23 research outputs found

    2 nd Brazilian Consensus on Chagas Disease, 2015

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    Abstract Chagas disease is a neglected chronic condition with a high burden of morbidity and mortality. It has considerable psychological, social, and economic impacts. The disease represents a significant public health issue in Brazil, with different regional patterns. This document presents the evidence that resulted in the Brazilian Consensus on Chagas Disease. The objective was to review and standardize strategies for diagnosis, treatment, prevention, and control of Chagas disease in the country, based on the available scientific evidence. The consensus is based on the articulation and strategic contribution of renowned Brazilian experts with knowledge and experience on various aspects of the disease. It is the result of a close collaboration between the Brazilian Society of Tropical Medicine and the Ministry of Health. It is hoped that this document will strengthen the development of integrated actions against Chagas disease in the country, focusing on epidemiology, management, comprehensive care (including families and communities), communication, information, education, and research

    Transverse permeability determination and influence in resin flow through an orthotropic medium in the RTM process

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    <p></p><p>ABSTRACT Resin Transfer Molding (RTM) process is commonly used to produce high quality polymeric composites with simple or complex geometries in small to large sizes. In RTM process a preformed reinforcement is positioned inside the mold cavity. This dry reinforcement is actually a fibrous porous media whereby resin will flow. The mold is then closed and resin is injected. After complete impregnation of the reinforcement, resin cure process takes place. Numerical simulation is a very useful tool for mold design and process optimization, however resin and reinforced medium physical properties must be precisely determined. Medium permeability is probably the most important and most difficult parameter to be evaluated. In this work it is proposed a numerical/experimental methodology to determine transverse permeability in reinforcements used within RTM process. PAM-RTM software was chosen to simulate resin flow through the reinforced medium. Proposed methodology uses the inverse parameter estimation method to calculate the unknown permeability. Newton-Raphson method was used to solve the associated algebraic equation system, on which PAM-RTM software is used to calculate resin injection times. Results have shown that with previous knowledge (taken from literature or obtained experimentally) of the in-plane permeabilities ( Kxx and Kyy ), physical properties of the resin (ρ, µ), medium porosity (ε) and total filling time (t) it is possible to estimate transverse permeability in thick pieces. It was also performed a numerical study about the influence of transverse permeability in resin flow inside the mold. This study predicted several possible problems that may occur when transverse permeability is much smaller than in-plane permeabilities. Finally, it is possible to state that mold design and proper fibrous reinforcement choice can be optimized when numerical techniques are used.</p><p></p

    Investigação de variantes gênicas de canais iônicos em pacientes com síndrome do QT longo Investigación de variantes génicas de canales iónicos en pacientes con síndrome del QT largo Investigation of ion channel gene variants in patients with long QT syndrome

