Your browser doesn't support javascript.
loading
Show: 20 | 50 | 100
Results 1 - 20 de 327
Filter
1.
Acta Paul. Enferm. (Online) ; 37: eAPE002191, 2024. tab, graf
Article in Portuguese | LILACS, BDENF | ID: biblio-1527574

ABSTRACT

Resumo Objetivo Avaliar a eficácia antimicrobiana de um dispositivo fixo emissor de luz UV-C na desinfecção de diferentes superfícies do ambiente hospitalar e sua eficácia antifúngica na qualidade do ar. Métodos Estudo quase-experimental realizado em uma unidade de internação hospitalar, que utilizou o Bioamostrador de ar Andersen® de seis estágios para análise do ar; e na avaliação das superfícies, utilizaram-se três suspensões de microrganismos (Acinetobacter sp. MDR, Escherichia coli e Klebsiella pneumoniae produtora de KPC) para contaminar o ambiente. Para ambos foram feitas coletas pré (controle) e pós-acionamento da luz UV-C (teste). Resultados Na avaliação do ar houve uma redução importante da contagem de colônias após a luz UV-C e não foram encontrados fungos patogênicos ou toxigênicos em nenhum dos dois momentos. Em relação à desinfecção das superfícies, nenhum crescimento bacteriano foi observado após a intervenção da luz, demonstrando 100% de inativação bacteriana nas condições testadas. Conclusão A utilização da tecnologia com emissão de luz UV-C fixa foi eficaz e pode ser considerada uma intervenção promissora para protocolos de desinfecção de superfícies hospitalares.


Resumen Objetivo Evaluar la eficacia antimicrobiana de un dispositivo fijo emisor de luz UV-C para la desinfección de diferentes superficies del ambiente hospitalario y su eficacia antifúngica en la calidad del aire. Métodos Estudio cuasi experimental realizado en una unidad de internación hospitalaria, en que se utilizó el biomuestreador de aire Andersen® de seis etapas para el análisis del aire. En el análisis de las superficies, se utilizaron tres suspensiones de microorganismos (Acinetobacter sp. MDR, Escherichia coli y Klebsiella pneumoniae productora de KPC) para contaminar el ambiente. En ambos se tomó una muestra antes (control) y después de accionar la luz UV-C (prueba). Resultados En el análisis del aire hubo una reducción importante del recuento de colonias después de la luz UV-C y no se encontraron hongos patógenos ni toxigénicos en ninguno de los dos momentos. Con relación a la desinfección de las superficies, no se observó ningún crecimiento bacteriano después de la intervención de la luz, lo que demuestra un 100 % de inactivación bacteriana en las condiciones analizadas. Conclusión El uso de la tecnología con emisión de luz UV-C fija fue eficaz y puede ser considerada una intervención prometedora para protocolos de desinfección de superficies hospitalarias.


Abstract Objective To evaluate a fixed UV-C light emitting device for its antimicrobial effectiveness in the disinfection of distinct surfaces and its antifungal effectiveness on air quality in the hospital environment. Methods This quasi-experimental study was conducted in a hospital inpatient unit, in which a six-stage air Biosampler (Andersen®) was used for air analysis. In the evaluation of surfaces, three suspensions of microorganisms (Acinetobacter sp. multidrug-resistant, Escherichia coli, and KPC-producing Klebsiella pneumoniae) were used to contaminate the environment. In both evaluations, pre- (control) and post-activation of UV-C light (test) collections were made. Results In the air evaluation, an important reduction was observed in the colony count after irradiation with UV-C light, and pathogenic or toxigenic fungi were not found in either of the two moments. Regarding the disinfection of surfaces, no bacterial growth was observed after the application of UV-C light, showing 100% bacterial inactivation under the tested conditions. Conclusion The use of fixed UV-C light emission technology was effective and can be considered a promising intervention for hospital surface disinfection protocols.


Subject(s)
Ultraviolet Rays , Disinfection/methods , Infection Control , Air/parasitology , Air Microbiology , Hospitalization , Evaluation Studies as Topic , Non-Randomized Controlled Trials as Topic
2.
Zhonghua Yu Fang Yi Xue Za Zhi ; (12): 1620-1624, 2023.
Article in Chinese | WPRIM | ID: wpr-1045914

ABSTRACT

Experimental model of Pseudomonas aeruginosa biofilm was established in vitro by using biofilm reactor. The aim of this study was evaluating the removal effect of two kinds of water flowing through bactericide resin on Pseudomonas aeruginosa biofilm, and exploring the effectiveness of continuous treatment with low concentration disinfection factor on dental unit waterlines. The experimental group selected 1-2 mg/L iodinated resin (IR) filtered water and bromined hydantoin resin (BHR) filtered water with the control group selecting the sterile distilled water. Biofilms were treated by using the immersion method for 3, 7, 10, 20, and 40 days. Total viable count (TVC) and laser confocal microscopy method (CLSM) were selected to evaluate the biofilm removal effect. The result of TVC showed that in group IR, the bacterial clearance after the treatment of 3, 7, 10, and 20 days was lower than 99.9% and unqualified. The bacterial clearance after the treatment of 40 days was 99.9%,which is qualified. In group BHR, it was lower than 99.9% and unqualified after the treatment of 3, 7, and 10 days. It was and 99.99%, 100.00% after the treatment of 20, 40 days, respectively. The result of CLSM showed that before treatment, Pseudomonas aeruginosa biofilm showed a sheet and mass distribution. The bacterial coverage was 19.24%±1.97%. The proportion of viable bacteria was 93.91%±1.39%, and the biofilm matrix coverage was 17.69%±1.11%. After 20 days of treatment, the biofilm was decreased in the IR group, with the biofilm bacterial coverage reducing to 6.77%±1.61%, the proportion of live bacteria reducing to 54.85%±5.65%, and the biofilm matrix coverage reducing to 2.41%±0.85%.There was significant difference from the pre-treatment and the control (F=359.996,P<0.001). No biofilm-like structure was found in the BHR group. After 40 days of treatment, there was still a small amount of biofilm matrix residue in the IR group, with no bacterial coverage observed. The biofilm matrix coverage was 0.67%±0.47% (F=1 021.373,P<0.001). No biofilm-like structure was found in the BHR group. In conclusion, the continuous application of BHR filter water has more advantages in killing microorganisms in biofilms, removing live and dead bacteria and biofilm matrix in biofilms. Treatment water containing corresponding low concentration disinfection factors can play an important role in the field of biofilm control in dental unit waterlines.


