Bleach-concentrated direct sputum smear microscopy procedure for diagnosis of pulmonary tuberculosis in poverty areas / Microscopia direta de amostra de escarro concentrado em água sanitária para diagnóstico de tuberculose pulmonar

ABSTRACT INTRODUCTION: Pulmonary tuberculosis caused by Mycobacterium tuberculosis is a serious public health problem affecting millions of people worldwide. The development of easy and low-cost diagnostic methods is crucial for disease control in rural remote and poverty areas and among vulnerable groups. OBJECTIVE: To evaluate the accuracy of laboratory methods for the diagnosis of Pulmonary tuberculosis. MATERIAL AND METHODS: Sputum samples from patients with clinical signs and symptoms were analyzed by microscopy after chemical treatment and spontaneous sedimentation and compared with methods employed routinely: direct sputum smear microscopy, culture, and GeneXpert®MTB/RIF. RESULTS: From the samples analyzed, 16% were positive by microscopy in the processed samples, 18% by both culture and Xpert®MTB/RIF, while 13% in the direct microscopy. The processed samples showed a 31% increase in positivity (57 samples) compared to conventional direct microscopy. In the analysis of the accuracy of the evaluated methods, all the results were statistically significant proving that they were not randomly positive or negative and confirming that there is a tendency for these results. CONCLUSION: Chemical treatment and spontaneous sedimentation of the sputum samples procedure represent an effective diagnostic tool in situations where more advanced technologies are not feasible. Besides the higher accuracy and greater detection of positive cases regarding the direct smear, the procedure strengthens biosafety by decreasing the risks of aerial contamination by Mycobacterium tuberculosis for laboratory professionals.

RESUMEN INTRODUCCIÓN: La tuberculosis pulmonar causada por Mycobacterium tuberculosis es un grave problema de salud pública que afecta millones de individuos en el mundo. El desarrollo de métodos de diagnóstico fáciles y de bajo costo es esencial para el control de la enfermedad en zonas rurales remotas y pobres y entre los grupos vulnerables. OBJETIVO: Evaluar la exactitud de métodos de laboratorio para el diagnóstico de tuberculosis pulmonar. MATERIAL Y MÉTODO: Las muestras del esputo de pacientes con signos y síntomas clínicos fueron analizadas por microscopía luego de tratamiento químico y sedimentación espontánea y comparados con métodos empleados ordinariamente: baciloscopía directa de esputo, cultivo y GeneXpert® MTB/RIF. RESULTADOS: Entre las muestras analizadas, 16% fueron positivas por microscopía en las muestras procesadas; 18% por cultivo y Xpert® MTB/RIF; y 13% por microscopía directa. Las muestras procesadas presentaran un aumento de 31% de positividad (57 muestras) con respecto a la microscopía directa convencional. En el análisis de los métodos, todos los resultados fueron estadísticamente significativos, comprobando que no eran aleatoriamente positivos o negativos y confirmando que hay una tendencia para esos resultados. CONCLUSIÓN: El tratamiento químico y la sedimentación espontánea de las muestras de esputo representan una herramienta diagnóstica eficaz en las situaciones en las cuales tecnologías más avanzadas no son viables. Además de la mayor precisión y mayor detección de casos positivos de lo que hace el frotis directo, el procedimiento fortalece la bioseguridad, disminuyendo los riesgos de contaminación del aire por Mycobacterium tuberculosis para el personal de laboratorio.

RESUMO INTRODUÇÃO: A tuberculose pulmonar causada por Mycobacterium tuberculosis é um grave problema de saúde pública que afeta mundialmente milhões de indivíduos. O desenvolvimento de métodos de diagnóstico fáceis e de baixo custo é essencial para o controle da doença nas áreas rurais remotas e de pobreza e entre os grupos vulneráveis. OBJETIVO: Avaliar a acurácia dos métodos laboratoriais para o diagnóstico de tuberculose pulmonar. MATERIAL E MÉTODOS: As amostras de escarro de pacientes com sinais e sintomas clínicos foram analisadas por microscopia após tratamento químico e sedimentação espontânea e comparadas com métodos empregados rotineiramente: baciloscopia direta do escarro, cultura e GeneXpert® MTB/RIF. RESULTADOS: Das amostras analisadas, 16% foram positivas por microscopia nas amostras processadas; 18%, por cultura e Xpert® MTB/RIF; e 13%, por microscopia direta. As amostras processadas apresentaram um aumento de 31% de positividade (57 amostras) em relação à microscopia direta convencional. Na análise dos métodos avaliados, todos os resultados foram estatisticamente significativos, comprovando que não eram positivos ou negativos aleatoriamente e confirmando que há uma tendência para esses resultados. CONCLUSÃO: O tratamento químico e a sedimentação espontânea das amostras de escarro representam uma ferramenta diagnóstica eficaz nas situações em que tecnologias mais avançadas não são viáveis. Além da maior precisão e maior detecção de casos positivos em relação ao esfregaço direto, o procedimento reforça a biossegurança, diminuindo os riscos de contaminação aérea por Mycobacterium tuberculosis para profissionais de laboratório

Improved green coffee oil antioxidant activity for cosmetical purpose by spray drying microencapsulation

AbstractThe oil extracted by cold pressing unroasted coffee beans, known as green coffee oil, has been widely used for cosmetic purposes. The objective of this work was to prepare and characterize microcapsules containing green coffee oil and to verify its antioxidant activity under the effect of light, heat and oxygen. The encapsulating material was arabic gum and the microcapsules were obtained by spray drying an oil-in-water emulsion containing green coffee oil. The characterization of the microcapsules was performed by laser diffraction, scanning electron microscopy, differential scanning calorimetry and the antioxidant activity. The antioxidant activity was determined by a modified active oxygen method with light irradiation, heating and oxygen flux. The microparticles were effectively produced by the proposed spray drying method, which resulted in green coffee oil loads of 10 and 30%. The morphological evaluation of microcapsules showed spherical shape with smooth and non-porous surfaces, demonstrating the adequacy of arabic gum as encapsulating material. Calorimetric analysis of individual components and microcapsules with 10 and 30% green coffee oil showed diminished degradation temperatures and enthalpy, suggesting a possible interaction between arabic gum and green coffee oil. The antioxidant activities for pure green coffee oil and its microcapsules with loads of 10 and 30% showed high activity when compared to the reference antioxidant alfa-tocopherol. Microcapsules containing 10 and 30% of oil showed 7-fold and 3-fold increase in antioxidant activity when compared to pure green coffee oil. The new method for antioxidant activity determination proposed here, which applies heat, light and oxygen simultaneously, suggests a high improvement in encapsulated green coffee oil when compared to this active alone. The results showed herein indicate a promising industrial application of this microencapsulated green coffee oil.