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    FUNDAMENTO: A síndrome do QT longo (SQTL) é uma síndrome arrítmica herdada com aumento do intervalo QT e risco de morte súbita. Mutações nos genes KCNQ1, KCNH2 e SCN5A respondem por 90% dos casos com genótipo determinado, e a genotipagem é informativa para aconselhamento genético e melhor manejo da doença. OBJETIVO: Investigação molecular e análise computacional de variantes gênicas de KCNQ1, KCNH2 e SCN5A associadas à SQTL em famílias portadoras da doença. MÉTODOS: As regiões codificantes dos genes KCNQ1, KCNH2 e SCN5A de pacientes com SQTL e familiares foram sequenciadas e analisadas utilizando o software Geneious ProTM. RESULTADOS: Foram investigadas duas famílias com critérios clínicos para SQTL. A probanda da Família A apresentava QTC = 562 ms, Escore de Schwartz = 5,5. A genotipagem identificou a mutação G1714A no gene KCNH2. Foi observado QTC = 521 ± 42 ms nos familiares portadores da mutação contra QTC = 391 ± 21 ms de não portadores. A probanda da Família B apresentava QTc = 551 ms, Escore de Schwartz = 5. A genotipagem identificou a mutação G1600T, no mesmo gene. A análise dos familiares revelou QTC = 497 ± 42 ms nos portadores da mutação, contra QTC = 404 ± 29 ms nos não portadores. CONCLUSÃO: Foram encontradas duas variantes gênicas previamente associadas à SQTL em duas famílias com diagnóstico clínico de SQTL. Em todos os familiares portadores das mutações foi observado o prolongamento do intervalo QT. Foi desenvolvida uma estratégia para identificação de variantes dos genes KCNQ1, KCNH2 e SCN5A, possibilitando o treinamento de pessoal técnico para futura aplicação na rotina diagnóstica.<br>FUNDAMENTO: El síndrome del QT largo (SQTL) es un síndrome arrítmico heredado con aumento del intervalo QT y riesgo de muerte súbita. Mutaciones en los genes KCNQ1, KCNH2 y SCN5A responden por 90% de los casos con genotipo determinado, y el genotipaje es informativo para aconsejamiento genético y mejor manejo de la enfermedad. OBJETIVO: Investigación molecular y análisis computacional de variantes génicas de KCNQ1, KCNH2 y SCN5A asociadas a la SQTL en familias portadoras de la enfermedad. MÉTODOS: Las regiones codificantes de los genes KCNQ1, KCNH2 y SCN5A de pacientes con SQTL y familiares fueron secuenciadas y analizadas utilizando el software Geneious Pro®. RESULTADOS: Fueron investigadas dos familias con criterios clínicos para SQTL. La probanda de la Familia A presentaba QT C = 562 ms, Escore de Schwartz = 5,5. El genotipaje identificó la mutación G1714A en el gen KCNH2. Fue observado QT C = 521 ± 42 ms en los familiares portadores de la mutación contra QT C = 391 ± 21 ms de no portadores. La probanda de la Familia B presentaba QT C = 551 ms, Escore de Schwartz = 5. El genotipaje identificó la mutación G1600T, en el mismo gen. El análisis de los familiares reveló QT C = 497 ± 42 ms en los portadores de la mutación, contra QT C = 404 ± 29 ms en los no portadores. CONCLUSIÓN: Fueron encontradas dos variantes génicas previamente asociadas a la SQTL en dos familias con diagnóstico clínico de SQTL. En todos los familiares portadores de las mutaciones fue observada la prolongación del intervalo QT. Fue desarrollada una estrategia para identificación de variantes de los genes KCNQ1, KCNH2 y SCN5A, posibilitando el entrenamiento de personal técnico para futura aplicación en la rutina diagnóstica.<br>BACKGROUND: The long QT syndrome (LQTS) is an inherited arrhythmia syndrome with increased QT interval and risk of sudden death. Mutations in genes KCNQ1, KCNH2 and SCN5A account for 90% of cases with genotype determined, and genotyping is informative for genetic counseling and better disease management. OBJECTIVE: Molecular investigation and computational analysis of gene variants of KCNQ1, KCNH2 and SCN5A associated with LQTS, in families with the disease. METHODS: The coding regions of genes KCNQ1, KCNH2 and SCN5A in patients with LQTS and their family members were sequenced and analyzed using Geneious ProTM software. RESULTS: Two families with clinical criteria for LQTS were investigated. The proband of Family A had QTC = 562 ms, Schwartz Score = 5.5. The genotyping identified the G1714A mutation in the KCNH2 gene. QTC = 521 ± 42 ms was observed in family members carrying the mutation against QTC = 391 ± 21 ms for non-carriers. The proband of Family B had QTc = 551 ms, Schwartz Score = 5.5. The genotyping identified the G1600T mutation, in the same gene. The analysis of family members revealed QTC = 497 ± 42 ms in mutation carriers, compared with QTC = 404 ± 29 ms in non-carriers. CONCLUSION: Two gene variants previously associated with LQTS were found in two families clinically diagnosed with LQTS. The prolongation of the QT interval was observed in all family members carrying the mutations. A strategy was developed to identify variants of genes KCNQ1, KCNH2 and SCN5A, making it possible to train technical staff for future application to diagnosis routine

