Polymicrobial biofilm‐associated implant infections present a challenging clinical problem. Through modifications of lyophilized chitosan sponges, degradable drug delivery devices for antibiotic solution have been fabricated for prevention and treatment of contaminated musculoskeletal wounds. Elution of amikacin, vancomycin, or a combination of both follows a burst release pattern with vancomycin released above minimum inhibitory concentration for Staphylococcus aureus for 72 h and amikacin released above inhibitory concentrations for Pseudomonas aeruginosa for 3 h. Delivery of a vancomycin, amikacin, or a combination of both reduces biofilm formation on polytetrafluoroethylene catheters in an in vivo model of contamination. Release of dual antibiotics from sponges is more effective at preventing biofilm formation than single‐loaded chitosan sponges. Treatment of pre‐formed biofilm with high‐dose antibiotic release from chitosan sponges shows minimal reduction after 48 h. These results demonstrate infection‐preventive efficacy for antibiotic‐loaded sponges, as well as the need for modifications in the development of advanced materials to enhance treatment efficacy in removing established biofilm.
Most medical laboratories measure the immunosuppressive drug cyclosporin using one of a number of commercial immunoassays, or high-performance liquid chromatography (HPLC). The calibration of these assays is based on material supplied by the kit manufacturers or prepared in-house. We have examined inaccuracy for the measurement of cyclosporin in samples spiked to known concentrations and the impact of any inaccuracy on the results for cyclosporin measurement in pooled samples from patients prescribed the drug. The data were from the International Cyclosporin Proficiency Testing Scheme, based on aliquots of cyclosporin-free blood to which known amounts of the drug had been added or aliquots of pooled samples collected from patients receiving cyclosporin. Compared with the results using HPLC, the immunoassays had a median bias which ranged from –4.5% to 8.2% for the spiked samples. When pooled samples from patients were analysed the percentage difference from the measured HPLC value, allowing for assay inaccuracy, was as high as 29.9%. It is concluded that inaccuracy is a factor in between-assay performance for this measurement and that proficiency testing schemes should attempt to put more emphasis on this aspect of assay performance. 相似文献
The polarisation parameters Σ, P and T have been measured for the process γp→π0p in the photon energy range 1300–2100 MeV and c.m. angles between 30° and 110°, in an experiment with a polarised beam and polarised target. The results are compared with a recent theoretical analysis which fits data from threshold to 16 GeV. The new data are in general agreement with the analysis, but with some significant discrepancies in detail. 相似文献
Secondary ion clusters with mass greater than 700 amu, e.g., K(KF)12+ and up to 27 atoms, e.g., Na(NaF)13+, have been observed in the static SIMS spectra of MF (M = Li, Na, K), NaBF4, and KPF6. The long series of detected cluster ions of the type M(MF)n+ indicates that there is a high degree of stability associated with these clusters. The observation of such clusters in the NaBF4 and KPF6 spectra suggest that there is significant molecular rearrangement occurring in the secondary ion emission process from such salts. The secondary ion Intensities provide a crude fit to the Saha-Eggert equation, yielding an electron temperature of ~12,000 K. The data are consistent with the plasma model of surface ionization in which rearrangement and cluster formation occur in the plasma. 相似文献
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