Ultraviolet light C prototype device against Sporothrix brasiliensis as a potential physical method for surface disinfection.

Sporothrix brasiliensis is recognized as an emergent fungal pathogen and the high amount of fungal propagules in the lesions of infected cats allows the contamination of surfaces by direct contact. Given that the environment can play a role in the transmission of this fungus, effective methods to eliminate this pathogen from contaminated surfaces are necessary. Physical methods, such as ultraviolet light C (UVC), are broad used for surfaces disinfection, however, non-data about its activity against S. brasiliensis is reported. Therefore, we aimed to evaluate an easy handled prototype of a UVC device, in the inhibition of S. brasiliensis. Three doses and times of exposure of irradiance were tested: 3.5 mJ/cm2 (1 s), 5.25 mJ/cm2 (1.5 s) and 329 mJ/cm2 (94 s) against a standardized inoculum of yeast and mold phase of S. brasiliensis. A decrease in CFU was shown in all doses of irradiance in both phases of S. brasiliensis, the average reduction ranged from 78 to 100% among doses, being a complete fungicidal activity achieved against the yeast phase after the 94 s exposure (329 mJ/cm2). Our data shows that UVC is a potential physical method for disinfection of surfaces contaminated with S. brasiliensis, and the prototype device developed provides an easy handling, and quickly results.

Desinfección y esterilización en odontología frente al COVID-19 / Disinfection and sterilization in dentistry against COVID-19 / Desinfecção e esterilização em odontologia contra a COVID-19

A partir de la declaración de la Organización Mundial de la Salud del comienzo de la pandemia COVID-19 causada por el virus SARS-CoV-2 en marzo de 2020, los profesionales de la salud se vieron expuestos a esta enfermedad altamente contagiosa y potencialmente mortal que generó múltiples desafíos a toda la comunidad científica. Provocando cambios de paradigmas en la atención de los pacientes y en el uso de las barreras de protección personal. A nivel mundial se crearon múltiples protocolos para la atención odontológica a medida que se iba desarrollando e investigando el comportamiento del virus. Esta revisión bibliográfica resume las indicaciones y recomendaciones basadas en las evidencias disponibles para disminuir las posibilidades de contaminación ante la exposición a este virus, incluyendo medidas a utilizar desde el ingreso del paciente, los métodos de protección personal, la descontaminación y esterilización del material, así como también la desinfección del área de trabajo. Aunque se ha hecho un gran esfuerzo por mejorar los procesos de bioseguridad a nivel científico tecnológico, hay evidencias de que el factor humano sigue siendo el eslabón más débil de esta cadena.

Since the declaration by the World Health Organization of the beginning of the COVID-19 pandemic caused by the SARS-CoV-2 virus in March 2020, health professionals were exposed to this highly contagious and potentially fatal disease that generated multiple challenges to the entire scientific community. It caused paradigm shifts in patient care and in the use of personal protective barriers. Multiple protocols for dental care were created worldwide as the behavior of the virus was developed and investigated. This bibliographic review summarizes the indications and recommendations based on the available evidence to reduce the possibilities of contamination when exposed to this virus, including measures to be used from patient admission, personal protection methods, decontamination and sterilization of material, as well as disinfection of the work area. Although a great effort has been made to improve biosafety processes at the scientific and technological level, there is evidence that the human factor continues to be the weakest link in this chain.

Desde a declaração pela Organização Mundial da Saúde do início da pandemia de COVID-19 causada pelo vírus SARS-CoV-2 em março de 2020, os profissionais de saúde foram expostos a essa doença altamente contagiosa e potencialmente fatal, que criou vários desafios para toda a comunidade científica. Ela causou mudanças de paradigma no atendimento ao paciente e no uso de barreiras de proteção individual. Em todo o mundo, vários protocolos para atendimento odontológico foram criados à medida que o comportamento do vírus foi desenvolvido e pesquisado. Esta revisão da literatura resume as indicações e recomendações baseadas em evidências para reduzir a probabilidade de contaminação por exposição a esse vírus, incluindo medidas a serem usadas desde a admissão do paciente, métodos de proteção individual, descontaminação e esterilização de equipamentos, bem como desinfecção da área de trabalho. Embora muitos esforços tenham sido feitos para melhorar os processos de biossegurança em nível científico e tecnológico, há evidências de que o fator humano continua sendo o elo mais fraco dessa cadeia.

Biosafety devices to control the spread of potentially contaminated dispersion particles. New associated strategies for health environments.

