Assessing the bleaching effect of an experimental stabilized chlorine dioxide agent used for internal bleaching purposes

Aim Assessing the intracoronal bleaching effectiveness of an experimental chlorine dioxide product, based on the walking bleach technique. Methods Extracted bovine incisors were artificially stained with bovine blood and filled with zinc phosphate cement at cementoenamel junction level. Teeth were divided into 3 groups (n=10): (SP) sodium perborate added with distilled water, (CD) chlorine dioxide and (C) control - dry cotton inserted into the pulp chamber. Bleaching agents were used at 0, 7 and 14 days. VITA Easyshadetm (∆Eab) was used to analyze tooth color at the 7th, 14th and 21st days, based on the CIE2000 system. Data were analyzed through ANOVA and Tukey's test. Results There were no statistically significant differences in Δb, ΔE, ΔE00 and ΔWID between CD and the control group. These parameters have shown significant differences between CD and SP, which differed from the control. However, they did not show significant differences either in the control group or in CD at the 7th, 14th and 21st days. Values recorded for SP at the 7th day differed from those recorded at the 14th and 21st days. Δa has shown differences within the same group at the 7th, 14th and 21st days. There was no difference between groups, when they were compared at the same day (7th and 14th). The control group differed from SP at the 21st day. CD did not differ from the other two groups. ΔL did not show differences between groups and times. Conclusion Stabilized chlorine dioxide (0.07%, at pH 3.5) should not be used as intracoronal bleaching agent along with the walking bleach technique.

Dióxido de cloro y derivados del cloro para prevenir o tratar la COVID-19: revisión sistemática / Chlorine dioxide and chlorine derivatives for the prevention or treatment of COVID-19: a systematic review

RESUMEN Objetivos: Realizar una revisión sistemática acerca de la efectividad y seguridad del uso de dióxido de cloro y derivados del cloro, en la prevención o el tratamiento de la COVID-19. Materiales y métodos: Se siguieron las pautas internacionales de elaboración de revisiones sistemáticas de PRISMA y el Manual Cochrane para revisiones sistemáticas de intervenciones. La estrategia de búsqueda la desarrolló un bibliotecario y la revisaron dos de los autores. Se complementó la búsqueda electrónica con una búsqueda manual. Se incluyeron ensayos clínicos aleatorizados, estudios cuasiexperimentales, estudios de cohorte, estudios de casos y controles, estudios de corte transversal y reportes de casos; y se excluyeron estudios in vitro o realizados en animales. Dos revisores, de forma independiente, seleccionaron los estudios según los criterios de elegibilidad definidos, usando el aplicativo web Rayyan, en caso de discordancia se hizo partícipe a un tercer revisor. El protocolo de la revisión sistemática se registró en PROSPERO (CRD42020200641). Resultados: No se identificó ningún estudio publicado ni en proceso de publicación que haya evaluado el uso del dióxido de cloro o derivados del cloro, administrado por vía inhalatoria, oral o parenteral en humanos, como agente preventivo o terapéutico de la COVID-19 o en infecciones por otros coronavirus. Solo se identificó el registro de un único estudio catalogado como observacional que hasta ahora no tiene resultados. Conclusiones: A la fecha, no existe evidencia científica que apoye el uso del dióxido de cloro o derivados del cloro para prevenir o tratar la COVID-19.

ABSTRACT Objectives: To systematically review the effectiveness and safety of chlorine dioxide solution and chlorine derivatives used in the prevention or treatment of COVID-19. Methods: This review adheres to the Preferred Reporting Items for Systematic Reviews and Meta-analysis (PRISMA) and follows the guidelines provided in the Cochrane Handbook for Systematic Reviews of Interventions. A librarian developed and executed the search strategy; it was further reviewed by two of the authors and complemented by manual search. Randomized clinical trials, quasi-experimental studies, cohort studies, case-control studies, cross-sectional studies, and case reports were included; in vitro or animal studies were excluded. Abstract and full-text screening according to pre-defined eligibility criteria were performed by two reviewers independently using web application Rayyan QCRI. Disagreements on study selection were resolved by a third reviewer. The systematic review protocol was registered in PROSPERO (CRD42020200641). Results: Neither published nor pre-print studies evaluating the use of chlorine dioxide or derivatives on SARS-CoV-2 infection were identified. The only finding was an unpublished observational study registry which has no results released yet. Conclusions: To date, there are no scientific evidence to uphold the use of chlorine dioxide or derivatives as preventive or therapeutic agents against COVID-19.

