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Digoxin immune fab

Digoxin immune fab is a sterile, lyophilized preparation of antigen-binding fragments (Fab) derived from the immunoglobulin G (IgG) of sheep immunized with a digoxin-bovine serum albumin conjugate, designed specifically as an antidote for life-threatening digoxin toxicity or overdose. Each vial contains 40 mg of digoxin-specific Fab protein, capable of binding approximately 0.5 mg of digoxin, and it is available under brand names such as DigiFab. This therapy neutralizes the effects of digoxin, a cardiac glycoside used in heart failure and atrial fibrillation management, which has a narrow therapeutic index and can cause severe cardiotoxicity. The primary mechanism of action involves the fragments binding free in the plasma and tissues with high ( of 10⁻⁹ to 10⁻¹⁰ M), forming an inert - that is primarily excreted by the kidneys, thereby reducing free levels and reversing inhibition of the Na⁺/K⁺-ATPase pump. Indications for use include acute ingestion exceeding 10 mg in adults or 4 mg in children, chronic serum levels above 6 ng/mL in adults or 4 ng/mL in children, and life-threatening manifestations such as ventricular arrhythmias, severe , or greater than 5 mEq/L. Off-label applications extend to toxicities from related cardiac glycosides, such as those from or bufadienolides in . Dosing is individualized and administered intravenously, typically over 15–30 minutes after reconstitution, with calculations based on the ingested dose (vials = ingested in mg / 0.5) or level (vials = [ in ng/mL × body weight in ] / 100); for unknown acute ingestions, 10–20 vials are recommended. There are no absolute contraindications, but caution is advised in patients with to ovine proteins, , or , as well as in renal , where the elimination may extend beyond 20 hours. Adverse effects can include reactions (up to 1%), , and potential worsening of upon abrupt reversal, necessitating close monitoring of electrolytes, cardiac rhythm, and levels post-administration, which may artifactually elevate due to interference.

Medical Uses

Indications

Digoxin immune Fab is primarily indicated for the treatment of life-threatening or potentially life-threatening , including manifestations such as severe ventricular arrhythmias, progressive bradyarrhythmias, or second- and third-degree unresponsive to atropine. It is recommended in acute overdose scenarios with serum digoxin concentrations exceeding 10 ng/mL or in with levels greater than 6 ng/mL in adults (or >4 ng/mL in children) accompanied by end-organ damage, such as exceeding 5.5 mEq/L in adults or 6 mEq/L in children. The demonstrates efficacy in reversing digoxin-induced by binding the toxin and facilitating its renal excretion, thereby mitigating potassium shifts caused by inhibition of the Na+/K+-ATPase pump. Additional indications include known or suspected ingestion of more than 10 mg of in adults or 4 mg (or >0.1 mg/kg) in children, where prompt administration can prevent progression to severe toxicity. It is also effective against toxicity from and other cardiac glycosides, such as those from yellow oleander (Thevetia peruviana) poisoning, due to structural similarities that allow with the Fab fragments. Digoxin immune Fab is not indicated for mild or non-life-threatening lacking severe cardiac or end-organ manifestations, as the risks of may outweigh benefits in such cases.

Dosage and Administration

Digoxin immune fab, available as a lyophilized in 40 mg vials, is administered to neutralize , with each vial binding approximately 0.5 mg of or . Dosing is determined based on the clinical scenario, patient weight, and serum digoxin levels when available. For acute ingestion of an unknown amount, the recommended dose is 20 vials (800 mg total) for adults and children, though initial administration of 10 vials followed by an additional 10 if needed may reduce the risk of adverse reactions; caution is advised in children under 20 kg due to potential fluid volume overload. For known acute ingestion, the number of vials is calculated as the total body digoxin load (estimated ingested amount in mg multiplied by 0.8 to account for bioavailability) divided by 0.5 mg per vial. In chronic toxicity without a known serum level, administer 6 vials (240 mg) for adults and children over 20 kg, or 1 vial (40 mg) for infants and children under 20 kg. When serum digoxin levels are known, the empirical dosing formula is number of vials = (serum digoxin concentration in ng/mL × patient weight in kg) / 100; this applies to both acute and chronic cases. Preparation involves reconstituting each vial with 4 mL of sterile to yield a concentration of approximately 10 mg/mL, which should be used promptly or stored refrigerated at 2–8°C for up to 4 hours. For intravenous administration, the reconstituted solution is further diluted in 0.9% ; smaller doses (e.g., under 3 mg total) may be diluted to 1 mg/mL using 36 mL of diluent to facilitate accurate delivery, particularly in pediatric patients. Intravenous infusion is the preferred route, administered over at least 30 minutes to minimize infusion-related reactions; in cases of imminent , rapid intravenous bolus injection may be used despite the higher risk of adverse effects. Post-administration is essential, as may recur due to redistribution from tissue stores, particularly in patients with renal impairment, potentially requiring repeat dosing guided by clinical response and serum levels assessed 4–6 hours after the initial infusion or if symptoms reemerge. Continuous electrocardiographic , serum potassium, and renal function should be evaluated frequently, with observation extended for several days to weeks as needed.

