Análisis bacteriológico de piezas de mano de alta velocidad utilizadas en la práctica clínica / Bacteriological analysis of high speed handpieces used in clinical practice

Los profesionales de la salud están expuestos a una gran variedad de microorganismos desde esporas, bacterias, hongos, virus y protozoarios que pueden encontrarse en la sangre y/o saliva de los pacientes. Cualquiera de estos microorganismos puede causar una enfermedad infectocontagiosa a través de pinchazos y/o salpicaduras producidas por el aerosol durante la práctica dental. Objetivo: Determinar la presencia bacteriana en las piezas de alta velocidad utilizadas en la práctica clínica. Material y métodos: Es un estudio experimental, observacional y transversal en el que se evaluó la contaminación de 30 piezas de alta velocidad utilizadas en la práctica clínica. Previo al estudio se efectuó una estandarización obteniendo una kappa del 0.85. Se realizó una base de datos en el programa SPSS versión 22, con el que se llevó a cabo el análisis descriptivo para determinar medidas de tendencia central. Resultados: 73.3% de las muestras analizadas tuvieron crecimiento bacteriano, entre las bacterias que se encontraron resultó que 54.5% de ellas fueron bacterias Gram positivas y el resto Gram negativas. La bacteria con mayor presencia en la muestra fue el Bacillus en 45.5% seguida del Streptococcus en 27.3%, el restante 27.2% fue Staphylococcus, Coccus y Streptobacillus. Conclusiones: El uso correcto de las piezas de alta, así como su desinfección en la consulta dental es de suma importancia, ya que nos ayudan a evitar contaminaciones cruzadas y a prevenir que dentro del área de trabajo se formen focos de infección (AU)

Health professionals are exposed to a wide variety of microorganisms from spores, bacteria, fungi, viruses and protozoa that can be found in the blood and/or saliva of patients. Any of these microorganisms can cause an infectious disease through punctures and / or splashes produced by the aerosol during dental practice.1,2 Objective: To determine the bacterial presence in the high-speed pieces used in clinical practice. Material and methods: It are an experimental, observational and transversal study; where the contamination of 30 high-speed pieces used in clinical practice was evaluated. Prior to the study, a standardization was made obtaining a kappa of 0.85. A database was made in the program SPSS version 22, with which the descriptive analysis was carried out to determine measures of central tendency. Results: 73.3% of the analyzed samples showed bacterial growth, among the bacteria that were found, 54.5% of them were gram-positive bacteria and the rest were gram-negative. The bacterium with the highest presence in the sample was for Bacillus in 45.5% followed by Streptococcus in 27.3%, the remaining 27.2% was for Staphylococcus, Coccus and Streptobacillus. Conclusions: The correct use of the discharging parts, as well as their disinfection in the dental practice is of the utmost importance as they help us to avoid cross contamination and to prevent foci of infection from forming within the work area (AU)

Comparación bacteriana de 30 piezas de alta velocidad antes y después de ser utilizadas en la facultad de odontología, Región Veracruz / Bacterial comparison of 30 high speed handpieces before and after being used at the school of dentistry, Veracruz Region

