1. Effect of Exenatide on the Steady-State Pharmacokinetics of Digoxin
- Author
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Adeline Yeo, Helle Linnebjerg, Prajakti A. Kothare, Maggie Lim, Soomin Park, Stephen D. Wise, Kenneth F. Mace, Danny Soon, and Clark Chan
- Subjects
Adult ,Male ,Digoxin ,Cardiotonic Agents ,Urinary system ,Urine ,Pharmacology ,Pharmacokinetics ,polycyclic compounds ,medicine ,Humans ,Drug Interactions ,Pharmacology (medical) ,cardiovascular diseases ,Adverse effect ,Gastric emptying ,Venoms ,business.industry ,digestive, oral, and skin physiology ,Nausea ,carbohydrates (lipids) ,Exenatide ,Steady state (chemistry) ,Peptides ,business ,Anti-Arrhythmia Agents ,medicine.drug - Abstract
This open-label study investigated the effect of exenatide coadministration on the steady-state plasma pharmacokinetics of digoxin. A total of 21 healthy male subjects received digoxin (day 1, 0.5 mg twice daily; days 2-12, 0.25 mg once daily) and exenatide (days 8-12, 10 μg twice daily). Digoxin plasma and urine concentrations were measured on days 7 and 12. Exenatide coadministration did not change the overall 24-hour steady-state digoxin exposure (AUC τ , s s ) and C m i n , s s but caused a 17% decrease in mean plasma digoxin C m a s , s s (1.40 to 1.16 ng/mL) and an increuse in digoxin t m a x , s s (median increase, 2.5 hours). Although the decrease in digoxin C m a x , s s was statistically significant, peak concentrations were within the therapeutic concentration range in all subjects. Digoxin urinary pharmacokinetic parameters were not altered. Gastrointestinal symptoms, the most common adverse effects of exenatide, decreased over time. Exenatide administration does not cause any changes in digoxin steady-state pharmacokinetics that would be expected to have clinical sequelae; thus, dosage adjustment does not appear warranted, based on pharmacokinetic considerations.
- Published
- 2005
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