    Investigação de variantes gênicas de canais iônicos em pacientes com síndrome do QT longo

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    FUNDAMENTO: A síndrome do QT longo (SQTL) é uma síndrome arrítmica herdada com aumento do intervalo QT e risco de morte súbita. Mutações nos genes KCNQ1, KCNH2 e SCN5A respondem por 90% dos casos com genótipo determinado, e a genotipagem é informativa para aconselhamento genético e melhor manejo da doença. OBJETIVO: Investigação molecular e análise computacional de variantes gênicas de KCNQ1, KCNH2 e SCN5A associadas à SQTL em famílias portadoras da doença. MÉTODOS: As regiões codificantes dos genes KCNQ1, KCNH2 e SCN5A de pacientes com SQTL e familiares foram sequenciadas e analisadas utilizando o software Geneious ProTM. RESULTADOS: Foram investigadas duas famílias com critérios clínicos para SQTL. A probanda da Família A apresentava QTC = 562 ms, Escore de Schwartz = 5,5. A genotipagem identificou a mutação G1714A no gene KCNH2. Foi observado QTC = 521 ± 42 ms nos familiares portadores da mutação contra QTC = 391 ± 21 ms de não portadores. A probanda da Família B apresentava QTc = 551 ms, Escore de Schwartz = 5. A genotipagem identificou a mutação G1600T, no mesmo gene. A análise dos familiares revelou QTC = 497 ± 42 ms nos portadores da mutação, contra QTC = 404 ± 29 ms nos não portadores. CONCLUSÃO: Foram encontradas duas variantes gênicas previamente associadas à SQTL em duas famílias com diagnóstico clínico de SQTL. Em todos os familiares portadores das mutações foi observado o prolongamento do intervalo QT. Foi desenvolvida uma estratégia para identificação de variantes dos genes KCNQ1, KCNH2 e SCN5A, possibilitando o treinamento de pessoal técnico para futura aplicação na rotina diagnóstica

    Effect of Gamma-Oryzanol as Therapeutic Agent to Prevent Cardiorenal Metabolic Syndrome in Animals Submitted to High Sugar-Fat Diet

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    Background: The high consumption of fat and sugar contributes to the development of obesity and co-morbidities, such as diabetes, and cardiovascular and kidney diseases. Different strategies have been used to prevent these diseases associated with obesity, such as changes in eating habits and/or the addition of dietary components with anti-inflammatory and anti-oxidant properties, such as gamma-oryzanol (γOz) present mainly in bran layers and rice germ. Methods: Animals were randomly divided into four experimental groups and fed ad libitum for 20 weeks with control diet (C, n = 8), control diet + γOz (C + γOz, n = 8), high-sugar and high-fat diet (HSF, n = 8), and high-sugar and high-fat diet + γOz (HSF + γOz, n = 8). HSF groups also received water + sucrose (25%). The dose of γOz was added to diets to reach 0.5% of final concentration (w/w). Evaluation in animals included food and caloric intake, body weight, plasma glucose, insulin, triglycerides, uric acid, HOMA-IR, glomerular filtration rate, protein/creatinine ratio, systolic blood pressure, and Doppler echocardiographic. Results: Animals that consumed the HSF diet had weight gain compared to group C, increased insulin, HOMA, glucose and triglycerides, there were also atrial and ventricular structural alterations, deterioration of systolic and diastolic function, decreased glomerular filtration rate, and proteinuria. Gamma-oryzanol is significantly protective against effects on body weight, hypertriglyceridemia, renal damage, and against structural and functional alteration of the heart. Conclusion: Gamma-oryzanol shows potential as a therapeutic to prevent Cardiorenal Metabolic Syndrome
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