Degradation of ticarcillin by subcritical water oxidation method: Application of response surface methodology and artificial neural network modeling.

This study was performed to investigate the mineralization of ticarcillin in the artificially prepared aqueous solution presenting ticarcillin contaminated waters, which constitute a serious problem for human health. 81.99% of total organic carbon removal, 79.65% of chemical oxygen demand removal, and 94.35% of ticarcillin removal were achieved by using eco-friendly, time-saving, powerful and easy-applying, subcritical water oxidation method in the presence of a safe-to-use oxidizing agent, hydrogen peroxide. Central composite design, which belongs to the response surface methodology, was applied to design the degradation experiments, to optimize the methods, to evaluate the effects of the system variables, namely, temperature, hydrogen peroxide concentration, and treatment time, on the responses. In addition, theoretical equations were proposed in each removal processes. ANOVA tests were utilized to evaluate the reliability of the performed models. F values of 245.79, 88.74, and 48.22 were found for total organic carbon removal, chemical oxygen demand removal, and ticarcillin removal, respectively. Moreover, artificial neural network modeling was applied to estimate the response in each case and its prediction and optimizing performance was statistically examined and compared to the performance of central composite design.

Resistencia antimicrobiana en aislados clínicos de Pseudomonas aeruginosa / Antimicrobial resistance in clinical patterns of Pseudomonas aeruginosa

Pseudomonas aeruginosa es un microorganismo oportunista frecuentemente implicado en infecciones de origen nosocomial que presenta resistencia natural y adquirida a muchos de los antimicrobianos de uso clínico. Se llevo a cabo un estudio de resistencias a antimicrobianos de 3.029 aislamientos de P. aeruginosa de enfermos intra y extrahospitalarios en el periodo 2005-2010. La metodología utilizada fue, el método semiautomatizado WIDER I (Soria Melguizo), para la identificación de las especies y para el estudio de sensibilidades a antimicrobianos. Se consideraron los criterios de sensibilidad y resistencia recomendados por el grupo MENSURA. En nuestro hospital existe un mantenimiento relativo de la sensibilidad antimicrobiana de P. aeruginosa en el periodo 2005-2010, con un aumento de esta en amikacina, gentamicina y cefalosporinas. Existen diferencias de porcentajes de sensibilidades entre las cepas de origen intrahospitalario y extrahospitalario, salvo para fosfomicina y tobramicina. Destacamos la importancia de realizar estudios locales de la sensibilidad y resistencias de P. aeruginosa en cada zona, de forma periódica para poder valorar las diferentes pautas terapéuticas, no siendo posible extrapolar los datos de las diferentes regiones españolas(AU)

Pseudomonas aeruginosa is an opportunistic microorganism that is frequently the cause of nosocomial infections. Multiple mechanisms are involved in its natural and acquired resistance to many of the antimicrobial agents commonly used in clinical practice. We performed an antibiotic resistance study on P. aeruginosa isolated from intrahospitalary and extrahospitalary samples between 2005 and 2010 years. We included in the study a global amount of 3,029 P. aeruginosa isolates from clinical samples received at University Hospital Reina Sofia. Microbiology Service in Córdoba (Spain). Semiautomatic system WIDER I for strains identification and sensibility testing was employed. We considered susceptibility and resistance criteria recommended by MENSURA group. Results of the analysis showed that P. aeruginosa maintanied similar levels of antimicrobial susceptibility during the period 2005-2010, with increased susceptibility to amikacin, gentamicin and cefalosporins. There were also important differences in the degree of susceptibility between intrahospital and extrahospital strains during 2010 year, except for tobramicin and fosfomycin. The intrahospital difference in susceptibility was also evaluated, emphasizing the importance of periodically surveillance of susceptibility and resistance patterns of P. aeruginosa, in each setting in order to evaluate different therapeutic guidelines, because it is not always advisable to extrapolate data from different regions(AU)