Many studies and cases of digitalis intoxication have been reported since the time of William Withering's first publication in 1785. Recognition and management of digitalis toxicity is challenging. Before digoxin immune Fab was commercially available, treatment consisted of managing the signs and symptoms of toxicity until the digitalis was eliminated. Digoxin immune Fab offers a safe, effective, and specific method of quickly reversing digitalis toxicity. Factors that must be considered with the clinical use of this agent include the dosage calculation, administration technique, postdose monitoring, pharmacokinetics, mechanism of action, interference with commercially available digoxin assays, partial neutralizing dosing, rebound of free digoxin, and indications for use. For severe, life-threatening toxicity, digoxin immune Fab is the treatment of choice.
Minimal pharmacokinetic data on digoxin immune Fab are currently available, especially in patients with impaired renal function. The serum concentration-time profiles of total digoxin, free digoxin, and digoxin immune Fab in four patients with moderate to severe renal impairment who received digoxin immune Fab are presented. The calculated elimination half-life of digoxin immune Fab was 25-73 hours. The calculated elimination half-life of total digoxin was 24-72 hours. Free digoxin concentrations rebounded to a peak of 1-2.9 ng/mL 44-97 hours after the administration of digoxin immune Fab. The areas under the curve for digoxin immune Fab were 213-1026 micrograms.h/mL, and total body clearances were 2.3-7.1 mL/min. The total digoxin concentrations peaked at 14-33 times the pre-Fab digoxin concentrations 5-30 hours after digoxin immune Fab administration. In comparing these data with data available from patients with normal renal function, the half-life of digoxin immune Fab and total digoxin was longer, the peak total digoxin concentration occurred later, the ratio of the peak total digoxin concentration to pre-Fab digoxin concentration was larger, and the rebound in free digoxin occurred later in patients with renal impairment. The Fab dose should not be reduced in patients with renal impairment; however, post-Fab monitoring should be extended to compensate for the prolonged half-life of Fab and later rebound of free digoxin.
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