BackgroundThe cardioprotective effects of glucagon-like peptide-1 (GLP-1) and analogs have been previously reported. We tested the hypothesis that albiglutide, a novel long half-life analog of GLP-1, may protect the heart against I/R injury by increasing carbohydrate utilization and improving cardiac energetic efficiency.Methods/Principal FindingsSprague-Dawley rats were treated with albiglutide and subjected to 30 min myocardial ischemia followed by 24 h reperfusion. Left ventricle infarct size, hemodynamics, function and energetics were determined. In addition, cardiac glucose disposal, carbohydrate metabolism and metabolic gene expression were assessed. Albiglutide significantly reduced infarct size and concomitantly improved post-ischemic hemodynamics, cardiac function and energetic parameters. Albiglutide markedly increased both in vivo and ex vivo cardiac glucose uptake while reducing lactate efflux. Analysis of metabolic substrate utilization directly in the heart showed that albiglutide increased the relative carbohydrate versus fat oxidation which in part was due to an increase in both glucose and lactate oxidation. Metabolic gene expression analysis indicated upregulation of key glucose metabolism genes in the non-ischemic myocardium by albiglutide.Conclusion/SignificanceAlbiglutide reduced myocardial infarct size and improved cardiac function and energetics following myocardial I/R injury. The observed benefits were associated with enhanced myocardial glucose uptake and a shift toward a more energetically favorable substrate metabolism by increasing both glucose and lactate oxidation. These findings suggest that albiglutide may have direct therapeutic potential for improving cardiac energetics and function.
The advantages gained by DBS technology can successfully be applied to the quantitative assessment of biologics. This UHPLC-MS/MS method illustrates that digestion of large molecules directly off blood spot cards allows quantitation of these molecules. In addition, DBS technologies are amenable to immunoassay analysis. The immunoassay was 20-fold more sensitive than the UHPLC-MS/MS method, however the UHPLC-MS/MS assay had a much broader dynamic range.
The Gyrolab immunoassay system proved to be a viable alternative to traditional immunoassays and was used to support a regulated preclinical TK study. The speed of analysis that the Gyrolab provides was beneficial in meeting timelines to complete this project as multiple assays and repeat sample analysis could be completed in the same day.
The objectives of this study were to measure the pharmacokinetics of ropinirole at steady state when the drug is used as an adjunct to L-dopa and evaluate the long-term tolerability of ropinirole in this indication. Twenty-four patients who were taking L-dopa for Parkinson's disease and experiencing a lack of symptomatic control were recruited. Patients received open-label adjunctive treatment with ropinirole for up to 2 years. The starting dose was 0.5 mg bid, which could be titrated to a maximum of 6.0 mg tid. Ropinirole demonstrated approximately dose-linear pharmacokinetics at steady state; corresponding values were higher during tid than bid dosing. A reduction in mean L-dopa dose was maintained throughout the trial. The combination of L-dopa and ropinirole was generally well tolerated, with only 1 patient withdrawing from treatment because of adverse events. Thus, ropinirole shows approximately linear steady-state pharmacokinetics and a good safety profile when administered with L-dopa.
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