Antimicrobial activity of ß-lapachone encapsulated into liposomes against meticillin-resistant Staphylococcus aureus and Cryptococcus neoformans clinical strains.

The aim of this study was to determine whether encapsulation of ß-lapachone (ß-lap) into liposomes interferes with its in vitro antimicrobial activity against meticillin-resistant Staphylococcus aureus (MRSA) and Cryptococcus neoformans clinical strains. Liposomes (ß-lap:lipo or ß-lap:HPß-CD-lipo) were prepared using the hydration of thin lipid film method followed by sonication. The in vitro antimicrobial activities of ß-lap-loaded liposomes against MRSA and C. neoformans were evaluated using the microdilution method according to the Clinical and Laboratory Standards Institute (CLSI). The liposomes presented a mean particle size ranging from 88.7±1.5nm to 112.4±1.9nm with a polydispersity index ranging from 0.255 to 0.340, zeta potential from -0.26±0.01mV to +0.25±0.05mV and drug encapsulation efficiency from 97.4±0.3% to 98.9±0.4%. ß-Lap and ß-lap:HPß-CD had minimum inhibitory concentrations (MICs) ranging from 2mg/L to 4mg/L, whereas the MICs of ß-lap-lipo or ß-lap:HPß-CD-lipo ranged from 4mg/L to 16mg/L for the MRSA strains tested. ß-Lap and ß-lap:HPß-CD were able to inhibit fungal growth [MIC=2-8mg/L and minimum fungicidal concentration (MFC)=4-8mg/L]. However, ß-lap-lipo and ß-lap:HPß-CD-lipo were more efficient, with MICs and MFCs of <4mg/L. These findings suggest that the liposomal formulations tested do not interfere significantly with ß-lap antibacterial activity against MRSA and improve its antifungal properties against C. neoformans.

Application of fractional factorial design to levan production by Zymomonas mobilis

Levan is a non-toxic, biologically active, extra cellular polysaccharide composed solely by fructose units. Optimization of levan production by Zymomonas mobilis strain ZAG-12 employing a 2(4-1) fractional factorial design was performed to analyze the influence of the temperature (20, 25 e 30°C) agitation (50, 75 e 100 rpm), and the initial concentrations of both sucrose (150, 200 e 250 g.L-1) and yeast extract (2.0, 3.5 e 5.0g.L-1) on final levan concentration. Aerobic fermentation was performed batchwise in 500mL Pyrex flasks for 72 hours. Biomass, ethanol, levan and sucrose were determined at beginning and also at end of the fermentations. The experiments showed that the final levan concentration depended on initial sucrose concentration, temperature and agitation velocity and that the initial concentration of yeast extract did not influence levan production. However, when the production of ethanol and biomass were considered, it became evident that yeast extract was a significant variable. The best conditions for levan production occurred at 100 rpm agitation, 20°C and 250g.L-1 of initial sucrose resulting in 14.67g.L-1 of levan.

Levana é um polissacarídeo extracelular, biologicamente ativo, não tóxico, contendo em sua estrutura apenas frutose. A maximização da produção de levana, por via fermentativa, pela linhagem de Zymomonas mobilis ZAG-12, foi estudada utilizando-se um planejamento fatorial de dois níveis 2(4-1), variando-se as concentrações iniciais de sacarose (150, 200 e 250 g.L-1) , extrato de levedura (2.0, 3.5 e 5.0 g.L-1), temperatura (20, 25 e 30°C) e agitação (50, 75 e 100 rpm). As fermentações foram desenvolvidas por processos descontínuos em frascos Pyrex roscados, de 500 mL, contendo 300 mL de meio a base de sacarose, por 72 horas. No início e ao final do processo, foram dosados: biomassa, etanol, levana e sacarose como açúcares redutores totais. A análise dos dados mostra que o aumento da produção de levana depende tanto dos efeitos da concentração inicial de sacarose, temperatura e agitação, isoladamente, quanto da interação entre agitação e temperatura na faixa experimental estudada. O extrato de levedura não afeta a produção de levana, entretanto, quando a resposta é produção de etanol e biomassa, fica evidente que essa variável é significativa. Os resultados demonstraram que as melhores condições para a produção em batelada ocorreram com 250g/L de sacarose inicial, 100 rpm de agitação, a 20°C.

Effects of experimental design on calibration curve precision in routine analysis.

A computational program which compares the effciencies of different experimental designs with those of maximum precision (D-optimized designs) is described. The program produces confidence interval plots for a calibration curve and provides information about the number of standard solutions, concentration levels and suitable concentration ranges to achieve an optimum calibration. Some examples of the application of this novel computational program are given, using both simulated and real data.

Conversion of a sequential inductively coupled plasma emission spectrometer into a multichannel simultaneous system using a photodiode array detector.

A monochannel plasma emission spectrometer was converted to a multichannel instrument by the introduction of a detection system based on an array of 1024 photodiodes and a low-resolution dispersion device. The new, relatively inexpensive equipment, features both the high speed typical of simultaneous instruments and the versatility of scanning systems. This paper reports on an evaluation of the modified equipment for quantitative analysis with the simultaneous determination of Al, Mn, Mg, Ca, Fe and Cu in a natural water matrix. An average relative prediction error of 2.4% was found which is the same as the error obtained with the conventional analytical method. Data acquisition with the modified instrument is up to 40 times faster.