Safety Profile

Adverse Effects

Digoxin immune fab administration can lead to several adverse effects, primarily related to the rapid reversal of digoxin toxicity and potential hypersensitivity to the ovine-derived product. Common adverse reactions, occurring in more than 7% of patients, include worsening congestive heart failure (13%), hypokalemia (13%), and exacerbation of atrial fibrillation (7%). Hypokalemia often results from a rebound effect following the rapid correction of digoxin-induced hyperkalemia, as potassium shifts intracellularly, potentially causing symptoms such as weakness, confusion, or thirst. Other infusion-related reactions, such as headache, nausea, hives (urticaria), or hypotension, have been reported in clinical use, though their exact frequencies are not well-defined in large datasets. Rare but serious adverse effects occur in less than 1% of cases and include or other allergic reactions, with an incidence of approximately 0.8% (95% : 0.3%–1.8%) in observational of over 700 patients. These reactions are more frequent in individuals with a history of allergies, particularly to antibiotics or ovine proteins, and may manifest as skin rash, itching, swelling, wheezing, or lightheadedness. Potassium shifts can also precipitate in vulnerable patients, while post-treatment recrudescence of from tissue stores may lead to recurrence of arrhythmias like . Management focuses on close monitoring and supportive care. Patients should undergo electrocardiogram (ECG) and assessment for 24–48 hours post-infusion to detect or arrhythmias, with supplementation administered if levels drop significantly. should proceed slowly (over at least 30 minutes) to minimize risks, and if occurs, the infusion must be stopped immediately, followed by epinephrine, antihistamines, and other emergency interventions. Additional inotropic support may be required for exacerbation due to loss of digoxin's positive inotropic effects.

Contraindications and Precautions

Digoxin immune Fab has no absolute contraindications per official prescribing information, though it should be avoided in patients with known to sheep (ovine) proteins, , chymopapain, other extracts, , or prior ovine Fab therapy due to the risk of or severe reactions. Untreated also warrants caution, as it heightens the risk of arrhythmias during toxicity reversal, necessitating correction to mitigate potential complications. Precautions are advised in patients with renal impairment, where the elimination half-life of the digoxin-Fab complex may extend up to 10-fold, prolonging the risk of recurrent and requiring close of renal and clinical . Repeated exposures should be approached with caution due to the potential development of anti-ovine antibodies, which may reduce therapeutic efficacy in subsequent treatments. The agent is generally reserved for life-threatening given its high cost and associated risks, avoiding use in milder cases. Although formal studies are limited, caution is recommended with concomitant diuretics or agents that alter levels, as they may influence post-administration shifts and risk. Use during pregnancy is classified as FDA Category C, with no adequate or on ; it should be used only if the potential benefit justifies the potential risk to the . For , caution is advised due to limited , though the large molecular weight suggests minimal into .

Digoxin immune Fab consists of antigen-binding fragments derived from ovine antibodies, which specifically bind to free molecules in the with high , characterized by a (Kd) of approximately 10^{-9} to 10^{-10} M. This binding exceeds that of for its target receptor, the Na+/K+-ATPase pump, allowing the Fab fragments to sequester digoxin and form stable, inactive digoxin-Fab complexes that prevent the drug from interacting with the pump. The resulting reduction in free digoxin concentration shifts the equilibrium away from receptor occupancy, thereby neutralizing the toxic effects of digoxin overdose. By inhibiting digoxin's ability to bind Na+/K+-ATPase, digoxin immune Fab reverses the pump's inhibition, which normally leads to increased intracellular sodium and subsequent calcium accumulation via the sodium-calcium exchanger. This restoration of Na+/K+-ATPase activity helps normalize the myocardial potential, reduces and excitability in cardiac tissues, and corrects associated arrhythmias and induced by . The Fab fragments are monovalent (approximately 50 kDa each), designed to avoid Fc-mediated immune responses and facilitate renal clearance without triggering complement activation or other immunological side effects. The specificity of digoxin immune Fab extends to digitoxin and other structurally related cardiac glycosides, such as those found in oleander or toad venom, but it does not significantly bind endogenous cardiotonic steroids like . Approximately 80 mg of Fab fragments bind 1 mg of digoxin (or equivalent for digitoxin), with each standard 40 mg vial capable of neutralizing about 0.5 mg of the toxin. These digoxin-Fab complexes, with a molecular weight exceeding 50 kDa, are too large to be removed by conventional but are excreted intact via the in patients with normal renal function. Digoxin immune Fab is produced by immunizing sheep with a digoxin analogue, digoxin-dicarboxymethoxylamine (DDMA), conjugated to a carrier protein such as to elicit a targeted response. The resulting polyclonal IgG is purified from ovine , enzymatically digested with to isolate the Fab portions, and further refined through digoxin-affinity to ensure high specificity and purity. This manufacturing yields fragments that effectively the cardiac glycoside's and moieties without cross-reactivity to structurally dissimilar endogenous compounds.

