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a transmission and scanning electron microscopy study

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a transmission and scanning electron microscopy study. J Parasitol 1996, 82:769–77.PubMedCrossRef 29. Smith DS, Treherne JE: Functional aspects of the organization of the insect nervous system. Adv Insect Physiol 1963, 1:401–84.CrossRef STA-9090 molecular weight 30. Treherne JE, Schofield PK: Mechanisms of ionic homeostasis in the central nervous system of an insect. J Exp Biol 1981, 95:61–73.PubMed 31. Carlson SD, Juang JL, Hilgers SL, Garment MB: Blood Barriers of the Insect. Annu Rev Entomol 2000, 45:151–74.PubMedCrossRef 32. Alsam S, Sissons J, Jayasekera S, Khan NA: Extracellular proteases of Acanthamoeba castellanii (encephalitis isolate belonging to T1 genotype) contribute to increased permeability in an in vitro model of the human blood-brain barrier. J Infect 2005, 51:150–6.PubMedCrossRef Authors’ contributions NK conceived the study. PM and RK designed and performed the histological studies. PM, NK, and GG designed and performed all other assays. GG, PM, and NK did all statistical analyses on acquired data. NK and PM wrote the original manuscript. GG and RK helped

to craft the final manuscript. All authors approved the final manuscript.”
“Background Biofilms Entinostat ic50 plague both medical and industrial surfaces and are difficult to treat with common antimicrobial strategies [1, 2]. Cells residing within biofilms are often tolerant else to antimicrobial agents at concentrations thousands of times higher than what is necessary to eradicate the same cells growing planktonicly (e.g. [3, 4]). This recalcitrance GF120918 supplier is likely due to a combination of physical and physiological factors. Cells from a disrupted biofilm typically become susceptible to antibiotics when regrown planktonicly

[5–7]. The ubiquity of biofilms and their associated financial costs have inspired intensive antifouling efforts. A widely used anti-biofilm approach is to impregnate surfaces with antiseptics or antibiotics (reviewed in [8, 9]). The benefit of antimicrobial impregnated medical devices is still controversial despite decades of research and investment. For example, after reviewing years of studies, McConnell et al. [10, 11] conclude that more rigorous investigations are required to either support or refute the hypothesis that central venous catheters coated with antimicrobial agents reduce the rate of blood stream infections. While other researchers disagree with these conclusions (e.g. [12]), the fact there is still a debate regarding the efficacy of these strategies suggests there is need for better technologies and a better understanding of what parameters influence bacterial tolerance to antimicrobial agents. The current study aims to characterize colony biofilm antibiotic tolerance as a function of culturing conditions.

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