In Vitro Evaluation of Bacterial Adhesion and Bacterial Viability of Streptococcus mutans, Streptococcus sanguinis, and Porphyromonas gingivalis on the Abutment Surface of Titanium and Zirconium Dental Implants.

OBJECTIVE: To evaluate the in vitro adherence and viability of 3 bacterial species Streptococcus mutans (ATCC 25175), Streptococcus sanguinis (ATCC 10556), and Porphyromonas gingivalis (ATCC 33277) on the surfaces of dental implants of titanium, zirconium, and their respective fixing screws. METHODS: Two analysis groups were formed: group 1 with 3 titanium pillars and group 2 with 3 zirconium pillars, each with their respective fixing screws. Each of these groups was included in tubes with bacterial cultures of Streptococcus mutans (ATCC 25175), Streptococcus sanguinis (ATCC 10556), and Porphyromonas gingivalis (ATCC 33277). These samples were incubated at 37°C under anaerobic conditions. Bacterial adherence was assessed by measurement of the change in colony-forming units (CFU), and bacterial viability was evaluated with the colorimetric test of 3-(4,5-dimethylthiazol-2)-2,5 diphenyl tetrazolium bromide (MTT). RESULTS: The bacterial adhesion in the titanium abutments was higher for Streptococcus mutans (190.90 CFU/mL), and the viability was greater in Porphyromonas gingivalis (73.22%). The zirconium abutment group showed the highest adherence with Streptococcus mutans (331.82 CFU/mL) and the highest bacterial viability with the S. sanguinis strain (38.42%). The titanium fixation screws showed the highest adhesion with S. sanguinis (132.5 CFU/mL) compared to the zirconium fixation screws where S. mutans had the highest adhesion (145.5 CFU/mL). The bacterial viability of S. mutans was greater both in the titanium fixation screws and in the zirconium fixation screws 78.04% and 57.38%, respectively. CONCLUSIONS: Our results indicate that there is in vitro bacterial adherence and viability in both titanium abutments and zirconium abutments and fixation screws for both. Streptococcus mutans is the microorganism that shows the greatest adherence to the surfaces of both titanium and zirconium and the fixing screws of the latter. On the contrary, bacterial viability is greater on the titanium abutments with P. gingivalis than on the zirconium abutments with S. sanguinis. With respect to the fixation screws, in both cases, the viability of S. mutans was greater with respect to the other bacteria. In general, the titanium abutments showed less adherence but greater bacterial viability.

Microfiltración coronal según materiales de restauración temporal empleados en endodoncia / Coronal microleakage according to the temporary restorative materials used in endodontic treatment

RESUMEN Introducción: La microfiltración coronal causada por los materiales de restauración temporal es considerada una de las causas del fracaso de los tratamientos endodónticos. A raíz de ello, en los últimos años se ha buscado crear un material de restauración temporal que sea capaz de evitar este problema. Objetivo: Comparar in vitro la microfiltración coronal de un cemento experimental y cuatro materiales de restauración temporal usados en endodoncia. Métodos: Se realizaron cavidades clase I en 90 premolares, divididos en 10 grupos (n= 9) y evaluados en dos periodos de tiempo (1 y 2 semanas). Se realizó la elaboración del cemento experimental, posteriormente se llevó a cabo el sellado coronal de las piezas dentales con el cemento experimental, Clip F (VOCO), Eugenato (MOYCO), Ketac™ Molar Easymix 3M (ESPE) y Coltosol® F. Los especímenes fueron sumergidos en tinta china (Pelikan) durante 1 y 2 semanas. Se evaluó la microfiltración en la interfase pared dentinaria-restauración temporal utilizando un esteromicroscopio (Leica Microsystems LAS EZ versión 2.0.0). La medición se realizó en milímetros en el programa LAS EZ versión 2.0.0. Resultados: Se encontró diferencias estadísticamente significativas (p < 0,05) al comparar la microfiltración coronal de los cinco materiales de restauración temporal, según el tiempo de exposición en tinta (1 y 2 semanas). Conclusiones: El cemento experimental presentó menor microfiltración que el Coltosol® F y Ketac™ Molar EasyMix 3M (ESPE); sin embargo, ninguno de los cuatro materiales fue capaz de prevenir la microfiltración en su totalidad(AU)

ABSTRACT Introduction: Coronal microleakage caused by temporary restorative materials is viewed as one of the reasons for endodontic failure. Efforts have been made in recent years to create a temporary restorative material capable of preventing that problem. Objective: Compare in vitro coronal microleakage of an "experimental cement" and four temporary restorative materials used in endodontics. Methods: Class I cavities were made in 90 premolar teeth divided into 10 groups (n= 9) and evaluated at two time periods (1 and 2 weeks). The "experimental cement" was prepared and then coronal sealing of the teeth was performed with the experimental Cement, F (VOCO), Eugenato (MOYCO), Ketac™ Molar Easymix 3M (ESPE) and Coltosol® F. The pieces were submerged in India ink (Pelikan)for 1 and 2 weeks. Microleakage was evaluated on the interface dentin wall / temporary restoration using a stereo microscope (Leica Microsystems LAS EZ version 2.0.0). Measurement was made in millimeters using the software LAS EZ version 2.0.0. Results: Statistically significant differences were found (p < 0.05) when comparing coronal microleakage in the five temporary restorative materials according to exposure time in ink (1 and 2 weeks). Conclusions: The experimental cement had less microleakage than Coltosol® F and Ketac™ Molar EasyMix 3M (ESPE). However, none of the four materials was capable of completely preventing microleakage(AU)