Quinidine pharmacokinetics and molecular data

Pharmacokinetics
Absorption Distribution Elimination Metabolism Urinary recovery Renal clearance

Absorption
After intramuscular injection of Quinidine gluconate, peak serum levels of Quinidine are achieved in a little less than two hours. This time to peak levels is identical to the time measured when Quinidine salts are administered orally. Return to top

Distribution
The volume of distribution of Quinidine is typically 2–3 L/kg in healthy young adults, but this may be reduced to as little as 0.5 L/kg in patients with congestive heart failure, or increased to 3–5 L/kg in patients with cirrhosis of the liver. At concentrations of 2–5 mg/L (6.5–16.2 μmol/L), the fraction of Quinidine bound to plasma proteins (mainly to α1–acid glycoprotein and to albumin) is 80–88% in adults and older children, but it is lower in pregnant women, and in infants and neonates it may be as low as 50–70%. Because α1–acid glycoprotein levels are increased in response to stress, serum levels of total Quinidine may be greatly increased in settings such as acute myocardial infarction, even though the serum content of unbound (active) drug may remain normal. Protein binding is also increased in chronic renal failure, but binding abruptly descends toward or below normal when heparin is administered for hemodialysis. Return to top

Elimination
Quinidine clearance typically proceeds at 3–5 mL/min/kg in adults, but clearance in pediatric patients may be twice or three times as rapid. The elimination half–life is about 6–8 hours in adults and 3–4 hours in pediatric patients. Quinidine clearance is unaffected by hepatic cirrhosis, so the increased volume of distribution seen in cirrhosis leads to a proportionate increase in the elimination half–life. Most Quinidine is eliminated hepatically via the action of cytochrome P450IIIA4; there are several different hydroxylated metabolites, and some of these have antiarrhythmic activity. Return to top

Metabolism
The most important of Quinidine's metabolites is 3–hydroxy–Quinidine (3HQ), serum levels of which can approach those of Quinidine in patients receiving conventional doses of Quinidine gluconate. The volume of distribution of 3HQ appears to be larger than that of Quinidine, and the elimination half–life of 3HQ is about 12 hours. As measured by antiarrhythmic effects in animals, by QTc prolongation in human volunteers, or by various in vitro techniques, 3HQ has at least half the antiarrhythmic activity of the parent compound, so it may be responsible for a substantial fraction of the effect of Quinidine gluconate in chronic use. Return to top

Urinary recovery
When the urine pH is less than 7, about 20% of administered Quinidine appears unchanged in the urine, but this fraction drops to as little as 5% when the urine is more alkaline. Return to top

Renal clearance
Renal clearance involves both glomerular filtration and active tubular secretion, moderated by (pH–dependent) tubular reabsorption. The net renal clearance is about 1 mL/min/kg in healthy adults. When renal function is taken into account, Quinidine clearance is apparently independent of patient age. Return to top