Microdialysis is a technique used to measure the unbound antibiotic concentration in the interstitial spaces, the target site of action. In vitro recovery studies are essential to calibrating the microdialysis system ...Microdialysis is a technique used to measure the unbound antibiotic concentration in the interstitial spaces, the target site of action. In vitro recovery studies are essential to calibrating the microdialysis system for in vivo studies. The effect of a combination of antibiotics on recovery into microdialysate requires investigation. In vitro microdialysis recovery studies were conducted on a combination of vancomycin and tobramycin, in a simulated in vivo model. Comparison was made between recoveries for three different concentrations and three different perfusate flow rates. The overall relative recovery for vancomycin was lower than that of tobramycin. For tobramycin, a concentration of 20μg/mL and flow rate of 1.0μL/min had the best recovery. A concentration of 5.0μg/mL and flow rate of 1.0μL/min yielded maximal recovery for vancomycin. Large molecular size and higher protein binding resulted in lower relative recoveries for vancomycin. Perfusate flow rates and drug concentrations affected the relative recovery when a combination of vancomycin and tobramycin was tested. Low perfusate flow rates were associated with higher recovery rates. For combination antibiotic measurement which includes agents that are highly protein bound, in vitro studies performed prior to in vivo studies may ensure the reliable measurement of unbound concentrations.展开更多
Background:Heatwaves have a significant impact on population health including both morbidity and mortality.In this study we examined the association between heatwaves and emergency hospital admissions(EHAs)for renal d...Background:Heatwaves have a significant impact on population health including both morbidity and mortality.In this study we examined the association between heatwaves and emergency hospital admissions(EHAs)for renal diseases in children(aged 0-14 years)in Brisbane,Australia.Methods:Daily data on EHAs for renal diseases in children and exposure to temperature and air pollution were obtained for Brisbane city from January 1,1996 to December 31,2005.A time-stratified case-crossover design was used to compare the risks for renal diseases between heatwave and non-heatwave periods.Results:There were 1565 EHAs for renal diseases in children during the study period.Heatwaves exhibited a signifi cant impact on EHAs for renal diseases in children after adjusting for confounding factors(odds ratio:3.6;95%confidence interval:1.4-9.5).The risk estimates differed with lags and the use of different heatwave defi nitions.Conclusions:There was a significant increase in EHAs for renal diseases in children during heatwaves in Brisbane,a subtropical city where people are well accustomed to warm weather.This finding may have significant implications for pediatric renal care,particularly in subtropical and tropical regions.展开更多
基金funded by the TPCH foundation grant (MS201140)the RBWH foundation grant 2012+1 种基金funding from the Australian National Health and Medical Research Council for a Centre of Research Excellence (APP1099452)funded in part by a Practitioner Fellowship (APP1117065) from the National Health and Medical Research Council of Australia
文摘Microdialysis is a technique used to measure the unbound antibiotic concentration in the interstitial spaces, the target site of action. In vitro recovery studies are essential to calibrating the microdialysis system for in vivo studies. The effect of a combination of antibiotics on recovery into microdialysate requires investigation. In vitro microdialysis recovery studies were conducted on a combination of vancomycin and tobramycin, in a simulated in vivo model. Comparison was made between recoveries for three different concentrations and three different perfusate flow rates. The overall relative recovery for vancomycin was lower than that of tobramycin. For tobramycin, a concentration of 20μg/mL and flow rate of 1.0μL/min had the best recovery. A concentration of 5.0μg/mL and flow rate of 1.0μL/min yielded maximal recovery for vancomycin. Large molecular size and higher protein binding resulted in lower relative recoveries for vancomycin. Perfusate flow rates and drug concentrations affected the relative recovery when a combination of vancomycin and tobramycin was tested. Low perfusate flow rates were associated with higher recovery rates. For combination antibiotic measurement which includes agents that are highly protein bound, in vitro studies performed prior to in vivo studies may ensure the reliable measurement of unbound concentrations.
基金funded by Australian Research Council(DP0559655),Queensland Departments of Environment and Resources,Community Safety,Queensland Health,and Environmental Protection Agencysupported by an NHMRC research fellowship(#553043).
文摘Background:Heatwaves have a significant impact on population health including both morbidity and mortality.In this study we examined the association between heatwaves and emergency hospital admissions(EHAs)for renal diseases in children(aged 0-14 years)in Brisbane,Australia.Methods:Daily data on EHAs for renal diseases in children and exposure to temperature and air pollution were obtained for Brisbane city from January 1,1996 to December 31,2005.A time-stratified case-crossover design was used to compare the risks for renal diseases between heatwave and non-heatwave periods.Results:There were 1565 EHAs for renal diseases in children during the study period.Heatwaves exhibited a signifi cant impact on EHAs for renal diseases in children after adjusting for confounding factors(odds ratio:3.6;95%confidence interval:1.4-9.5).The risk estimates differed with lags and the use of different heatwave defi nitions.Conclusions:There was a significant increase in EHAs for renal diseases in children during heatwaves in Brisbane,a subtropical city where people are well accustomed to warm weather.This finding may have significant implications for pediatric renal care,particularly in subtropical and tropical regions.