Subject(s)
Humans , Disinfection/methods , Pseudomonas aeruginosa , Biofilms , Water/pharmacology
3.
Zhonghua Yu Fang Yi Xue Za Zhi ; (12): 1620-1624, 2023.
Article in Chinese | WPRIM | ID: wpr-1046237

ABSTRACT

Experimental model of Pseudomonas aeruginosa biofilm was established in vitro by using biofilm reactor. The aim of this study was evaluating the removal effect of two kinds of water flowing through bactericide resin on Pseudomonas aeruginosa biofilm, and exploring the effectiveness of continuous treatment with low concentration disinfection factor on dental unit waterlines. The experimental group selected 1-2 mg/L iodinated resin (IR) filtered water and bromined hydantoin resin (BHR) filtered water with the control group selecting the sterile distilled water. Biofilms were treated by using the immersion method for 3, 7, 10, 20, and 40 days. Total viable count (TVC) and laser confocal microscopy method (CLSM) were selected to evaluate the biofilm removal effect. The result of TVC showed that in group IR, the bacterial clearance after the treatment of 3, 7, 10, and 20 days was lower than 99.9% and unqualified. The bacterial clearance after the treatment of 40 days was 99.9%,which is qualified. In group BHR, it was lower than 99.9% and unqualified after the treatment of 3, 7, and 10 days. It was and 99.99%, 100.00% after the treatment of 20, 40 days, respectively. The result of CLSM showed that before treatment, Pseudomonas aeruginosa biofilm showed a sheet and mass distribution. The bacterial coverage was 19.24%±1.97%. The proportion of viable bacteria was 93.91%±1.39%, and the biofilm matrix coverage was 17.69%±1.11%. After 20 days of treatment, the biofilm was decreased in the IR group, with the biofilm bacterial coverage reducing to 6.77%±1.61%, the proportion of live bacteria reducing to 54.85%±5.65%, and the biofilm matrix coverage reducing to 2.41%±0.85%.There was significant difference from the pre-treatment and the control (F=359.996,P<0.001). No biofilm-like structure was found in the BHR group. After 40 days of treatment, there was still a small amount of biofilm matrix residue in the IR group, with no bacterial coverage observed. The biofilm matrix coverage was 0.67%±0.47% (F=1 021.373,P<0.001). No biofilm-like structure was found in the BHR group. In conclusion, the continuous application of BHR filter water has more advantages in killing microorganisms in biofilms, removing live and dead bacteria and biofilm matrix in biofilms. Treatment water containing corresponding low concentration disinfection factors can play an important role in the field of biofilm control in dental unit waterlines.


Subject(s)
Humans , Disinfection/methods , Pseudomonas aeruginosa , Biofilms , Water/pharmacology
4.
Rev. cuba. estomatol ; 59(3)sept. 2022.
Article in Spanish | LILACS, CUMED | ID: biblio-1441576

ABSTRACT

Introducción: Se está viviendo en un contexto de pandemia por COVID-19, en donde se evidencia la escasez de equipos de protección personal en salud y se prevé que continuará en el corto y mediano plazo. Por lo que considerar la reutilización o el uso prolongado de algunos equipos de protección personal, en especial de los respiradores, podría ser una alternativa a considerar. Objetivo: Revisar y dar a conocer, en base a evidencia científica, distintas formas de desinfección para poder reutilizar de manera segura y asequible los respiradores N95. Comentarios principales: Los respiradores N95 o sus equivalentes son de uso exclusivo del personal de salud para la atención de pacientes con sospecha o confirmación de COVID-19 y en procedimientos con generación de aerosoles. Su eficacia depende en gran medida del estado del respirador, de la capacidad de filtración, del sellado y de su uso adecuado. Son diversos los métodos para desinfectar, como la luz ultravioleta tipo C, el peróxido de hidrógeno, calor seco y húmedo, ozono, irradiación por microondas, etc. Si estos procedimientos no son realizados adecuadamente, podrían no ser efectivos. Comentarios globales: En escenarios de escasez de equipos de protección personal la reutilización es un procedimiento viable, económico, seguro, potencialmente escalable y fácil de realizar. Los respiradores N95 requieren un procedimiento especial de desinfección para preservar su capacidad de filtración y sellado. Existe un limitado número de ciclos de desinfección y reutilización. La estufa en calor seco podría ser el método más asequible en entornos privados(AU)