Dental procedures produce a large amount of spatter and aerosols that create concern for the transmission of airborne diseases, such as Covid-19. This study established a methodology with the objective of evaluating new associated strategies to reduce the risk of cross-transmission in a health environment by simulating spread of potentially contaminated dispersion particles (PCDP) in the environment. This crossover study, was conducted in a school clinic environment (4 clinics containing 12 dental chairs each). As a positive control group (without barriers), 12 professionals activated at the same time the turbine of dental drill, for one minute, with a bacterial solution (Lactobacillus casei Shirota, 1.5x108 CFU/mL), which had been added in the cooling reservoir of the dental equipment. In the experimental groups, the professionals made use of; a) an individual biosafety barrier in dentistry (IBBD) which consists of a metal support covered by a disposable PVC film barrier; b) a Mobile Unit of Disinfection by Ultraviolet-C, consisting of 8 UV lamps-C of 95W, of 304µW/cm2 of irradiance each, connected for 15 minutes (UV-C) and; c) the association between the two methods (IBBD + UV-C). In each clinic, 56 Petri dishes containing MRS agar were positioned on the lamps, benches and on the floor. In addition, plates were placed prior to each test (negative control group) and plates were also placed in the corridor that connects the four clinics. In the groups without barrier and IBBD + UV-C the passive air microorganisms in Petri dishes was also evaluated at times of 30, 60, 90 and 120 minutes after the end of the dental's drill activation. The mean (standard deviation) of CFU of L. casei Shirota for the positive control group was 3905 (1521), while in the experimental groups the mean using the IBBD was 940 (466) CFU, establishing a reduction on average, of 75% (p<0.0001). For the UV-C group, the mean was 260 (309) CFU and the association of the use of IBBD + UV-C promoted an overall average count of 152 (257) CFU, establishing a reduction on average of 93% and 96%, respectively (p<0.0001). Considering these results and the study model used, the individual biosafety barrier associated with UV-C technology showed to be efficient strategies to reduce the dispersion of bioaerosols generated in an environment with high rate of PCDP generation and may be an alternative for the improvement of biosafety in different healthy environment.

Numerical and experimental analyses for the improvement of surface instant decontamination technology through biocidal agent dispersion: Potential of application during pandemic.

The transmission of SARS-CoV-2 through contact with contaminated surfaces or objects is an important form of transmissibility. Thus, in this study, we evaluated the performance of a disinfection chamber designed for instantaneous dispersion of the biocidal agent solution, in order to characterize a new device that can be used to protect individuals by reducing the transmissibility of the disease through contaminated surfaces. We proposed the necessary adjustments in the configuration to improve the dispersion on surfaces and the effectiveness of the developed equipment. Computational Fluid Dynamics (CFD) simulations of the present technology with a chamber having six nebulizer nozzles were performed and validated through qualitative and quantitative comparisons, and experimental tests were conducted using the method Water-Sensitive Paper (WSP), with an exposure to the biocidal agent for 10 and 30 s. After evaluation, a new passage procedure for the chamber with six nozzles and a new configuration of the disinfection chamber were proposed. In the chamber with six nozzles, a deficiency was identified in its central region, where the suspended droplet concentration was close to zero. However, with the new passage procedure, there was a significant increase in wettability of the surface. With the proposition of the chamber with 12 nozzles, the suspended droplet concentration in different regions increased, with an average increase of 266%. The experimental results of the new configuration proved that there was an increase in wettability at all times of exposure, and it was more significant for an exposure of 30 s. Additionally, even in different passage procedures, there were no significant differences in the results for an exposure of 10 s, thereby showing the effectiveness of the new configuration or improved spraying and wettability by the biocidal agent, as well as in minimizing the impact caused by human factor in the performance of the disinfection technology.

Escovas de limpeza em centrais de materiais e esterilização: características e cuidados / Cleaning brushes in Central Materials and Sterilization

A limpeza é a primeira e mais essencial etapa antes que qualquer processo de desinfecção ou esterilização possa ocorrer. Nesta etapa ocorre a fricção manual dos materiais com escovas apropriadas a fim de eliminar sujidades. A depender das características, estas escovas podem ter um custeio elevado para os serviços de saúde, especialmente em países com recursos limitados como o Brasil. Elucidar, em tempo oportuno, o que traz a literatura sobre as características necessárias às escovas de limpeza em Centrais de Materiais e Esterilização (CME), especialmente sobre a necessidade de serem autoclavadas.

Evaluating the potential of electrolysed water for the disinfection of citrus fruit in packinghouses.

