The macroeconomic impact of a dengue outbreak: Case studies from Thailand and Brazil.

BACKGROUND: Dengue is spreading in (sub)tropical areas, and half of the global population is at risk. The macroeconomic impact of dengue extends beyond healthcare costs. This study evaluated the impact of dengue on gross domestic product (GDP) based on approaches tailored to two dengue-endemic countries, Thailand and Brazil, from the tourism and workforce perspectives, respectively. FINDINGS: Because the tourism industry is a critical economic sector for Thailand, lost tourism revenues were estimated to analyze the impact of a dengue outbreak. An input-output model estimated that the direct effects (on international tourism) and indirect effects (on suppliers) of dengue on tourism reduced overall GDP by 1.43 billion US dollars (USD) (0.26%) in the outbreak year 2019. The induced effect (reduced employee income/spending) reduced Thailand's GDP by 375 million USD (0.07%). Overall, lost tourism revenues reduced Thailand's GDP by an estimated 1.81 billion USD (0.33%) in 2019 (3% of annual tourism revenue). An inoperability input-output model was used to analyze the effect of workforce absenteeism on GDP due to a dengue outbreak in Brazil. This model calculates the number of lost workdays associated with ambulatory and hospitalized dengue. Input was collected from state-level epidemiological and economic data for 2019. An estimated 22.4 million workdays were lost in the employed population; 39% associated with the informal sector. Lost workdays due to dengue reduced Brazil's GDP by 876 million USD (0.05%). CONCLUSIONS: The economic costs of dengue outbreaks far surpass the direct medical costs. Dengue reduces overall GDP and inflicts national economic losses. With a high proportion of the population lacking formal employment in both countries and low income being a barrier to seeking care, dengue also poses an equity challenge. A combination of public health measures, like vector control and vaccination, against dengue is recommended to mitigate the broader economic impact of dengue.

Photocatalytic activity, water absorption capacity, and thermal stability of white cement-based mortars with polysiloxane silicone and different doses of titanium dioxide nanoparticles / Actividad fotocatalítica, absorción de agua y estabilidad térmica de morteros a base de cemento blanco con silicona de polisiloxano y diferentes dosis de nanopartículas de dióxido de titanio

White cement-based mortars in urban areas are usually discolored and altered their esthetic properties due to air pollutants. The addition of nanoparticles in these mortars can provide photocatalytic properties that can decompose pollution agents. Likewise, other hydrophobic agents have been individually studied to improve outdoor building constructions. Therefore, this study presented the photocatalytic and hydrophobic effect of adding nano-TiO2and silicone hydrophobic powder (DOWSILTM) in a white cement matrix. The nano-TiO2 were characterized by X-Ray Diffraction (XRD); afterwards, the mortar was mixed with additions of nano-TiO2 (0.0, 0.5, 1.0, 3.0%) and DOWSILTM (0.0, 0.5%). The mortar's photocatalytic performance was evaluated using a modification of the standard Italian test Ente Nazionale Italiano di Unificazione 11259:2016 based on Rhodamine B (RhB) degradation on the sample exposed to UV irradiation. Therefore, mortar samples were subjected to UV irradiation to degrade the organic dye rhodamine B, monitoring their color variation using a C I E L* a* b* spectrophotometer. Moreover, the water permeability and the contact angle were evaluated. This research demonstrates that the white cement-based mortar samples added with nano-TiO2/DOWSILTM possess photocatalytic activity. The samples with the addition of 1.0%/0.5% and 3.0%/0.5% nano-TiO2/DOWSILTM showed a higher RhB degradation for R4 and R26. Therefore, these two materials can be employed in these proportions to improve the quality of the white cement-based mortars in urban constructions.

Los morteros a base de cemento blanco generalmente se decoloran y alteran sus propiedades estéticas debido a los contaminantes del aire en las áreas urbanas. Nanopartículas añadidas a estos morteros pueden proporcionar propiedades fotocatalíticas que descomponen estos contaminantes. Asimismo, otros agentes hidrofóbicos se han estu-diado individualmente para mejorar las construcciones a la intemperie. Por lo tanto, se presenta el efecto fotocatalítico e hidrofóbico al incorporar nano-TiO2 y silicona hidrofóbica de polisiloxano (DOWSILTM) en una matriz de cemento blanco. El nano-TiO2 se caracterizó por medio de Difracción de Rayos X (DRX); luego, el mortero se mezcló con adiciones de nano-TiO2 (0.0, 0.5, 1.0, 3.0%) y DOWSILTM (0.0, 0.5%). Los morteros se sometieron a irradiación UV, para degradar el colorante orgánico rodamina B, monitoreando su variación de color usando un espectrofotómetro C I E L* a* b*. La eficiencia fotocatalítica del mortero se evaluó utilizando una modificación de la norma italiana Ente Nazionale Italiano di Unificazione 11259:2016 basada en la degradación de la rodamina B (RhB) en el mortero expuesto a la radiación UV. Además, se evaluó la permeabilidad al agua y el ángulo de contacto. Esta investigación demostró que el mortero de cemento con nano-TiO2/ DOWSILTM posee actividad fotocatalítica. Las muestras con 1.0%/0.5% y 3.0%/0.5% nano-TiO2/DOWSILTM mostraron una mayor eficiencia de degradación de RhB para R4 y R26. Por lo tanto, estos materiales tienen potencial para mejorar la calidad de los morteros en construcciones urbanas.