Revista de Odontologia da UNESP
https://revodontolunesp.com.br/article/doi/10.1590/1807-2577.07520
Revista de Odontologia da UNESP
Original Article

Análise físico-química da superfície de titânio após tratamento químico de descontaminação com clorexidina: estudo in vitro

Physical and chemical analysis of the titanium surface after chemical treatment of decontamination with chlorexidine: in vitro study

Eduardo Henrique de Souza OLIVEIRA; Marcelo Yudi SAKAMOTO; Giovana CARNEIRO; Viviane Maria RANKEL; Geisla Mary Silva SOARES; Humberto Osvaldo SCHWARTZ-FILHO

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Resumo

Resumo: Introdução: Tratamentos têm sido propostos para a peri-implantite com o objetivo de descontaminar a superfície dos implantes, removendo microrganismos que podem estar associados à doença.

Objetivo: O objetivo deste estudo foi avaliar a ação in vitro de diferentes métodos de aplicação de digluconato de clorexidina (CLX) na descontaminação de discos de titânio (Ti) com microtopografia e seu efeito físico-químico sobre a superfície.

Material e método: Vinte discos de Ti foram expostos a inóculo de Escherichia coli por 24 horas. Foram distribuídos em quatro grupos de descontaminação (n=5): 1 - um minuto de exposição à solução de CLX 0,12%; 2 - dois minutos de exposição à solução de CLX 0,12%; 3 - esfregaço durante um minuto com gel de CLX 1%; 4 - esfregaço durante um minuto com gel de CLX 2%. O produto de cada disco foi diluído e plaqueado individualmente. Após 24 horas, realizou-se contagem das unidades de colônias formadas (UFC).

Resultado: O grupo com o menor número de crescimento de UFC foi o grupo 4 (0,20±0,37), com apenas UFC em uma das amostras. Seguido do grupo 2 (0,40±0,73), grupo 1 (18,60±33,96). O grupo 3 apresentou as maiores quantidades de UFC (36,07±41,39). Em todas as amostras, foi possível observar uma diminuição estatisticamente significante da concentração superficial de Ti, assim como um aumento de Oxigênio.

Conclusão: Pode-se concluir que o uso de CLX gel a 2% em superfícies de Ti com microtopografia contaminadas com E. coli propicia a eliminação das UFC e que sua aplicação resulta em diminuição do percentual de Ti e aumento do teor de O.

Palavras-chave

Clorexidina, peri-implantite, implante dentário

Abstract

Abstract: Introduction: Treatments have been proposed for peri-implantitis aiming to decontaminate the implants` surface removing microorganisms associated with the disease.

Objective: The objective of this study was to evaluate the in vitro action of application of chlorhexidine digluconate (CLX) in the decontamination of titanium (Ti) discs with microtopography and its chemical-physical effect on the surface.

Material and method: Twenty Ti discs were exposed to the Escherichia coli inoculum for 24 hours. Distributed equally in 4 decontamination groups (n = 5): 1- one minute of exposure to the 0.12% CLX solution; 2- two minutes of exposure to the 0.12% CLX solution; 3- smear for 1 minute with 1% CLX gel; and 4- smearing for 1 minute with 2% CLX gel. The product was diluted and plated individually. After 24 hours, colony units formed (CFU) were counted.

Result: The group with the lowest number of CFU growth was group 4 (0.20 ± 0.37) with only one CFU in one of the samples. Followed by group 2 (0.40 ± 0.73), group 1 (18.60 ± 33.96), and group 3, which presented the highest amounts of CFU (36.07 ± 41.39). In all samples it was possible to observe a statistically significant decrease in the surface concentration of Ti, as well as an increase in Oxygen.

Conclusion: It can be concluded that the use of 2% CLX gel on Ti surfaces with microtopography contaminated with E.coli allows the elimination of CFU, and that its application results in a decrease in the percentage of Ti and an increase in the content of O.
 

Keywords

Chlorhexidine, peri-implantitis, dental implants

References

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Submitted date:
12/10/2020

Accepted date:
12/15/2020

6081e8dea95395178357f862 rou Articles
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