BACKGROUND: The largest and most profitable market for citrus is the production of fresh fruit. Xanthomonas citri subsp. citri is a Gram-negative plant pathogen and the etiological agent of citrus canker, one of the major threats to citrus production worldwide. In the early stages of infection, X. citri can attach to plant surfaces by means of biofilms. Biofilm is considered an essential virulence factor, which helps tissue colonization in plants. Thus, sanitization of citrus fruit is mandatory in packinghouses before any logistic operation as packing and shipment to the market. The aim of this study was to evaluate electrolysed water (EW) as a sanitizer for the disinfection of citrus fruit in packinghouses. RESULTS: Using a protocol to monitor cell respiration we show that EW, obtained after 8 and 9 min of electrolysis, sufficed to kill X. citri when applied at a concentration of 500 µL mL-1 . Furthermore, microscopy analysis, combined with time-response growth curves, confirmed that EW affects the bacterial cytoplasmatic membrane and it leads to cell death in the first few minutes of contact. Pathogenicity tests using limes to simulate packinghouse treatment showed that EW, produced with 9 min of electrolysis, was a very effective sanitizer capable of eliminating X. citri from contaminated fruit. CONCLUSION: It was possible to conclude that EW is significantly effective as sodium hypochlorite (NaClO) at 200 ppm. Therefore, EW could be an alternative for citrus sanitization in packinghouses. © 2020 Society of Chemical Industry.

Investigation of Microbial Contamination in the Clinic and Laboratory of the Prosthodontics Department of Dental School

ABSTRACT Objective: To determine the level of clinical contamination in the clinic and laboratory of the prosthodontics department of Kerman Dental School. Material and Methods: Clinical surfaces of the dental units, the laboratory, and the professors' lounge of the prosthodontics department were randomly sampled. The sampled surfaces included the dental units' console, light switch, light handle, headrest, and air-water spray syringe in the clinic, plastering tables, buttons of the vibrator, polishing, and trimmer machines, acryl tables, handles of pressure pot and press machine, handpiece holders, work desks, and drawer handles in the laboratory, and desks, computer mouse and keyboard, telephone sets, and doorknob in the professor's lounge. The samples were examined for the type and growth of microorganisms. The data were entered into SPSS, where they were analyzed using the chi-square test at the 0.05 significance level. Results: Of all the samples taken, 89.9% showed microbial contamination. The most common type of contamination was fungus (34.8%) and the least common types were Enterococcus faecalis and Staphylococcus epidermidis (1.1%). The second and third most common types of bacteria in the samples were Staphylococcus aureus (18%) and Pseudomonas aeruginosa (12.4%), respectively. There was no significant difference between the frequencies of microbial contamination in the clinic, the laboratory, and the professors' lounge. Conclusion: Given the strong chance of cross-infection in the examined department and laboratory, it is necessary to enforce protocols for proper disinfection of surfaces before, between and after treatments.

El uso de túneles y otras tecnologías para la desinfección de humanos utilizando rociado de productos químicos o luz UV-C, 5 de mayo del 2020 / Recommendations to expand access to hand washing and its proper use / O uso de túneis e outras tecnologias para desinfecção de humanos usando aspersão de produtos químicos ou radiação UV-C, 8 de maio de 2020

El uso de túneles u otras estructuras físicas (cabinas, gabinetes, puertas) con rociado de productos para la desinfección, los dispositivos de pulverización y la radiación UV-C (200-280 nm) no se recomiendan para humanos.

Promoting handwashing is essential to minimize transmission of SARS-COV-2, the virus that causes COVID-19, and to save lives. One of the most commons ways of transmission of SARS-COV-2 is from contaminated hands touching the mouth, nose and eyes. The virus can also be transferred from one surface to another through contaminated hands. Free access and mandatory use of handwashing stations would help to minimize SARS-COV-2 transmission and save lives.

O uso de túneis ou outras estruturas físicas (cabines, armários, portas) com dispositivos para aspersão ou radiação UV-C (200-280 nm) não é recomendável para pessoas.

Cleaning and disinfection of environmental surfaces in the context of COVID-19

Coronavirus disease 2019 (COVID-19) is a respiratory infection caused by SARS-CoV-2 (COVID-19 virus). The COVID-19 virus is transmitted mainly through close physical contact and respiratory droplets, while airborne transmission is possible during aerosol generating medical procedures.1 At time of publication, transmission of the COVID-19 virus had not been conclusively linked to contaminated environmental surfaces in available studies. However, this interim guidance document has been informed by evidence of surface contamination in health-care settings2 and past experiences with surface contamination that was linked to subsequent infection transmission in other coronaviruses. Therefore, this guidance aims to reduce any role that fomites might play in the transmission of COVID-19 in health-care3 and non-health care settings. 4

Efficacy of pulsed-xenon ultraviolet light for disinfection of high-touch surfaces in an Ecuadorian hospital.