Interacción de la 1-yodoclordecona como radiotrazador, con el grupo carboxilato en carbón activado / Interaction of 1-iodochlordecone, as radioactive tracer, with the carboxylate group on activated carbon

La clordecona es un compuesto organoclorado sintético, empleado como insecticida agrícola y clasificado como contaminante orgánico persistente de aguas y suelos por la Convención de Estocolmo. El uso de carbones activados es una metodología muy popular para la purificación de aguas contaminadas con contaminantes orgánicos persistentes. La clordecona marcada con yodo radiactivo (1-yodoclordecona) puede ser un radiotrazador adecuado para estudios de adsorción, de disponibilidad medioambiental y biodistribución de la clordecona. La selección del carbón activado más adecuado para la adsorción de clordecona requiere evaluar la eficiencia de una gran cantidad de los mismos, de manera empírica, lo que aumenta los costos de investigación. En el presente trabajo, un modelo simplificado de carbón activado con siete anillos aromáticos (coroneno) y un grupo funcional en el borde (carboxilato) se utilizó para evaluar in silico la influencia de este grupo superficial en la adsorción de la clordecona y la 1-yodoclordecona, bajo condiciones neutras de pH. Para ello se empleó la metodología de Hipersuperficie de Múltiples Mínimos con el hamiltoniano semiempírico PM7. Los resultados obtenidos muestran que para el carboxilato en medio neutro existen asociaciones significativas que sugieren quimisorción de la clordecona en el carbón activado. La 1-yodoclordecona se comporta de manera similar a la clordecona en su interacción con el carboxilato, por lo que constituye un buen candidato a radiotrazador para estudios experimentales.

Chlordecone is a synthetic organo chlorinated compound that has been used as pesticide. It has been identified and listed as persistent organic pollutant by the Stockholm Convention. The use of activated carbon filters is one of the most widely popular solutions for water decontamination. The chlordecone labeled with radioactive iodine (1-iodochordecone) is a potential radioactive tracer for studying adsorption, environmental availability and bio-distribution of chlordecone. The selection of the best suited activation carbon for this type of contaminants is mainly an empiric process, increasing the costs of research. A simplified activation carbon model, consisting of a seven ring graphene sheet with a functional group (carboxylate) was used to assess the interaction of chlordecone and 1-iodochlordecone with this surface group under neutral pH conditions over the adsorption process. The Multiple Minima Hypersurface methodology with the semiempirical Hamiltonian PM7 was used. The results indicate that for carboxylate, in neutral conditions, significant associations appear which suggest chemisorption in activated carbon. No significant differences were observed for the interactions of chlordecone and 1-iodochlordecone with carboxylate, making 1-iodochlordecone a good candidate as a radioactive tracer in medical research.

Alterações no pH e teor de cloro ativo em função da embalagem e local de armazenamento de solução de hipoclorito de sódio em diferentes concentrações / Alterations in pH and active chlorine purport resulting from package and storage local of sodium hypochlorite solution in different concentrations

O objetivo do presente estudo foi verificar a influência do pH, embalagem e local de armazenamento na estabilidade química da solução de hipoclorito de sódio em diferentes concentrações. Quinze litros da solução de hipoclorito de sódio foram preparados a partir da diluição de uma solução concentrada para cada uma das seguintes concentrações 0,57 por cento, 1,16 por cento, 2,98 por cento e 6 por cento, perfazendo um total de sessenta litros. Após o preparo, as soluções, foram armazenadas em cinco tipos de embalagens (frasco de vidro âmbar, frasco de vidro transparente, frasco de plástico âmbar, frasco de plástico transparente e frasco de plástico branco opaco) e em três locais diferentes (luminosidade ambiente, ambiente ao abrigo da luz e refrigerador) por um tempo experimental de 180 dias. A análise do pH foi realizada em 1, 7, 15, 30, 60, 90, 120, 150 e 180 dias de armazenamento, por meio de um peagâmetro. O teor de cloro foi verificado pelo método da iodometria em triplicata no início do experimento e após os 180 dias de armazenamento. Verificou-se que todos os valores de pH encontrados foram superiores a 11, sendo, portanto, favoráveis para a estabilidade das soluções de hipoclorito de sódio analisadas. Os fatores que interferiram na estabilidade química das soluções analisadas foram a embalagem e o local de armazenamento. Em relação à embalagem de armazenamento, devem-se usar frascos de vidro ou plástico âmbar e armazená-los em refrigerador.