Introduction: We are living in a context of COVID-19 pandemic, where the shortage of personal protective equipment in health is evident and it is expected that it will continue in the short and medium term. So, considering the reuse or prolonged use of some personal protective equipment, especially respirators, could be an alternative to consider. Objective: To review and disseminate, based on scientific evidence, different forms of disinfection in order to safely and affordably reuse N95 respirators. Main comments: N95 respirators or their equivalents are for the exclusive use of health personnel for the care of patients with suspected or confirmed COVID-19 and in aerosol generation procedures. Its effectiveness depends to a large extent on the condition of the respirator, the filtration capacity, the sealing and its proper use. There are several methods to disinfect, such as ultraviolet light type C, hydrogen peroxide, dry and humid heat, ozone, microwave irradiation, etc. If these procedures are not performed properly, they may not be effective. Global feedback: In personal protective equipment shortage scenarios, reuse is a viable, economical, safe, potentially scalable and easy-to-perform procedure. N95 respirators require a special disinfection procedure to preserve their filtration and sealing capacity. There are a limited number of disinfection and reuse cycles. Dry heat stove might be the most affordable method in private settings(AU)


Subject(s)
Humans , Ventilators, Mechanical , Disinfection/methods , Personal Protective Equipment , N95 Respirators , COVID-19/epidemiology
6.
Arq. Inst. Biol. (Online) ; 89: e00022021, 2022. tab
Article in English | LILACS, VETINDEX | ID: biblio-1416873

ABSTRACT

Biosecurity, cleaning and disinfection of swine and poultry facilities are fundamental for the reduction of pathogenic microorganisms of importance for public and animal health. The objective of this work was to compare the levels of active ingredient described on the label and the real levels detected in high-performance liquid chromatography (HPLC) of two disinfectants., then evaluate the antimicrobial activity since, following the Germicidal Sanitizing Action and Disinfectant Detergent (Official Method AOAC 960.09) in four different dilutions with the presence of 3% organic matter during 15 min of contact, against Salmonella Heidelberg and Salmonella Typhimurium (ST). The product "A" presents active levels of agreement according to the label. The content of quantified assets for product "B" was lower than that recorded on the label. The disinfectant "A" was effective in microbiological evaluation while the disinfectant "B" had microbiocidal activity compromised by the deficit of assets.


Subject(s)
Salmonella , Salmonella typhimurium , Benzalkonium Compounds/administration & dosage , Disinfection/methods , Glutaral/administration & dosage , Disinfectants/analysis , Chromatography, High Pressure Liquid
7.
Pesqui. vet. bras ; Pesqui. vet. bras;42: e06990, 2022. tab, ilus
Article in English | LILACS, VETINDEX | ID: biblio-1365240

ABSTRACT

The current techniques used in the disinfection of reused poultry litter, such as lime addition, windrowing and plastic cover on the surface, do not guarantee the elimination of pathogenic microorganisms, causing damage to the environment and animal health. Gram negative bacteria, i.e., Salmonella and Escherichia coli, can be transmitted from one batch to another through reused litter, causing health damage to broilers and humans that consume food contaminated by these agents. Our study assessed the effectiveness of the methods plastic cover on the surface (PCS) and plastic cover on the surface with ammonia gas injection (PCSAI) in the control of Gram negative bacteria. The results obtained, both in laboratory conditions (Experiment 1) and in the field (Experiment 2), demonstrate that the method PCSAI with 0.22% ammonia gas had a significant reduction (P<0.05) of Gram negative bacteria in the period of 48 hours This new methodology for disinfecting poultry litter will allow its reuse in a practical and safe way, improving the preservation of the environment, of the health of broilers and consumers of poultry products.


O reaproveitamento de camas aviárias na criação de frangos de corte é uma prática muito utilizada no Brasil. Essa prática reduz custos de produção e contribui na conservação do meio ambiente. As técnicas atuais utilizadas na desinfecção de camas aviárias reaproveitadas, como adição de cal, enleiramento e lona na superfície, não garantem a eliminação de microrganismos patogênicos porque não geram quantidade suficiente de amônia. O gás amônia, em concentrações elevadas, tem efeito biocida. Bactérias Gram negativas, como as Salmonelas e Escherichia coli, podem ser transmitidas de um lote para outro através do reaproveitamento da cama, ocasionando prejuízos para a saúde das aves e dos humanos que consomem alimentos contaminados por estes agentes. Este trabalho avaliou a eficácia do método lona na superfície com injeção de gás amônia no controle de microrganismos Gram negativos. Os resultados obtidos demostraram que esse método controlou os microrganismos Gram negativos num período de 48 horas em camas de frangos de corte reaproveitadas. Assim, essa nova metodologia de desinfecção de camas de aviário permitirá sua reutilização de forma prática e segura, melhorando a saúde das aves e dos consumidores dos produtos avícolas.


Subject(s)
Animals , Poultry/microbiology , Chickens , Disinfection/methods , Ammonia/therapeutic use , Gram-Negative Bacteria
8.
Bol. malariol. salud ambient ; 61(4): 657-663, dic. 2021. tab., ilus.
Article in Spanish | LILACS, LIVECS | ID: biblio-1396110

ABSTRACT

Se ha comprobado que la exposición a bioaerosoles se asocia con varios efectos sobre la salud, como enfermedades pulmonares y alergias. El presente estudio transversal tuvo como objetivo investigar la contaminación por hongos en varias superficies pertenecientes a dos industrias de alimentos. La toma de muestra se realizó en tres semanas, inmediatamente después de realizada la limpieza y desinfección y antes de iniciar la producción. Se recolectaron 400 muestras de superficie (vidrio, acero inoxidable, aluminio, goma y plástico), también se evaluó la eficacia del programa de higienización en el control de la población de hongos. Todas las muestras presentaron recuentos fúngicos <10 ufc/cm2, sin haber diferencias significativas entre los tipos de superficie, sin embargo, las superficies plásticas exhibieron mayor crecimiento logarítmico de los hongos. Se determinó que 49,60% de las especies identificadas correspondieron al género Penicillium. Aunque los niveles de hongos en las industrias estudiadas fueron inferiores a los niveles recomendados por la Organización Mundial de la Salud, algunas medidas de salud ambiental como lavar y desinfectar las superficies después de cada turno de trabajo, y se recomiendan inspecciones periódicas para garantizar la seguridad de los trabajadores y de los productos que allí se manufacturan(AU)