BACKGROUND: Hospital environment in patient care has been linked on healthcare-associated infections (HAI). No touch disinfection technologies that utilize pulsed xenon ultraviolet light has been recognized to prevent infection in contaminated environments. The purpose of this study was: 1) to evaluate the effectiveness of pulsed-xenon ultraviolet light (PX-UV) disinfection for the reduction of bacteria on environmental surfaces of Hospital General Enrique Garcés, and 2) to evaluate the in-vitro efficacy against multi-drug resistance microorganisms. METHODS: This was a quality-improvement study looking at cleaning and disinfection of patient areas. During the study, a total of 146 surfaces from 17 rooms were sampled in a secondary 329-bed public medical center. Microbiological samples of high-touch surfaces were taken after terminal manual cleaning and after pulsed xenon ultraviolet disinfection. Cleaning staff were blinded to the study purpose and told clean following their usual protocols. For positive cultures PCR identification for carbapenemase-resistance genes (blaKPC, blaIMP, blaVIM, and blaNDM) were analyzed and confirmed by sequencing. The total number of colony forming units (CFU) were obtained and statistical analyses were conducted using Wilcoxon Rank Sum tests to evaluate the difference in CFU between terminal manual cleaning and after pulsed xenon ultraviolet disinfection. RESULTS: After manual disinfection of 124 surfaces showed a total of 3569 CFU which dropped to 889 CFU in 80 surfaces after pulsed xenon disinfection (p < 0.001). Overall, the surface and environmental contamination was reduced by 75% after PX-UV compared to manual cleaning and disinfection. There were statistically significant decreases in CFU counts of high touch surfaces in OR 87% (p < 0.001) and patient rooms 76% (p < 0.001). Four rooms presented serine carbapenemases blaKPC, and metallo beta-lactamases blaNDM, blaVIM, blaIMP. confirmed by PCR and sequencing. The in-vitro testing with endemic strains found that after five minutes of pulsed xenon ultraviolet exposure an 8-log reduction was achieved in all cases. CONCLUSION: This study is one of the first of its kind in an Ecuador Hospital. We found that pulsed-xenon ultraviolet disinfection technology is an efficacious complement to the established manual cleaning protocols and guidelines in the significant reduction of MDRO.

Práticas relacionadas ao uso do garrote durante a punção venosa periférica: uma revisão de escopo / Health professionals' practices related with tourniquet use during peripheral venipuncture: a scoping review / Prácticas relacionadas al uso del garrote durante la punción venosa periférica: una revisión de alcance

Objetivos durante a punção venosa periférica, recomenda-se o uso de um garrote acima do local da punção para potencializar a distensão venosa. Dadas as suas características e o uso em ambientes clínicos, os garrotes podem representar uma fonte de disseminação de micro-organismos. Entretanto, os resultados de estudos científicos nessa área estão dispersos na literatura. Esta revisão de escopo tem como objetivo mapear as evidências disponíveis a respeito das práticas dos profissionais de saúde no que concerne ao uso do garrote durante a punção venosa periférica e à contaminação microbiológica associada. Método revisão de escopo de acordo com a metodologia do Instituto Joanna Briggs. Dois revisores independentes analisaram a relevância dos estudos, extraíram e sintetizaram dados. Resultados quinze estudos foram incluídos na revisão. Em geral, os garrotes foram reutilizados sem processos de descontaminação recorrentes. Verificou-se que os profissionais compartilham esses dispositivos entre si e os usaram continuamente por períodos entre duas semanas e sete anos e meio. Conclusão as práticas de enfermagem relacionadas ao uso do garrote durante a punção venosa periférica não são uniformes. A reutilização de garrotes pode colocar em risco a segurança do paciente se o reprocessamento (limpeza e desinfecção/esterilização) não for adequado, dado o tipo de material do garrote e a microbiota encontrada. Novos estudos são necessários para avaliar o impacto de vários tipos de práticas de reprocessamento na descontaminação de garrotes e na segurança do paciente.

Objectives during peripheral venipuncture, health professionals are recommended to use a tourniquet above the puncture site in order to potentiate venous distension. Given its characteristics and use in clinical settings, tourniquets may represent a source of microorganism dissemination. However, the results of scientific studies in this area are scattered in the literature. This scoping review aims to map the available evidence on health professionals' practices related with tourniquet use during peripheral venipuncture and associated microbiological contamination. Methods scoping review following the Joanna Briggs Institute methodology. Two independent reviewers analyzed the relevance of the studies, extracted and synthesized data. Results fifteen studies were included in the review. Overall, tourniquets were reused without being subject to recurring decontamination processes. It has been found that practitioners share these devices among themselves and use them successively for periods between two weeks and seven and half years. Conclusion nursing practices related to tourniquet use during peripheral venipuncture are not standard. Reuse of tourniquets may jeopardize the patient's safety if reprocessing (cleaning and disinfection/sterilization) is not adequate, given the type of tourniquet material and microbiota found. New studies are needed to assess the impact of various types of reprocessing practices on tourniquet decontamination and patient safety.

