Respiratory syncytial virus induces prostaglandin E2, IL-10 and IL-11 generation in antigen presenting cells

Bronchiolitis caused by respiratory syncytial virus (RSV) infection is a major cause of hospitalization in children under 1 years of age. The disease characteristically does not induce protective immunity. However, a mononuclear peribronchiolar and perivascular infiltrate during RSV infection is suggestive of an immune-mediated pathogenesis. Macrophages and dendritic cells (DCs) play an essential role in the initiation and maintenance of immune response to pathogens. To analyse interactions of RSV and immune cells, human cord blood derived macrophages and dendritic cells were infected with RSV. Both cells were found to be infected with RSV resulting in the activation of macrophages and maturation of dendritic cells as reflected by enhanced expression of several surface antigens. In the next set of experiments, generation of mediators was compared between cells infected with RSV, parainfluenza (PIV3) and influenza virus as well as ultracentrifuged virus free supernatant. Whereas the supernatant did not induce release of mediators, all three live virus infections induced IL-6 production from macrophages and DC. Influenza virus infection induced predominantly IL-12 p75 generation in DC. In contrast, RSV induced strong IL-11 and prostaglandin E2 release from both macrophages and DCs. In addition, RSV but not influenza and parainfluenza virus induced a strong IL-10 generation particularly from macrophages. Since IL-10, IL-11 and PGE2 are known to act immunosuppressive rather than proinflammatory, these mediators might be responsible for the delayed protective RSV specific immune response

Determination of moisture content in lyophilized mannitol through intact glass vials using NIR micro-spectrometers

Determination of moisture content in lyophilized solids is fundamental to predict quality and stability of freeze-dried products, but conventional methods are time-consuming, invasive and destructive. The aim of this study was to develop and optimize a fast, inexpensive, noninvasive and nondestructive method for determination of moisture content in lyophilized mannitol, based on an NIR micro-spectrometer instead of a conventional NIR spectrometer. Measurements of lyophilized mannitol were performed through the bottom of rotating glass vials by means of a reflectance probe. The root mean standard error of prediction (RMSEP) and the correlation coefficient (R²pred), yielded by the pre-treatments and calibration method proposed, was 0.233% (w/w) and 0.994, respectively.<br>A determinação do conteúdo de umidade em sólidos liofilizados é fundamental para se prever a qualidade e a estabilidade de produtos liofilizados, mas os métodos convencionais consomem muito tempo, são invasivos e destrutivos. O objetivo desse estudo foi desenvolver e otimizar um método rápido, econômico, não invasivo e não destrutivo para a determinação do conteúdo de umidade em manitol liofilizado, com base em microespectrômetro de infravermelho próximo ao invés de um espectrômetro de infravermelho próximo convencional. As medidas de manitol liofilizado foram realizadas através do fundo de recipiente de vidro em rotação por meio de sonda de reflectância. A raíz do erro médio padrão de predição (RMSEP) e o coeficiente de correlação (R²pred) obtidos pelo prétratamento e pelo método de calibração proposto foram, respectivamente, 0,233% (p/p) e 0,994