It has been proven that exposure to bioaerosols is associated with several health effects, such as pulmonary diseases and allergies. The present crosssectional study aimed to investigate fungal contamination on various surfaces belonging to two food industries. The sampling was carried out in three weeks, immediately after cleaning and disinfection and before starting production. 400 surface samples were collected (glass, stainless steel, aluminum, rubber and plastic), the effectiveness of the sanitation program in controlling the fungal population was also evaluated. All the samples presented fungal counts <10 cfu / cm2, with no significant differences between the types of surfaces, however, the plastic surfaces exhibited higher logarithmic growth of the fungi. It was determined that 49.60% of the identified species corresponded to the Penicillium genus.Although the levels of fungi in the studied baths were lower than the levels recommended by the World Health Organization, some environmental health measure ssuch as washing and disinfecting surfaces after each working shift and periodic inspections are recommended ensuring the safety of the workers and the products that are manufactured there(AU)


Subject(s)
Humans , Colony Count, Microbial , Food Industry , Sanitation/methods , Environmental Pollution/prevention & control , Fungi , Penicillium , Plastics , Aspergillus , Rhizopus , Stainless Steel , Occupational Risks , Disinfection/methods , Alternaria , Food , Manufacturing and Industrial Facilities , Glass , Occupational Groups
9.
Arq. bras. med. vet. zootec. (Online) ; 73(5): 1137-1146, Sept.-Oct. 2021. tab, ilus
Article in English | LILACS, VETINDEX | ID: biblio-1345273

ABSTRACT

This study aimed to evaluate the effectiveness of ultraviolet light in reducing bacterial load of eggshells and the impact of experimental disinfection on hatching, embryo mortality, and time-borne distribution using broiler breeder hens of different ages (38, 42, and 48 weeks old). Fertile eggs were subjected to different exposure periods (5, 7, and 9 minutes) of UV light (UV-C) with a 254 nm wavelength. For controls, eggs disinfected with paraformaldehyde (5.3 g/m3) and eggs not disinfected (NC). After subjection to disinfection protocols, the eggs were placed into sterile plastic bags containing 20 mL of peptone saline solution (0.1% m:v) and massaged for 1 minute to release the bacterial load. Aliquots of this solution were incubated in specific medium for bacterial growth for 48 hours at 37ºC for subsequent CFU counts. To evaluate the effects of disinfection on production, eggs previously disinfected by UV-C (9 min) and paraformaldehyde and NC eggs were candled between incubation days 10 and 13 and at the end of the incubation period to assess embryonic mortality. Hatchability distribution was performed every 8 hours. The 9 minutes 254nm UV-C light exposure was able to disinfect viable eggs and matched the effectiveness of the paraformaldehyde technique.(AU)


Objetivou-se avaliar a eficácia da luz ultravioleta na redução da carga bacteriana de cascas de ovos e o impacto na eclosão e na mortalidade embrionária observando-se a idade das matrizes (38, 42 e 48 semanas). Os ovos foram submetidos a diferentes períodos de exposição (cinco, sete e nove minutos) à luz UV (UV-C) com comprimento de onda de 254nm. Os controles foram ovos desinfetados com paraformaldeído (5,3g/m³) e ovos não desinfetados (NC). Após a desinfecção, os ovos foram colocados em sacos plásticos estéreis contendo 20mL de solução salina peptonada (0,1% m:v) e massageados por um (1) minuto para descolamento das bactérias. Alíquotas dessa solução foram incubadas em meio para crescimento bacteriano por 48 horas a 37ºC e contagem de UFC. Para avaliar os efeitos da desinfecção, ovos previamente desinfetados por UV-C (nove minutos) e ovos com paraformaldeído e NC foram submetidos à ovoscopia entre os dias 10 e 13 de incubação e ao final do período de incubação, para avaliação da mortalidade embrionária. A distribuição da eclodibilidade foi realizada a cada oito horas. A exposição à luz UV-C de 25nm de nove minutos desinfetou os ovos férteis e coincidiu com a eficácia do paraformaldeído.(AU)


Subject(s)
Animals , Chickens , Disinfection/methods , Eggs/radiation effects , Eggs/microbiology , Ultraviolet Rays
10.
Int. j. odontostomatol. (Print) ; 15(3): 602-609, sept. 2021.
Article in Spanish | LILACS | ID: biblio-1385779

ABSTRACT

El adecuado conocimiento de definiciones, normas, procedimientos, uso de antisépticos y desinfectantes, permite contar con las herramientas para evitar la diseminación de agentes infecciosos y proporcionar el conocimiento para el uso racional de estos. El objetivo de este trabajo es presentar de manera estructurada y ordenada la información disponible respecto de la desinfección de alicates de ortodoncia y proporcionar una guía para el control óptimo de infecciones. Se realizó una búsqueda mediante PubMed, MEDLINE y Google Scholar, sin importar idioma, desde el año 2000 a abril 2021. Se establecieron los desinfectantes más recomendados para la desinfección de alicates de ortodoncia y las consideraciones en su uso. Además, se determinaron los riesgos de corrosión y recomendaciones para evitarlas. Es importante contar con información actualizada que se pueda utilizar para desarrollar un programa óptimo de asepsia, sobre todo en el contexto actual de pandemía.