Objetivos durante la punción venosa periférica, se recomienda el uso de un garrote arriba del sitio de la punción para potenciar la distensión venosa. Dadas sus características y uso en ambientes clínicos, los garrotes pueden representar una fuente de diseminación de microorganismos. Sin embargo, los resultados de estudios científicos en esta área están dispersos en la literatura. Esta revisión de alcance tiene como objetivo mapear las evidencias disponibles acerca de las prácticas de los profesionales de salud en lo que concierne al uso del garrote durante la punción venosa periférica y la contaminación microbiológica asociada. Método revisión de alcance de acuerdo con la metodología del Instituto Joanna Briggs. Dos revisores independientes analizaron la relevancia de los estudios, extrajeron y sintetizaron datos. Resultados quince estudios se incluyeron en la revisión. En general, los garrotes fueron reutilizados sin procesos de descontaminación recurrentes. Se verificó que los profesionales comparten estos dispositivos entre sí y los utilizaron continuamente por períodos entre dos semanas y siete años y medio. Conclusión las prácticas de enfermería relacionadas al uso del garrote durante la punción venosa periférica no son uniformes. La reutilización de garrotes puede poner en riesgo la seguridad del paciente si el reprocesamiento (limpieza y desinfección/esterilización) no es adecuado, dado el tipo de material del garrote y la microbiota encontrada. Nuevos estudios son necesarios para evaluar el impacto de varios tipos de prácticas de reprocesamiento en la descontaminación de garrotes y en la seguridad del paciente.

Long-term microwaving of denture base materials: effects on dimensional, color and translucency stability.

INTRODUCTION: While the combined effect of microwave irradiation with cleansing solutions on denture base materials has been investigated, the effects of only using microwave irradiation and, more importantly, in a long-term basis, was not studied yet. OBJECTIVE: The purpose of this study was to evaluate the effect of a long-term repeated microwaving on the dimensional, color and translucency stability of acrylic and polyamide denture base materials. MATERIAL AND METHODS: Thirty two specimens (32 mm x 10 mm x 2.5 mm) from polyamide (Valplast) and PMMA (Vertex Rapid Simplified) denture base materials were made. Eight specimens from each material were immersed in distilled water (control) and 8 were subjected to microwave exposure at 450 W for 3 minutes for a period simulating 224 days of daily disinfection. Linear dimension, color change (ΔE*) and translucency parameter (TP) were measured at baseline and after certain intervals up to 224 cycles of immersion, using a digital calliper and a portable colorimeter. The results were analysed using two-way repeated measures ANOVA to estimate possible differences among predetermined cycles and material type. Regression analysis was also performed to estimate the trend of changes with time. Statistical evaluations performed at a significance level of 5%. RESULTS: Data analysis showed significant changes in length at baseline with an increasing number of cycles (p<0.05) and a significant interaction of cycle-material (p<0.001). The ΔΕ* parameter was significantly higher with a higher number of cycles (p<0.001), but it did not vary between materials (p>0.05). TP decreased similarly in both materials following microwave action but in a significantly higher level for Valplast (p<0.001). CONCLUSIONS: The results indicated that long-term repeated microwaving affects linear dimensional, color and translucency changes of both materials. Differences between PMMA and polyamide material were noted only in dimension and translucency changes.

Measuring User Compliance and Cost Effectiveness of Safe Drinking Water Programs: A Cluster-Randomized Study of Household Ultraviolet Disinfection in Rural Mexico.

Low adoption and compliance levels for household water treatment and safe storage (HWTS) technologies have made it challenging for these systems to achieve measurable health benefits in the developing world. User compliance remains an inconsistently defined and poorly understood feature of HWTS programs. In this article, we develop a comprehensive approach to understanding HWTS compliance. First, our Safe Drinking Water Compliance Framework disaggregates and measures the components of compliance from initial adoption of the HWTS to exclusive consumption of treated water. We apply this framework to an ultraviolet (UV)-based safe water system in a cluster-randomized controlled trial in rural Mexico. Second, we evaluate a no-frills (or "Basic") variant of the program as well as an improved (or "Enhanced") variant, to test if subtle changes in the user interface of HWTS programs could improve compliance. Finally, we perform a full-cost analysis of both variants to assess their cost effectiveness (CE) in achieving compliance. We define "compliance" strictly as the habit of consuming safe water. We find that compliance was significantly higher in the groups where the UV program variants were rolled out than in the control groups. The Enhanced variant performed better immediately postintervention than the Basic, but compliance (and thus CE) degraded with time such that no effective difference remained between the two versions of the program.