Pharmacokinetics

Digoxin immune Fab is administered intravenously, resulting in immediate and complete of 100%. It is not intended for intramuscular or other routes, as intravenous ensures systemic . Following intravenous infusion, digoxin immune Fab distributes into the with a of approximately 0.3 L/kg. The agent binds to circulating within 30 minutes, facilitating quick neutralization of free digoxin in the . occurs within 20 to 60 minutes after intravenous , with peak effects typically observed at 1 to 2 hours, leading to clinical improvement in 50% to 90% of patients by 45 minutes. Digoxin immune Fab undergoes no significant hepatic metabolism and remains intact as the Fab fragment-digoxin complex. Excretion occurs primarily via the renal route through glomerular filtration of the bound complexes, with more than 40% of the administered dose recovered in urine within 24 hours in patients with normal renal function. The elimination half-life is approximately 15 hours for DigiFab and 23 hours for Digibind in individuals with normal renal function, though it can prolong to 3 to 5 days (or up to 10-fold) in renal impairment. Approximate clearance is 0.4 to 0.7 mL/min/kg in normal renal function. Post-treatment serum digoxin concentrations reflect total digoxin (bound plus ), which may appear elevated due to the Fab-bound fraction; therefore, monitoring requires assays specific for digoxin levels.

Clinical Evidence

Key Studies

The foundational clinical evaluation of digoxin immune Fab began with an early trial reported by Smith et al. in 1976, marking the first human use of the in 1 patient with life-threatening . In this study, the Fab fragments achieved rapid reversal of arrhythmias, demonstrating prompt restoration of and hemodynamic stability within minutes to hours of administration. A pivotal multicenter observational conducted in the late and early after FDA approval involved 717 patients with severe intoxication, providing key post-approval data on efficacy and safety. Among these cases, primarily involving elderly patients on maintenance therapy, immune Fab yielded 50% complete response and 24% partial response to treatment; this open-label highlighted the antidote's ability to rapidly bind and neutralize , averting fatal outcomes in most instances. The only (RCT) evaluating immune Fab was conducted by Eddleston et al. in 2000, focusing on its application in yellow oleander poisoning, which produces cardiac glycosides cross-reactive with (n=66 patients). The study demonstrated significantly improved rhythm control in the Fab-treated group compared to supportive care alone (p<0.001), with faster resolution of and , underscoring the antidote's utility beyond pure . FDA approval of digoxin immune Fab in was primarily based on compassionate use accumulated from early trials and uncontrolled experiences, rather than large-scale RCTs, which have been ethically challenging to conduct due to the severity of digitalis toxicity. Observational from post-approval surveillance, including the aforementioned multicenter , reported rare allergic reactions at a rate of 0.8%, typically mild and self-limiting. appears more pronounced in acute overdose scenarios compared to , where outcomes are confounded by comorbidities; in acute cases, mortality has been reduced from approximately 20% with conventional therapy to less than 10% following Fab administration.