Adequate knowledge of definitions, norms, procedures, use of antiseptics and disinfectants, allows to avoid the spread of infectious agents and provides knowledge for proper use of these aides. The objective of this study is to present the information available regarding the disinfection of orthodontic pliers in a structured and organized manner, and to provide a guide for optimal infection control. A search was carried out using PubMed, MEDLINE and Google Scholar, regardless of language, from the year 2000 to April 2021. The most recommended disinfectants for the disinfection of orthodontic pliers and the considerations in their use were established. In addition, risks of corrosion and recommendations to avoid them were determined. It is important to have up-to-date information that can be used to develop an optimal asepsis program, especially in the present context of a pandemic.


Subject(s)
Humans , Dental Instruments , COVID-19/prevention & control , Disinfection/methods , Practice Guidelines as Topic , Disinfectants/therapeutic use , Pandemics
11.
Campo Grande; s.n; mai.2021. 11 p. ilus.(Revisão Rápida, 3).
Monography in Portuguese | LILACS, ColecionaSUS, SES-MS | ID: biblio-1434045

ABSTRACT

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.


Subject(s)
Humans , Surgical Instruments/standards , Sterilization/methods , Disinfection/methods , Hospital Departments/methods , Sterilization/instrumentation , Disinfection/instrumentation , Friction , Disposable Equipment , Hospital Departments/economics
12.
Bol. malariol. salud ambient ; 61(1): 3-13, 10 de marzo de 2021. tab., ilus.
Article in Spanish | LILACS, LIVECS | ID: biblio-1177326

ABSTRACT

La pandemia por COVID-19 ha generado un impacto negativo en los sistemas de salud y la economía mundial. El agente etiológico de la COVID-19, el SARS-CoV2, puede permanecer de horas a días en superficies y aerosoles, representando un desafío en la descontaminación de objetos y ambientes cerrados. Agentes químicos como el alcohol, peróxido de hidrógeno, hipoclorito de sodio se han empleado con éxito para erradicar al coronavirus de superficies. Dado que estos agentes pueden causar daños en elementos de protección personal (como las máscaras), son irritantes y no parecen ser efectivos para la descontaminación de aerosoles, la luz ultravioleta ha sido explorada como una medida de mitigación para el desconfinamiento seguro. En este trabajo se realiza una revisión acerca de los principios físicos de la irradiación con luz ultravioleta y su interacción con la materia biológica. También se esboza un esquema de irradiación que podría ser útil para eliminar al SARS-CoV2 de superficies y aerosoles en ambientes cerrados(AU)


The COVID-19 pandemic has had a negative impact on health systems and the global economy. The etiological agent of COVID-19, SARS-CoV2, can remain from hours to days on surfaces and aerosols, representing a challenge in the decontamination of objects and closed environments. Chemical agents such as alcohol, hydrogen peroxide, sodium hypochlorite have been used successfully to inactivate the coronavirus on surfaces. Since these agents can damage personal protective equipment (such as masks), are irritants, and do not appear to be effective for aerosol decontamination, UV light has been explored as a mitigation measure for safe deconfinement. In this work, it is made a review about the physical principles of ultraviolet light and its interaction with biological matter. An irradiation scheme that could be useful to eliminate SARS-CoV2 from surfaces and aerosols in closed environments is also presented(AU)


Subject(s)
Humans , Ultraviolet Rays , Decontamination/methods , Disinfection/methods , COVID-19 , Radiation , Sodium Hypochlorite , Biological Products , Personal Protection , Ethanol , Hydrogen Peroxide
13.
Ciênc. cuid. saúde ; 20: e56283, 2021.
Article in Portuguese | LILACS, BDENF | ID: biblio-1356109

ABSTRACT

RESUMO Objetivo: analisar a prática dos profissionais de enfermagem sobre o processamento de produtos para a saúde na atenção básica. Método: trata-se de um estudo descritivo e exploratório, de abordagem qualitativa, realizadono mês de janeiro de 2015, em três Unidades Básicas de Saúde, de um município do Sul do Brasil, com 19 profissionais de enfermagem. Os dados foram coletados por meio de entrevista semiestruturada e analisados por intermédio da análise textual discursiva. A pesquisa foi aprovada pelo Comitê de Ética em Pesquisa. Resultados: emergiram da análise, resultados que expressam aprática da equipe de enfermagem e a forma como organizam o trabalho acerca do Processamento de Produtos para a Saúde (PPS). Considerações finais: constata-se a presença de práticas equivocadas na realização dos processos de limpeza e esterilização dos produtos para a saúde, implicando em potenciais perigos para a saúde dos pacientes. O estudo demonstra a importância da padronização dos processos de trabalho, visando práticas compassadas com as normatizações vigentes, harmônicas entre a equipe, permeando a responsabilidade, o conhecimento e a segurança.


RESUMEN Objetivo: analizar la práctica de los profesionales de enfermería sobre el procesamiento de productos para la salud en la atención básica. Método: se trata de un estudio descriptivo y exploratorio, de abordaje cualitativo, realizado en el mes de enero de 2015, en tres Unidades Básicas de Salud, de un municipio del Sur de Brasil, con 19 profesionales de enfermería. Los datos fueron recolectados por medio de entrevista semiestructurada y analizados por medio del análisis textual discursivo. La investigación fue aprobada por el Comité de Ética en Investigación. Resultados: surgieron, del análisis, resultados que expresan la práctica del equipo de enfermería y el modo que organizan el trabajo respecto al Procesamiento de Productos para la Salud (PPS). Consideraciones finales: se constata la presencia de prácticas equivocadas en la realización de los procesos de limpieza y esterilización de los productos para la salud, implicando potenciales peligros para la salud de los pacientes. El estudio demuestra la importancia de la estandarización de los procesos de trabajo, buscando prácticas acordes a las normalizaciones vigentes, armónicas entre el equipo, permeando la responsabilidad, el conocimiento y la seguridad.