Fricção das dânulas na desinfecção e o risco de dispersão: é possível controlar? / Three-way tap friction in disinfection and risk of dispersion: is it possible to control?

O uso de dispositivos para infusões intravasculares representa um desafio, principalmente, pela possibilidade da dispersão microbiana do local de inserção até a ponta do cateter. O procedimento de desinfecção poderá reduzir a colonização no sítio de inserção desses dispositivos, entretanto instiga uma série de questionamentos acerca da possibilidade de dispersão para o interior do lúmen, espectro de ação do antimicrobiano, e a técnica do procedimento de desinfecção. O objetivo deste estudo foi avaliar in vitro o procedimento de desinfecção das dânulas/torneiras de três vias contaminadas propositalmente com Staphylococcus aureus e Pseudomonas aeruginosa, bem como a dispersão de soluções para o interior dos lúmens. Trata-se de um experimento laboratorial in vitro, controlado e desenvolvido em duas etapas: avaliação da dispersão bacteriana por meio da contaminação intencional com cepas padrão: S. aureus (ATCC 25923) e P. aeruginosa (ATCC 27853), e a dispersão de líquidos para o interior do conector por meio do corante cristal violeta a 1%, após a fricção com solução fisiológica ou álcool etílico a 70%, visando simular o processo de desinfecção. Todos os experimentos foram realizados em triplicata por três pesquisadores distintos. A fricção dos conectores com solução fisiológica demonstrou crescimento bacteriano (P. aeruginosa e S. aureus) no interior de 41,7% dos lúmens, no entanto não houve crescimento bacteriano nas amostras após a desinfecção com solução alcoólica a 70% (p<0,001). Com relação aos percentuais das ausências de dispersão de soluções para o interior dos lúmens das dânulas, observou-se que a fricção com as soluções fisiológica e alcoólica foram de 81,5% e 66,7%, respectivamente (p=0,079). Assim, a ausência do crescimento bacteriano no lúmen das dânulas após a fricção com solução alcoólica a 70% está associada a uma série de variáveis controladas as quais remetem a preocupação, principalmente, na possibilidade de dispersão de soluções desinfetantes para o seu interior. Nesse sentido, infere-se sobre os riscos que ameaçam a segurança das pessoas submetidas a infusões intravenosas, especialmente, no que concerne a execução do procedimento de desinfecção das dânulas

The use of intravascular infusion devices presents a challenge, mainly, due to the possibility of microbial dispersion of insertion site up to catheter tip. Disinfection procedure can reduce colonization at insertion site of these devices, but it instigates a series of questions about the possibility of dispersion into the lumen, antimicrobial action spectrum, and the technique of the disinfection procedure. The objective of this study was to evaluate in vitro disinfection procedure of three-way taps purposely contaminated with Staphylococcus aureus and Pseudomonas aeruginosa as well as the dispersion of solutions into the lumens. This is an in vitro laboratory experiment, it was controlled and developed in two steps: evaluation of bacterial dispersion by intentional contamination with standard strains: S. aureus (ATCC 25923) and P. aeruginosa (ATCC 27853), and liquid dispersion into the connector through 1% violet crystal dye, after friction with physiological solution or 70% ethyl alcohol, in order to simulate disinfection process. All experiments were performed in triplicate by three distinct researchers. The friction of connectors with physiological solution showed bacterial growth (P. aeruginosa and S. aureus) within 41.7% of the lumens, but there was no bacterial growth in the samples after disinfection with 70% alcoholic solution (p<0.001). Regarding the absence of dispersion percentages of solutions into the lumens from three-way taps, it was observed that the friction with physiological and alcoholic solutions were 81.5% and 66.7%, respectively (p=0.079). Thus, the absence of bacterial growth in the lumen from three-way taps after the friction with 70% alcoholic solution is associated to a series of controlled variables which refer, mainly, to the possibility of dispersion of disinfectant solutions to its interior. In that sense, it is inferred about risks that threaten the safety of people undergoing intravenous infusion, especially, concerning the disinfecting procedure execution for three-way taps

Centro de tatuajes y perforaciones corporales: norma técnica No. 25-2018 / Tattoo and Body Piercing Center: Technical Standard No. 25-2018

"El objeto de la presente Norma Técnica es regir las condiciones y requisitos mínimos que deben cumplir los establecimientos donde se realicen Tatuajes y Perforaciones por medio de procedimientos invasivos y/o perforaciones corporales, incluyendo los delineados en forma permanente que se realizan en las salas de estética, con el objetivo de lograr un servicio seguro y de calidad." Es de carácter obligatorio, por lo que se aplica en todo el territorio nacional. Contiene además, las definiciones de los conceptos relacionados al tema principal, además de la infraestructura que deberá tener cada clínica, incluidos el equipo y recurso humano y técnico.

