintessenz Verlags-GmbH CI - Copyright Quintessenz Verlags-GmbH OCI - Copyright Quintessenz Verlags-GmbH TA - Int J Prosthodont JT - The International Journal of Prosthodontics IS - 1942-4426 (Electronic) IS - 0893-2174 (Print) IP - 1 VI - 36 PST - ppublish DP - 2023 PG - 59-62 LA - en TI - O-Ring Attachments on One-Piece Mini Dental Implants: In Vitro Analysis of Retention Force Reproducibility Using Different Pristine Matrix- O-Ring Combinations LID - 10.11607/ijp.7055 [doi] FAU - Abou-Ayashmed, Samir AU - Abou-Ayashmed S FAU - Schimmel, Martin AU - Schimmel M FAU - Worni, Andreas AU - Worni A FAU - Enkling, Norbert AU - Enkling N CN - AB - Purpose: To analyze the influence of pristine matrix and O-ring dimensions on retention force and its reproducibility in single one-piece mini dental implants (MDIs) with ball patrices under in vitro conditions. Materials and Methods: Three different matrix/O-ring combinations (MH1, MH2, and MH3) were evaluated (n = 50 measurements each) on 1.8-mm–diameter implants. The matrices were manually mounted on the implants and subsequently removed in a vertical linear manner using a metal pin with two strain gauges, which recorded the maximum force during disconnection. The O-rings were exchanged after five disconnections, and the mean retention force was calculated, resulting in a total of 50 values for each matrix/O-ring combination. Mean and SD retention forces with 95% CI were calculated. ANOVA was used to test the global difference, and post hoc pairwise comparisons were subsequently applied. The level of significance was set at P < .05. Results: ANOVA (global P < .0001) and pairwise comparisons (all P < .001) demonstrated statistically significant differences between the three different matrix/O-ring combinations with mean values of 5.18 N (MH 1), 6.73 (MH 2), and 9.08 (MH 3). Within each combination, retention force variations of > 1 N could not be demonstrated; ie, by exchanging O-rings, a similar retention force can be reestablished. Conclusion: Matrix and O-ring dimensions have a significant influence on retention forces in one-piece MDIs. Pristine O-rings demonstrated highly reproducible initial retention forces in all matrices. AID - 1056535