ABSTRACT Objective: to analyze the practice of nursing professionals on the processing of health products in primary care. Method: this is a descriptive and exploratory study, with a qualitative approach, carried out in January 2015, in three Basic Health Units, in a city in southern Brazil, with 19 nursing professionals. The data were collected through semi-structured interviews and analyzed through discursive textual analysis. The research was approved by the Research Ethics Committee. Results: the results emerged from the analysis that express the practice of the nursing team and the way they organize the work on the Processing of Health Products (PHP). Final considerations: there is the presence of mistaken practices in carrying out the cleaning and sterilization processes of health products, implying potential dangers to the health of patients. The study demonstrates the importance of standardizing work processes, aiming at practices in line with current regulations, harmonious between the team, permeating responsibility, knowledge and safety.


Subject(s)
Humans , Male , Female , Primary Health Care , Health Services , Nursing, Team , Reference Standards , Sodium Hypochlorite , Sterilization/methods , Disinfection/methods , Ethanol , Housekeeping, Hospital , Nurse Practitioners
14.
Acta Paul. Enferm. (Online) ; 34: eAPE02712, 2021. tab, graf
Article in Portuguese | LILACS, BDENF | ID: biblio-1248518

ABSTRACT

Resumo Objetivo: Avaliar a ação antimicrobiano do gás ozônio (O3) em superfícies e ar ambiente climatizado artificialmente. Métodos: Estudo experimental/laboratorial e transversal realizado em dez salas de um laboratório de pesquisa em microbiologia médica, com risco de segurança biológica classe 2. As superfícies demarcadas do chão, parede e bancada foram avaliadas, quanto à presença ou ausência de micro-organismos, a partir de coletas feitas com swab umedecido em água destilada estéril, antes e após a exposição do gás O3 gerado por dois equipamentos distintos. Após este procedimento, o swab foi inoculado na superfície do meio de cultura Brain Heart Infusion Agar DIFCO® (BHI), seguindo-se a incubação a 35ºC por 24 horas. Para a análise microbiológica do ar, uma placa com BHI foi exposta aberta por uma hora, antes e após o tratamento do gás O3, sendo incubadas segundo os mesmos critérios. Resultados: A atividade antimicrobiana do gás O3 gerado por ambos os equipamentos foi constatada para todas as áreas investigadas, com registros de redução do número de Unidades Formadoras de Colônias. O potencial de inibição antimicrobiana dos aparelhos se manteve próximo para os critérios de análise adotados, com destaque para as áreas de chão e bancada. Considerando-se todas as salas e percentuais de inibição microbiana, frente aos dois equipamentos, os resultados foram: chão (100%), bancada (90%), parede (50%) e ar, 70%. Conclusão: Os equipamentos geradores de gás O3 apresentaram potencial antimicrobiano para medida de controle de microrganismos presentes em superfícies e ar ambiente climatizado artificialmente, sendo um sanitizante factível para utilização.


Resumen Objetivo: Evaluar la acción antimicrobiana del gas ozono (O3) en superficies y en el aire interior climatizado artificialmente. Métodos: Estudio experimental/de laboratorio y transversal realizado en diez salas de un laboratorio de investigación en microbiología médica, con riesgo de seguridad biológica clase 2. Se evaluaron las superficies delimitadas en el piso, pared y mesa en cuanto a la presencia o ausencia de microorganismos, a partir de muestras recolectadas con hisopo humedecido en agua destilada estéril, antes y después de la exposición del gas O3 generado por dos máquinas distintas. Luego de este procedimiento, el hisopo fue inoculado en la superficie del medio de cultivo Brain Heart Infusion Agar DIFCO® (BHI), y después incubado a 35 °C por 24 horas. Para el análisis microbiológico del aire, se expuso una placa con BHI abierta durante una hora, antes y después del tratamiento del gas O3, y luego se incubó con los mismos criterios. Resultados: Se constató la actividad antimicrobiana del gas O3 generado por ambas máquinas en todas las áreas investigadas, y se registró una reducción del número de unidades formadoras de colonias. El potencial de inhibición antimicrobiana de los dispositivos se mantuvo próximo a los criterios de análisis adoptados, con énfasis en el área del piso y mesa. Considerando todas las salas y porcentajes de inhibición microbiana, con las dos máquinas, los resultados fueron: piso (100 %), mesa (90 %), pared (50 %) y aire (70 %). Conclusión: Las máquinas generadoras de gas O3 presentaron potencial antimicrobiano como medida de control de microorganismos presentes en superficies y aire interior climatizado artificialmente, lo que lo convierte en un desinfectante factible para ser usado.


Abstract Objective: Assess the antimicrobial action of ozone gas (O3) on surfaces and artificially cooled ambient air. Methods: Cross-sectional experimental/laboratory study carried out in ten rooms of a medical microbiology research lab, with class 2 biosafety risk. The demarcated surfaces on the floor, wall and counter were assessed in relation to the presence or absence of microorganisms, based on collections done with swabs dampened in sterile distilled water, before and after exposure to ozone gas produced by two different generators. After this procedure, each swab was inoculated on the surface of a Brain Heart Infusion Agar DIFCO® (BHI) culture, followed by incubation at 35ºC for 24 hours. For the microbiological analysis of the air, a petri dish with BHI was openly exposed for one hour, before and after treatment with O3 gas, and were incubated according to the same criteria. Results: The antimicrobial activity of the O3 gas produced by both generators was checked in all the areas investigated, with records indicating a decrease in the number of colony-forming units. The antimicrobial inhibition potential of the generators was close to the analysis criteria adopted, particularly for the floor and counter areas. Based on all the rooms and microbial inhibition percentages, in relation to the two generators, the results were: floor (100%), counter (90%), wall (50%) and air (70%). Conclusion: The O3 generators had antimicrobial potential as a procedure for controlling microorganisms present on surfaces and in artificially cooled ambient air, constituting a feasible sanitizer.


