STUDIES CONCERNING THE DEVELOPMENT OF LIPID NANOSTRUCTURES IN BIOPRODUCTS ENCAPSULATION

Abstract In recent years, a considerable effort was dedicated to researching methylxantine derivatives (MX

NEW THERAPEUTIC FORMULATIONS WITH AN ANTIBACTERIAL EFFECT, BASED ON PLANT EXTRACTS

The antibacterial effects produced by anthocyanins and other bioactive plant compounds are weaker than those generated by antibiotics. In some cases, the combination of extract-antibiotic can cause synergistic effects, also the purpose of the research was to develop and test new antibiotic - plant extract formulations. New potential antimicrobial formulations was done by soaking discs impregnated with piperacillin or tetracycline with different extract. The tested microorganisms were: Staphylococcus aureus ATCC 25923, Streptococcus sp., Escherichia coli 820B, soil bacterium 23S, and Enterobacter cloacae. The combination of antibiotics with extracts determined, only for some of the microorganisms tested, better antibacterial effects than those caused by the antibiotic or the extract

Conditional confined oscillatory dynamics of Escherichia coli strain K12-MG1655 in chemostat systems

A series of continuous- and sequencing-batch reactor experiments were performed to assess the growth dynamics of Escherichia coli strain K12-MG1655 in chemostat systems. Previous mathematical predictions and early experimental results had shown that confined oscillatory dynamics ensue in bioreactor populations, which relates to “group birth and death” events within the population. New results are reported here that generally verify the predictions of the model and show that confined oscillations occur under different initial conditions, but the characteristics of the oscillatory dynamics vary as a function of the hydraulic retention time (HRT). Bioreactors were operated at HRTs ranging from 2.7 to 35 h and, regardless of initial conditions or the imposition of transient operational instabilities, highly patterned oscillations developed when HRT was between ∼3 and 8 h. However, outside of this range, bioreactor populations tended to form biofilms on the reactor walls (although the majority of the cells remained suspended in the bulk solution) and stable oscillations were not seen in the bulk phase. This suggests that alternate operating “states” might exist in chemostat populations with biofilm formation and non-homogenous spatial growth influencing “system” dynamics at very low and high HRTs. Although the model accurately predicts a confined dynamic equilibrium for mid-range HRT operations, experimental data show that model predictions do not extend outside of this range, when an alternate stable-state seems to be attained