Renal function and digoxin clearance during quinidine therapy

Abstract

Summary. To investigate further the handling of digoxin by the kidneys during quinidine therapy, clearances of digoxin, ⁵¹Cr‐EDEA, PAH and endogenous creatinine were measured together with β₂‐microglobulin in the urine before and during quinidine therapy in 10 patients on maintenance digoxin therapy. Renal clearance of digoxin (corrected for 30% plasma binding) decreased on the average by 55% (137 ± 73 to 73 ± 25 ml/min, mean ± SD). The steady state plasma concentration of digoxin increased more than twofold (1·0 ± 0·34 to 2·5 ± 0±79 nmol/l, mean ± SD). The clearances of ⁵¹Cr‐EDTA and PAH were not altered during quinidine therapy, indicating that neither glomerular filtration nor total renal blood flow changed when quinidine was added. The ratio of the renal clearance of unbound digoxin to that of the glomerular filtration rate was above one for all 10 patients before quinidine, indicating the involvement of tubular secretion in the renal elimination of digoxin. After the administration of quinidine this ratio decreased in all patients (from 1·51 ± 0·30 to 0·83 ± 0·38, mean ± SD). Some patients had ratios well below one suggesting re‐absorption of digoxin. β²‐microglobulin excretion was unchanged during treatment with quinidine. It is concluded that a significant portion of the renal elimination of digoxin in man results from tubular secretion and that this excretory mechanism is inhibited by quinidine.