Introducción: en los procedimientos odontológicos se está expuestoa gran cantidad de microorganismos y las intervenciones clínicas provocan un contacto directo o indirecto con éstos, ya sea a través del instrumental, equipo odontológico contaminado con saliva, sangre, exudados, etcétera. Por esta razón debe tomarse en cuenta el tipo de contaminación de las piezas de mano por ser parte del equipo de uso cotidiano para realizar tratamientos odontológicos. Objetivos generales:Determinar la carga bacteriana en las piezas de alta velocidad antes y después de su uso en diferentes clínicas de la Facultad de Odontologíade la UV Región Veracruz. Metodología: Investigación transversal, descriptiva y observacional. Material y métodos: Se seleccionaron al azar 30 piezas de mano de los estudiantes de la Universidad Veracruzana Facultad de Odontología Región Veracruz, a las cuales se tomó una muestra con un hisopo de algodón antes y después de su uso en la práctica dental. Se realizaron cultivos con las muestras obtenidas que se observaron durante tres días seguidos bajo microscopio para comprobar la presencia de colonias bacterianas. Resultados: De las30 piezas antes de ser utilizadas se detectó Bacillus grampositivos en24 por ciento de las muestras; en 20 por ciento Bacillus gramnegativos, en 6 por ciento Streptobacillus gram-positivos; en 20 por ciento Staphylococcus grampositivos; en 3 por ciento Cocobacillus gramnegativos y en 22 por ciento Actinomyces gramnegativos. El restante 2 por ciento no reveló unidades formadoras de colonias (UFC). En un segundo muestreo, 33 por ciento desarrolló Bacillus grampositivos, 10 por cientoBacillus gramnegativos, 20 por ciento adquirió Sthapylococcus grampositivos, 3 por ciento Sthapylococcus gramnegativo y 34 por ciento no reveló UFC. Conclusión:En el primer muestreo se detectaron microorganismos en 98% de laspiezas de mano, mientras que en el segundo muestreo 66% se contaminócon microorganismos y en 34% no se observó contaminación.

Introduction: dental activity is exposed to a lot of microorganisms,and clinical interventions have a direct or indirect contact with them.Whether through the instruments, dental equipment contaminatedwith saliva, blood, etc; so you should take into account the type ofcontamination of handpieces for being the most widely used equipmentfor dental treatment. General Objectives: Determine the bacterialload in high-speed parts before and after being used in diff erentclinical uses in Dentistry School at UV, Veracruz. Methodology:Cross-sectional, descriptive and observational research. Materialand methods: 30 pieces of students from the Universidad VeracruzanaSchool of Dentistry, Veracruz region, which a sample was takenwith a swab to pieces before and after use in dental practice wererandomly selected. Cultures with samples obtained observedduring three days in a row microscope to determine the presenceof bacterial colonies were made. Results: Of the 30 pieces beforebeing used 24% of Bacillus Gram-positive samples were found; 20%Bacillus Gram-negative, Gram-positive Streptobacillus 6%; 20%Gram-positive Staphylococcus, 3% developed Coccobacillus Gramnegativeand 22% Gram negative Actinomyces. The remaining 2%no colony forming units development (UFC). In a second sampling;33% developed Bacillus Gram-positive, Gram-negative Bacillus10%, 20% obtained Sthapylococcus Gram-positive, Gram-negativeSthapylococcus 3% and 34% did not develop colony forming unit(CFU). Conclusion: In the first sampling 98% of the pieces were microorganism growth, while in the second 66% and the presence ofmicroorganisms obtained 34% no development.

Contaminación bacteriana generada por aerosoles en ambiente odontológico / Analysis of bacterial contamination produced by aerosols in dental clinic environments

En odontología estamos expuestos a muchos microorganismos por la producción de aerosoles. Por ello es esencial conocer la naturaleza de éstos y su potencial patogénico. El objetivo de esta investigación es determinar contaminación bacteriana, generada por aerosoles durante procedimientos odontológicos, con uso de pieza de mano de alta velocidad, realizados por alumnos de la carrera, en Clínica Odontológica Docente Asistencial (CODA), Universidad de La Frontera, Temuco, Chile. Estudio con muestra aleatoria, de 16 de un total de 32 unidades dentales, estratificado por box, con 40 muestras, ocho placas control y 32 placas prueba. El medio de cultivo, se mantuvo por diez minutos, donde se realizaron acciones de operatoria con turbina, bajo aislamiento absoluto, ubicadas en frente del operador y pechera del paciente. Las muestras fueron analizadas microscópicamente, incubadas a 37°C en atmósfera de oxígeno por 24 horas y dióxido de carbono a las 48 horas. Treinta y dos placas prueba fueron positivas, registrándose diversidad de crecimiento bacteriano, promedio 58,874 Unidad Formadora de Colonias (UFC) por unidad dental. El mayor porcentaje de microorganismos fueron: Bacillus spp. (28,56%) y Bacilos Gram positivos (24,31%). Siete placas control resultaron negativas y una con 3 UFC de Micrococcus spp. La mayoría de los microorganismos encontrados son comensales potencialmente patógenos. Al comprobar que los aerosoles constituyen una fuente importante de emisión de microorganismos, se hace imprescindible cumplir con todas las normas de bioseguridad que protegen tanto al operador como al paciente

