Purpose: To evaluate the survival rates and risk factors associated with resorbable blast media (RBM) surface dental implants. Materials and Methods: A total of 1,130 RBM surface implants with hybrid macrogeometry were placed in 260 patients, with a follow-up ranging from a minimum of 26 months to a maximum of 120 months. Implant survival and failure rates were analyzed over an average 60-month follow-up. Failure rates were examined based on implant length, patient sex, and sinus elevation procedures. Additional factors such as patient age, implant placement timing (immediate vs delayed), GBR, implant diameter, and implant location were assessed to determine their impact on long-term implant success. Results: The overall survival rate for the implants was 94.4%, with most failures occurring within the first 12 months postoperatively. Male patients experienced significantly higher failure rates (7.36%) than female patients (4.0%). Short implants (8 mm) were particularly vulnerable to failure, with an 8.65% failure rate. Sinus augmentation procedures also presented an increased risk, with 10% failure for lateral sinus augmentation and 9.78% failure for crestal sinus elevation. In contrast, factors such as patient age, timing of implant placement, GBR, implant diameter, and implant location did not significantly influence failure rates. Notably, narrow-diameter implants (3.3 and 3.7 mm; n = 97) in the molar region did not increase the risk of failure, with only 5 experiencing failure. Failures after prosthetic loading were most common after about 3 years. Conclusions: This study confirms the long-term viability of RBM surface implants, with high survival rates when early failures are mitigated. Short implants and sinus elevation procedures pose greater risks of failure, particularly in the early stages. However, simultaneous GBR and sinus elevation procedures did not significantly impact long-term outcomes, affirming the safety and efficacy of these complex interventions.
Schlagwörter: failure analysis, guided bone regeneration, immediate loading, immediate placement, implant survival, RBM surface, sinus elevation