Recent Developments

A 2024 multicenter retrospective study examining 96 patients with confirmed or suspected found that digoxin immune Fab (DIF) was underutilized in 20% of cases, highlighting opportunities for improved guideline adherence in . The study reported no significant mortality difference between DIF-treated (11%) and underutilized groups (21%), but DIF use was associated with shorter lengths of stay (12.4 days versus 24.4 days) and faster resolution (0.6 versus 1.1 log days). Additionally, DIF therapy correlated with lower overall costs due to reduced ICU duration, despite the direct cost of approximately $17,000 per patient for the . Recent updates confirm DIF's established role in managing toxicity among heart failure patients with atrial fibrillation, where it effectively reverses life-threatening arrhythmias by binding free . Between 2020 and 2021, digoxin prescriptions declined from about 1.9 million to 1.6 million, driven by preferences for alternatives like beta-blockers in rate control for and . This trend has reduced toxicity incidence rates to 0.4% in hospitalized patients and 1.1% in outpatients, yet DIF remains the standard for severe cases. Case reports from 2020 to 2025 document successful DIF use in pediatric overdoses, with rapid reversal of symptoms in reported instances, though overall data remain limited to small series. In severe , DIF shortens stays compared to supportive care alone. However, caution is advised against over-reliance on DIF for low-level , where may be limited and risks of effects or incomplete reversal persist.

Regulation and Commercialization

Regulatory History

Digoxin immune Fab received orphan drug designation from the U.S. (FDA) on March 11, 1985, for the of life-threatening acute intoxication. The first product, Digibind (manufactured by Burroughs , later GlaxoSmithKline), was approved by the FDA on April 22, 1986, as an for potentially life-threatening or overdose. Prior to full approval, limited use occurred through a multicenter involving a relatively small number of patients. In August 2001, the FDA approved DigiFab (developed by Protherics plc, now part of BTG International Inc.), another ovine digoxin immune Fab product indicated for life-threatening or potentially life-threatening . DigiFab was determined to be clinically equivalent to Digibind and became the primary alternative following Digibind's discontinuation in the United States in , which was unrelated to safety concerns. Post-marketing surveillance of both products from 1986 to 2019 has not identified new safety signals beyond labeled events, though adverse events such as cardiac issues and reactions have been reported, often confounded by the underlying . The prescribing information for digoxin immune Fab includes warnings for the risk of due to ovine protein content, with recommendations for prior treatment history and for allergic reactions; however, it does not carry a warning. In cases of mild to moderate , there are no evidence-based guidelines mandating use, leading to variability in treatment approaches, while severe cases warrant prompt administration. Globally, DigiFab received () approval in 2010 for the treatment of life-threatening overdose. The product remains available in most countries under brands such as DigiFab, with dosing guidelines updated in prescribing information as of early 2025, including specific calculations for pediatric patients based on body weight and estimated ingestion (e.g., 1 vial for infants and children under 20 kg in acute cases of unknown quantity). have not been widely reported for digoxin immune Fab in the , unlike some other biologics affected by issues during that period. As of May 2025, a of DigiFab has been reported in , expected to resolve by June 2025.

Intellectual Property and Market Aspects

Digoxin immune Fab, classified as a biologic product, benefits from market exclusivity under the Biologics Price Competition and Innovation Act, which provides 12 years of data exclusivity from the date of first licensure, complicating the approval of s due to the need for demonstrating similarity in manufacturing and clinical comparability. The core patents for the production of digoxin immune Fab fragments, originally developed in the and early for products like Digibind, expired in the , theoretically opening the door for generic or entry; however, no such versions have been approved to date owing to the complexities of biologic manufacturing and regulatory hurdles for interchangeable products. A specific use patent, filed in 2003 (WO2004011028A1), covered the application of digoxin immune Fab for regulating sodium/potassium ATPase activity in and , but it has since expired without leading to approved indications beyond . Commercially, the primary brand available in the United States is DigiFab, produced by BTG International and acquired by SERB Specialty Pharmaceuticals in 2021 for $800 million as part of a broader portfolio expansion in critical care medicines. The competing product, Digibind (manufactured by GlaxoSmithKline), was discontinued in the US market in 2011 due to manufacturing decisions unrelated to or concerns. Pricing for DigiFab has risen significantly over the years, reflecting its status and lack of competition. In 2011, prior to Digibind's discontinuation, the average wholesale price () was approximately $786 per 40 mg vial; by 2014, it had increased by up to 54% to $2,370 per vial. As of 2025, the stands at around $5,969 per 40 mg vial, with state-specific rates such as California's reimbursement at $4,968, contributing to high treatment costs that can exceed $20,000 for a full adult dose. Estimated annual US sales for immune Fab reached approximately $50 million in 2024, driven by its niche role in treating rare but severe digoxin overdoses in settings. Availability is restricted to pharmacies and departments, where expert consensus guidelines recommend stockpiling 10-20 vials per facility to ensure immediate access for life-threatening cases, as digoxin immune Fab is not suitable for outpatient use and requires rapid IV administration. In terms of cost-effectiveness, use in severe yields an estimated $1,900 to $5,400 per life-year saved, making it a favorable intervention for high-risk patients despite the expense.