Subject(s)
Ozone , Ozonation , Disinfection/methods , Microbiological Techniques , Anti-Infective Agents , Cross-Sectional Studies , Containment of Biohazards
15.
Int. j. odontostomatol. (Print) ; 14(4): 694-700, dic. 2020. tab, graf
Article in English | LILACS | ID: biblio-1134559

ABSTRACT

ABSTRACT: We present an integrative review of the literature conducted to find and analyse specific measures for disinfection and/or sterilization of intraoral complex instruments, applicable to intraoral scanners. We performed a two-stage search in the PubMed/MEDLINE, SciELO, REDALYCS, and LILACS databases, and the Google Scholar website, which included full articles in Spanish, Portuguese, and English. The strategy associated the terms 'disinfection', 'biosecurity', 'decontamination', and (a) 'intraoral scanners', and (b) other 'semi-critical' intraoral complex instruments, according to the American Dental Association definition (e.g., 'turbine', etc). Strategy (a) produced just one outcome, whereas (b) produced nine articles, which only suggested low-level disinfectants.The lack of empirically based protocols that allow effective microbiological control makes it necessary to create a new categorization for these instruments when trying to comply with American Dental Association recommendations for dental practice.


RESUMEN: Presentamos una revisión integradora de la literatura realizada para encontrar y analizar medidas específicas de desinfección y / o esterilización de instrumentos complejos intraorales, aplicables a los escáneres intraorales. Realizamos una búsqueda en dos etapas en las bases de datos PubMed / MEDLINE, SciELO, REDALYCS y LILACS, y en el sitio web Google Scholar, que incluía artículos completos en español, portugués e inglés. La estrategia asoció los términos 'desinfección', 'bioseguridad', 'descontaminación' y (a) 'escáneres intraorales', y (b) otros instrumentos complejos intraorales 'semicríticos', según la definición de la Asociación Dental Ameri- cana (p. Ej., 'turbina', etc.). La estrategia (a) produjo un solo resultado, mientras que (b) produjo nueve artículos, que solo sugirieron desinfectantes de bajo nivel. La falta de protocolos de base empírica que permitan un control microbiológico efectivo hace necesario crear una nueva categorización para estos instrumentos, cuando se trata de cumplir con las recomendaciones de la Asociación Dental Americana para la práctica dental.


Subject(s)
Humans , Sterilization/methods , Dental Impression Technique/instrumentation , Infection Control/methods , Practice Patterns, Dentists'/standards , Societies, Dental , Sterilization/standards , Disinfection/methods , Centers for Disease Control and Prevention, U.S. , Dental Equipment
16.
Rev. cuba. pediatr ; 92(4): e970, oct.-dic. 2020. tab
Article in Spanish | CUMED, LILACS | ID: biblio-1144515

ABSTRACT

Introducción: El estetoscopio se ha descrito como un fómite capaz de transmitir patemas de tipo infeccioso a los trabajadores de la salud Objetivo: Caracterizar la presencia de contaminación microbiana en estetoscopios utilizados por proveedores de salud. Métodos: Estudio transversal en 50 muestras microbiológicas obtenidas de estetoscopios pertenecientes a proveedores de salud que laboran en el Hospital Pediátrico Cerro, de junio-octubre de 2019. Se aplicó una encuesta para evaluar variables demográficas y epidemiológicas de sus titulares relacionadas con la aplicación de medidas descontaminantes. Se examinaron los resultados mediante el análisis porcentual y prueba de Ji-cuadrada para buscar asociación significativa (p≤0,05) con los hábitos higiénicos. Resultados: El 100 por ciento de los estetoscopios están contaminados. Los aislamientos más frecuentes fueron: Staphylococcus alba 40,3 por ciento, Staphylococcus aureus 32,6 por ciento y Klebsiella pneumoniae 3,8 por ciento. Las áreas de mayor contagio fueron las de misceláneas (44,2 por ciento) y de respiratorio (36,5 por ciento). El personal con notable contaminación en sus equipos fueron los alumnos (81,4 por ciento) y los especialistas (14,8 por ciento). Las causas que determinaron no practicar la desinfección en los alumnos fue la falta de enseñanza (45,4 por ciento); en los especialistas, la carencia de hábitos (33,3 por ciento) y la falta de desinfectante (66,3 por ciento). Las bacterias gramnegativas fueron sensibles en su mayoría a los aminoglucósidos y Staphylococcus aureus a la clindamicina, vancomicina, ciprofloxacino y cloranfenicol. Conclusiones: Existe alta frecuencia de contaminación en los estetoscopios utilizados por los proveedores de salud motivado por la falta de hábito de desinfección en médicos y su desconocimiento en alumnos(AU)


Introduction: Stethoscopes has been described as a fomite which is able to transmit infectious agents to health care workers. Objective: To describe the presence of microbial contamination in stethoscopes used by health care providers. Methods: Cross-sectional study in 50 microbiological samples obtained from stethoscopes belonging to health care providers whom worked in Cerro Pediatric Hospital from June to October, 2019. It was applied a survey to evaluate demographic and epidemiologic variables of the owners related with the implementation of disinfection measures. The results were examined through percentage analysis and the Ji-square test to look for significative relation (p≤0,05) with hygene habits. Results: 100 percent of the stethoscopes were contamined. The most frequent isolated agents were: Staphylococcus alba 40.3 percent, Staphylococcus aureus 32.6 percent and Klebsiella pneumoniae 3.8 percent. The hospital areas with more contagion were: Miscellany (44.2 percent) and Respiratory (36.5 percent). The personnel with more contamination in their equipments were: students (81.4 percent) and specialists (14.8 percent). The cause of not doing the disinfection processes in the students was the lack of knowledge (45.4 percent); and in the specialists was the lack of hygene habits and the lack of disinfectant solutions (66.3 percent). Negative Gran bacteria were mostly sensitive to aminoglycosides and Staphylococcus aureus to clindamycin, vancomycin, ciprofloxacin and cloramphenicol. Conclusions: There is high frequency of contamination in the stethoscopes used by health care providers, mainly motived by the lack of disinfection habits in physicians and lack of knowledge on it in the students(AU)