Long-term microwaving of denture base materials: effects on dimensional, color and translucency stability

Abstract While the combined effect of microwave irradiation with cleansing solutions on denture base materials has been investigated, the effects of only using microwave irradiation and, more importantly, in a long-term basis, was not studied yet. Objective The purpose of this study was to evaluate the effect of a long-term repeated microwaving on the dimensional, color and translucency stability of acrylic and polyamide denture base materials. Material and Methods Thirty two specimens (32 mm x 10 mm x 2.5 mm) from polyamide (Valplast) and PMMA (Vertex Rapid Simplified) denture base materials were made. Eight specimens from each material were immersed in distilled water (control) and 8 were subjected to microwave exposure at 450 W for 3 minutes for a period simulating 224 days of daily disinfection. Linear dimension, color change (ΔE*) and translucency parameter (TP) were measured at baseline and after certain intervals up to 224 cycles of immersion, using a digital calliper and a portable colorimeter. The results were analysed using two-way repeated measures ANOVA to estimate possible differences among predetermined cycles and material type. Regression analysis was also performed to estimate the trend of changes with time. Statistical evaluations performed at a significance level of 5%. Results Data analysis showed significant changes in length at baseline with an increasing number of cycles (p<0.05) and a significant interaction of cycle-material (p<0.001). The ΔΕ* parameter was significantly higher with a higher number of cycles (p<0.001), but it did not vary between materials (p>0.05). TP decreased similarly in both materials following microwave action but in a significantly higher level for Valplast (p<0.001). Conclusions The results indicated that long-term repeated microwaving affects linear dimensional, color and translucency changes of both materials. Differences between PMMA and polyamide material were noted only in dimension and translucency changes.

Effect of ultrasound streaming on the disinfection of flattened root canals prepared by rotary and reciprocating systems.

New technical and scientific developments have been advocated to promote the success of the endodontic treatment. In addition to rotary and reciprocating systems, irrigating solution agitation has been suggested and passive ultrasonic irrigation (PUI) is the most used. OBJECTIVE: To evaluate, in vitro, the effect of ultrasound streaming (US) in the disinfection of flattened root canal systems prepared by the ProTaper, BioRaCe and Reciproc systems, utilizing the microbiological culture. METHODOLOGY: Extracted human mandibular incisors (n=84) were used. Suspensions of Enterococcus faecalis (ATCC 29212) were standardized and inserted along with the teeth immersed in brain-heart infusion (BHI) broth. The contamination was made following a protocol during 5 days. The teeth were randomly divided into six groups: G1, ProTaper Universal; G2, ProTaper Universal with US; G3, BioRaCe; G4, BioRaCe with US; G5, Reciproc; and G6, Reciproc with US. Irrigation was performed with saline solution. After biomechanical preparation, microbiological samples were performed with sterilized paper points, which were diluted and spread on BHI agar; after 48 h, the colony forming units (CFU/mL) were counted for each sample. RESULTS: Groups using ultrasonic agitation presented a greater antibacterial effect than the other ones, even using saline solution as irrigant. The ProTaper Universal system showed the best antibacterial activity of the tested systems (median of 0 CFU/mL with and without surfactant or ultrasonic activation [PUI]). Even with PUI, Reciproc (median of 2.5 CFU/mL with PUI and 5 without it) could not reduce as many colonies as ProTaper Universal without US. The BioRaCe system had greater bacterial reduction when using US (median of 0 CFU/mL with PUI and 30 without it). CONCLUSIONS: US promoted greater reduction in the number of bacteria in the flattened root canals prepared with nickel-titanium mechanized systems. Regarding the instruments used, the ProTaper Universal system was the most effective in reducing the bacterial number.

Manual Operated Ultraviolet Surface Decontamination for Healthcare Environments.

