The Bacterial Sealing Capacity of Morse Taper Implant–Abutment Systems in Vitro

Background: The use of Morse taper systems in dental implantology has been associated widely with a more precise adaptation between implants and their respective abutments. This may lead to an increase in the stability of the implant system and may also prevent microbial invasion through the implant–abutment interface. The aim of this study was to investigate in vitro the ability of four commercially available Morse taper system units to impede bacterial penetration through their implant–abutment interfaces. Methods: Abutments were screwed onto the implants, and the units were subsequently immersed in Streptococcus sanguinis bacterial broth (1 × 10 8 colony forming units/mL) for 48 hours. The units were examined by scanning electron microscopy (SEM) under three conditions: 1) with the implant–abutment components assembled as units to investigate for both the existence of microgaps and the presence of bacteria; 2) with the implants and abutments separated for examination of internal surfaces; and 3) with the implant–abutment components again assembled as units to measure any microgaps detected. The mean size of the microgaps in each unit was determined by measuring, under SEM, their width in four equidistant points. Results: Microgaps were detected in all units with no significant differences in dimension (Kruskal‐Wallis test, P >0.05). Within all units, the presence of bacteria was also observed. Conclusion: The seals provided by the interfaces of the commercially available Morse taper implant–abutment units tested were not sufficiently small to shield the implant from bacterial penetration.