Subject(s)
Disinfection/methods , Stethoscopes/microbiology , Fomites/microbiology , Cross-Sectional Studies , Biological Contamination/prevention & control
17.
São Paulo med. j ; São Paulo med. j;138(6): 505-514, Nov.-Dec. 2020. tab, graf
Article in English | LILACS, SES-SP | ID: biblio-1145128

ABSTRACT

ABSTRACT BACKGROUND: Faced with a pandemic, all healthcare actions need to reflect best practices, in order to avoid high transmissibility, complications and even hospitalizations. For hospital environments, the products recommended and authorized by regulatory institutions for environmental cleaning and disinfection need to be highly effective. OBJECTIVE: To identify, systematically evaluate and summarize the best available scientific evidence on environmental cleaning to prevent COVID-19 infection. DESIGN AND SETTING: A systematic review of studies analyzing cleaning products that inactivate coronavirus, conducted within the evidence-based health program of a federal university in São Paulo (SP), Brazil. METHODS: A systematic search of the relevant literature was conducted in the PubMed, EMBASE, Cochrane Library, CINAHL and LILACS databases, for articles published up to May 27, 2020, relating to studies evaluating cleaning products that inactivate coronavirus in the environment. RESULTS: Seven studies were selected. These analyzed use of 70% alcohol, detergent, detergent containing iodine, household bleach, sodium hypochlorite, hydrogen peroxide, chlorine dioxide, glutaraldehyde, ultraviolet irradiation and plasma air purifier. The effectiveness of treating sewage with sodium hypochlorite and chlorine dioxide was also evaluated. CONCLUSION: Disinfection of environments, especially those in ordinary use, such as bathrooms, needs to be done constantly. Viral inactivation was achieved using chlorine-based disinfectants, alcohol, detergents, glutaraldehyde, iodine-containing detergents, hydrogen peroxide compounds and household bleaches. Alcohol showed efficient immediate activity. In sewage, sodium hypochlorite had better action than chlorine dioxide. REGISTRATION NUMBER: DOI: 10.17605/OSF.IO/YC5P4 in the Open Science Framework.


Subject(s)
Humans , Disinfection/methods , Infection Control/methods , COVID-19/prevention & control , Brazil , Disinfectants
19.
Buenos Aires; IECS; 13 ago. 2020.
Non-conventional in Spanish | LILACS, BRISA | ID: biblio-1119354

ABSTRACT

CONTEXTO CLÍNICO: La enfermedad por el Coronavirus 2019 (COVID-19), por su sigla en inglés Coronavirus Disease 2019) es una enfermedad respiratoria de humanos por un nuevo Coronovirus identificado con la sigla SARS-CoV-2. TECNOLOGÍA: La cabina sanitizante es una camera, túnel o puerta donde las personas son desinfectadas mediante distintos medios. En algunos casos son cerradas y la desinfección es estática y en otros son abiertas y la misma es de forma dinámica mientras la persona atraviesa el túnel sin tener que detenerse. Los medios de desinfección pueden ser mediante rayos ultravioletas (UV), ozono o algún desinfectante químico. OBJETIVO: El objetivo del presente informe es evaluar la evidencia disponible acerca de la eficacia y seguridad de la cabina sanitizante en el tratamiento de la infección por COVID-19. MÉTODOS: Se realizó una búsqueda en las principales bases de datos bibliográficas, en buscadores genéricos de internet, financiadores de salud. Se priorizó la inclusión de revisiones sistemáticas (RS), ensayos clínicos controlados aleatorizados (ECAs), evaluaciones de tecnologías sanitarias (ETS), evaluaciones económicas, guías de práctica clínica (GPC) y recomendaciones de diferentes organizaciones de salud. RESULTADOS: Se incluyeron cuatro evaluaciones de tecnológicas sanitarias y ocho GPC o recomendaciones, acerca del uso sanitizantes en la prevención de la infección por COVID-19. CONCLUSIONES: No se encontró evidencia acerca de la eficacia ni la seguridad de la implementación de la cabina (o túnel) sanitizante para la prevención de COVID-19.


Subject(s)
Humans , Chambers , Disinfection/methods , Coronavirus Infections/prevention & control , Technology Assessment, Biomedical , Health Evaluation , Cost-Benefit Analysis
20.
Guatemala; MSPAS; 28 jul 2020. 10 p. graf.
Non-conventional in Spanish | LILACS, LIGCSA | ID: biblio-1150792

ABSTRACT

El documento enumera las medidas de seguridad que deberán seguirse para reducir el riesgo de contagio: cómo colocarse la mascarilla, cómo utilizarla mientras se la tiene, cómo lavarse las manos adecuadamente, las medidas de saneamiento que deberán seguirse en casa, trabajo, vehículo y si se tienen contagiados de COVID 19 en casa.


Subject(s)
Humans , Male , Female , Pneumonia, Viral/prevention & control , Hand Disinfection/standards , Coronavirus Infections/prevention & control , Personal Protective Equipment/standards , Betacoronavirus , Disinfection/methods , Personal Protection , Guatemala/epidemiology
SELECTION OF CITATIONS
SEARCH DETAIL