Digoxin toxicity: Difference between revisions

No edit summary
(Remove refs with incorrect PMIDs (verified against PubMed))
 
(94 intermediate revisions by 24 users not shown)
Line 1: Line 1:
== Background ==
==Background==
*Mechanism of action
*Digoxin (digitalis) is a cardiac glycoside used for [[atrial fibrillation]] rate control and [[heart failure]]
**Positive inotropic effect
*Narrow therapeutic index (therapeutic level: 0.5-2.0 ng/mL)
***Inhibits Na-K pump -> incr extracelluar K, incr intracellular Na -> incr intracellular Ca
*Mechanism of action: inhibits Na/K-ATPase → increased intracellular calcium → increased contractility
**Increases vagal tone
*Also increases vagal tone (AV nodal blockade)
***Can lead to [[Bradyarrhythmias]] (esp in young)
*Toxicity occurs from:
**Increases automaticity
**Acute ingestion (intentional overdose, accidental)
***Can lead to [[Tachyarrhythmias]] (esp in elderly)
**Chronic accumulation (most common — renal insufficiency, drug interactions, dehydration)
*Renally cleared
*Drug interactions that increase digoxin levels:
*Hemodialysis does not work
**Amiodarone (increases level by ~50%), verapamil, diltiazem, quinidine
**Macrolide antibiotics (erythromycin, clarithromycin)
**Cyclosporine, itraconazole
*Conditions that increase sensitivity to digoxin:
**Hypokalemia (most important — K and digoxin compete for same binding site)
**Hypomagnesemia, hypercalcemia, hypothyroidism, [[renal failure]]
*Mortality without antidote: up to 20-30% in significant poisoning


=== Risk Factors ===
==Clinical Features==
#Electrolyte Imbalance
===GI (Often Earliest)===
##[[Hypokalemia]], [[Hypomagnesemia]], [[Hypercalcemia]]
*Nausea, vomiting, anorexia (most common symptoms)
#Hypovolemia
*Abdominal pain, diarrhea
#Renal insufficiency
#[[Cardiac Ischemia]]
#[[Hypothyroidism]]
#Meds
##CCBs, amiodarone


== Clinical Manifestations ==
===Cardiac (Most Dangerous)===
===Cardiac===
*Almost ANY dysrhythmia can occur
#[[Syncope]]
*Classic: increased automaticity + decreased conduction
#Dysrhythmias
*Most common arrhythmia: PVCs
##PVCs
*Highly suggestive rhythms:
##[[Bradycardia]]
**Bidirectional ventricular tachycardia (nearly pathognomonic)<ref>Smith TW. Digitalis: Mechanisms of action and clinical use. N Engl J Med. 1988;318(6):358-365. PMID 3277052</ref>
##SVT w/ AV block
**Atrial tachycardia with AV block (PAT with block)
##Junctional escape
**Accelerated junctional rhythm
##Ventricular dysrhythmia, including bidirectional V-tach (esp in chronic toxicity)
**Regularized atrial fibrillation (AF with complete heart block + junctional escape)
#Digitalis Effect (seen with therapeutic levels; not indicative of toxicity)
*Sinus [[bradycardia]], AV block (1st, 2nd, 3rd degree)
##T wave changes (flattening or inversion)
*Ventricular fibrillation / asystole (in severe toxicity)
##[[QT Interval Shortening]]
##Scooped ST segments with depression in lateral leads
##Increased U-wave amplitude


===GI===
===Neurologic===
#Often the earliest manifestation of toxicity
*Visual disturbances: xanthopsia (yellow-green halo vision), blurred vision, photophobia
##[[Nausea/vomiting]]
*Confusion, delirium, weakness, fatigue
##[[Abdominal Pain]]
*Drowsiness


===Neuro===
===Metabolic===
#[[Confusion]]
*Hyperkalemia in acute toxicity (Na/K-ATPase inhibition → K moves extracellularly)
#[[Weakness]]
**K >5.0 in acute digoxin poisoning is a marker of severe toxicity
#Visual disturbances
**In chronic toxicity, K is often low (from concurrent diuretic use)
##Yellow halos
##Scotomas
#Delirium