OBJECTIVE: The aim of this study was to evaluate the effectiveness of a new handheld equipment based on a mercury low-pressure vapor lamp. The Surface UV® device was tested in Staphylococcus aureus, Streptococcus mutans, Streptococcus pneumoniae, two strains of Escherichia coli, Pseudomonas aeruginosa, Candida albicans, and other clinical microorganisms isolated from different surfaces of a public health hospital. BACKGROUND DATA: The incidence of hospital infections has increased in recent years. Despite the variety of available chemicals to reduce the microorganisms, the search for antimicrobial agents and the characterization of novel targets are a continued need. Also, the minimization of chemical procedures is a constant need, and the use of ultraviolet (UV) light as a germicidal device for microorganisms' inactivation has been an alternative and one possible approach for the reduction of contamination. MATERIALS AND METHODS: The in vitro decontamination was performed by application of Surface UV in different species of microorganisms (study 1). The surface decontamination was carried out by application of Surface UV on each surface of hospital environment (study 2). The device presents ultraviolet C (UV-C) light at 254 nm and produces an irradiance of 13 mW/cm2 at a distance of 1 cm of the surfaces. The light dose was 0.78 J/cm2 for 60 sec of application in both studies. RESULTS: The results for in vitro decontamination indicated a log10 reduction factor of 6.5 for S. aureus, 6.7 for S. mutans, 6.2 for S. pneumoniae, 5.4 for E. coli, 5.2 for E. coli (ATCC 8739), 5.4 for P. aeruginosa, and 6.7 for C. albicans. The hospital level of microorganisms decreases more by 75% after the procedure. CONCLUSIONS: The study highlights the development and successful application of a new portable device that can reduce the risk of contamination in health settings. Our results suggest that Surface UV is efficient and may be an alternative decontamination method.

Effect of ultrasound streaming on the disinfection of flattened root canals prepared by rotary and reciprocating systems

Abstract New technical and scientific developments have been advocated to promote the success of the endodontic treatment. In addition to rotary and reciprocating systems, irrigating solution agitation has been suggested and passive ultrasonic irrigation (PUI) is the most used. Objective: To evaluate, in vitro, the effect of ultrasound streaming (US) in the disinfection of flattened root canal systems prepared by the ProTaper, BioRaCe and Reciproc systems, utilizing the microbiological culture. Methodology: Extracted human mandibular incisors (n=84) were used. Suspensions of Enterococcus faecalis (ATCC 29212) were standardized and inserted along with the teeth immersed in brain-heart infusion (BHI) broth. The contamination was made following a protocol during 5 days. The teeth were randomly divided into six groups: G1, ProTaper Universal; G2, ProTaper Universal with US; G3, BioRaCe; G4, BioRaCe with US; G5, Reciproc; and G6, Reciproc with US. Irrigation was performed with saline solution. After biomechanical preparation, microbiological samples were performed with sterilized paper points, which were diluted and spread on BHI agar; after 48 h, the colony forming units (CFU/mL) were counted for each sample. Results: Groups using ultrasonic agitation presented a greater antibacterial effect than the other ones, even using saline solution as irrigant. The ProTaper Universal system showed the best antibacterial activity of the tested systems (median of 0 CFU/mL with and without surfactant or ultrasonic activation [PUI]). Even with PUI, Reciproc (median of 2.5 CFU/mL with PUI and 5 without it) could not reduce as many colonies as ProTaper Universal without US. The BioRaCe system had greater bacterial reduction when using US (median of 0 CFU/mL with PUI and 30 without it). Conclusions: US promoted greater reduction in the number of bacteria in the flattened root canals prepared with nickel-titanium mechanized systems. Regarding the instruments used, the ProTaper Universal system was the most effective in reducing the bacterial number.

Ceramic pot filters lifetime study in coastal Guatemala.

Ceramic pot filters (CPFs) are an effective means of household water treatment, but the characterization of CPF lifetimes is ongoing. This paper describes a lifetime field study in Guatemala which was made possible by a collaboration between researchers, CPF-using households, and local non-governmental organizations (NGOs). Disinfection data were collected periodically for two years using field coliform enumeration kits as were flow rate data with the assistance of NGO staff. Consumer acceptance was characterized by surveying householders in the four subject villages at the beginning and end of the study. Flow rate data showed that average CPF flow rates decreased below the recommended minimum of 1 L h-1 after 10 months of use; however, the survey results indicated that the consumers were tolerant of the lower flow rates, and it is reasonable to assume that the daily volume of treated water can be readily increased by refilling the CPFs more frequently. Of greater concern was the finding that disinfection efficacy decreased below the recommended bacterial reduction after 14 months of use because it would not be obvious to users that effectiveness had declined. Finally, the follow-up visits by the researchers and the NGO staff appeared to increase consumer acceptance of the CPFs.