In dental practice we are exposed to many microorganisms due to aerosol production. It is essential to be aware of the nature of these elements and their pathogenic potential. The purpose of this research is to determine the presence of bacterial contamination in aerosols produced during dental procedures that require the use of a high speed dental handpiece. These dental procedures were carried out by dentistry students at the dental clinic of the Universidad de La Frontera. In order to determine the presence of bacteria in aerosols, cultivation plates were used. A total of 40 samples were taken from 16 dentistry students while performing dental procedures that required the use of a high speed dental handpiece in conditions of complete isolation. Eight control plates and 32 test plates were used. Two selected areas were examined: operator´s front andpatient´s chest protector, during 10 minutes. The samples were then taken to the laboratory and incubated in an oxygen atmosphere for 24 hours and subsequently in carbon dioxide for another 24 hours at a temperature of 37 degrees Celsius. Finally the samples were microscopically analyzed. Seven control plates showed no bacterial contaminants and one showed 3UFC of Micrococcus spp. The 32 test plates were found to be positive showing diverse bacterial growth (58.874 UFC average per subject). The highest percentage of microorganisms was constituted by Bacillus spp. (28.56 %) and Bacillus Grampositivos (24.31 %), representing more than 50% of the total. The majority of the microorganisms found belong to the commensal family, although they can change into opportunistic pathogen microorganisms. Verifying that aerosols are an important source of emission of microorganisms, it is essential to comply with all biosecurity standards in order to protect the operator as well as the patient

Contamination of dental unit water and air outlets following use of clean head system and conventional handpieces

Dental handpiece is a source of contamination because it is in constant touch with the oral cavity. Sterilization does not seem to be sufficient to prevent penetration of microorganisms into air and water lines of the unit, because negative pressure developed by valves [which are placed in water outlets] and post shut-off inertial rotation of handpiece result in water and debris being sucked into air and water outlets of dental unit. The aim of this study was to compare dental unit contamination following use of clean head system handpieces and conventional handpieces. Twenty-two dental units in the Department of Pediatric Dentistry in Shahid Beheshti Faculty of Dentistry were used for the purpose of this study. A 1.5x10[8] cfu/mm[3] concentration of Staphylococcus epidermis [SE] was used to contaminate the air and water outlets of dental units. Ten clean head system handpieces and 10 conventional handpieces were used for 30 seconds in the above-mentioned suspension. Microbial samples were collected from the air and water lines. Culturing and colony counting procedures were carried out. Data was analyzed by t-test; a value of p < 0.01 was considered significant. demonstrated a significantly lower SE contamination in water outlets following the use of clean head system [p < 0.01]. A lower tendency of clean head system handpieces to transmit SE compared to conventional system makes them a better choice for infection control

Microbial contamination in dental unit waterlines

The quality of water in a dental unit is of considerable importance because patients and dental staff are regularly exposed to water and aerosol generated from the dental unit. The aim of this study was to evaluate the occurrence of microbial contamination in dental unit waterlines. Water samples were collected aseptically from the waterlines (reservoir, triple-syringe, high-speed) of 15 dental units. After serial dilution to 1:10(6) in APHA, the samples were seeded by the pour-plate technique and cultured in plate count agar (Difco) for 48 h at 32ºC. Analysis was based on the number of colony forming units (CFU). The Wilcoxon non-parametric test indicated that the levels of water contamination were highest in the triple-syringe (13 of 15) and in the high-speed (11 of 15); both levels were higher than those of the water reservoir. There was no significant statistical difference between the level of contamination in the triple-syringe and the high-speed as determined by the Mann-Whitney test [p(H0) = 40.98 percent; Z = - 0.2281]. Because biofilm forms on solid surfaces constantly bathed by liquid where microorganisms are present, these results indicate that the water in the dental unit may be contaminated by biofilm that forms in these tubules