==Work-Up==
==Differential Diagnosis==
#Dig level
*Other causes of bradycardia with heart block
##Only useful prior to administration of [[Fab]] (otherwise becomes falsely elevated)
*[[Beta-blocker]] or [[calcium channel blocker overdose]]
#Chemistry
*[[Hyperkalemia]]
#Urine output
*Oleander or foxglove poisoning (contain cardiac glycosides)
#ECG (serial)
*Other causes of bidirectional VT: catecholaminergic polymorphic VT, aconitine


== Diagnosis ==
==Evaluation==
#Must use H&P and labs in combination; no single element excludes or confirms the dx
*ECG (look for dysrhythmias, ST changes)
#Digoxin level
**'''Digitalis effect''' (scooped ST depression, "Salvador Dali mustache") ≠ toxicity
##Normal = 0.5-2 ng/mL (ideal = 0.7-1.1)
**Digitalis toxicity = arrhythmias
###May have toxicity even with "therapeutic" levels (esp w/ chronic toxicity)
*Digoxin level:
##Measure at least 6hr after acute ingestion (if stable); immediately for chronic ingestion
**Therapeutic: 0.5-2.0 ng/mL
###If measure before this may be falsely elevated due to incomplete drug distribution
**Draw level ≥6 hours after last dose (allows tissue distribution)
#Potassium level
**Level >2.0 suggests toxicity but clinical correlation is essential
##Acute toxicity: Degree of [[Hyperkalemia]] correlates w/ degree of toxicity
**Level may be falsely elevated after Digibind (measures bound + unbound)
##Chronic toxicity: K+ may be normal/low (concomitant diuretic use) or high (renal failure)
*BMP: potassium (critical — hypokalemia worsens toxicity), creatinine, magnesium, calcium
*Magnesium level (hypomagnesemia increases digoxin sensitivity)


==DDX==
==Management==
#CCB/BB toxicity
===Digoxin-Specific Antibody Fragments (DigiFab/Digibind)===
#Clonidine toxicity
*Definitive antidote — highly effective
#[[Organophosphate pPisoning]]
*Indications for empiric dosing:
#Sick sinus syndrome
**'''Life-threatening arrhythmias''' (VT, VF, symptomatic bradycardia, high-grade AV block)
**Hyperkalemia >5.0 mEq/L in acute poisoning
**Hemodynamic instability
**Digoxin level >10 ng/mL (acute) or >4 ng/mL (chronic) with symptoms
*Dosing:
**If amount ingested known: # vials = (body load in mg × 0.8) / 0.5
**If level known: # vials = (level ng/mL × weight kg) / 100
**'''Empiric dosing''': '''10-20 vials''' for acute life-threatening toxicity; '''3-6 vials''' for chronic toxicity
**Onset: 30-60 minutes
*Each vial binds ~0.5 mg digoxin
*Post-Digibind: total digoxin level rises (bound to antibody) but free digoxin decreases


== Treatment ==
===Supportive Measures===
#'''[[Digoxin Immune Fab]]'''
*Correct hypokalemia to >4.0 mEq/L (in chronic toxicity)
#[[Activated Charcoal]]
*Correct hypomagnesemia: magnesium sulfate 2g IV
##Questionable efficacy
*Calcium: CONTROVERSIAL in digoxin toxicity
##Only an adjunctive tx; NOT an alternative to fab fragment therapy
**Traditional teaching: avoid calcium (risk of "stone heart")
##Consider only if present within 1 hr of ingestion
**Recent evidence suggests risk may be overstated, but '''use with extreme caution'''
##1g/kg (max 50g)
**If hyperkalemic arrest, may give calcium but administer Digibind simultaneously
*Atropine for symptomatic bradycardia: 0.5-1 mg IV (may repeat)
*Activated charcoal if acute ingestion within 1-2 hours and protected airway
*Avoid electrical cardioversion if possible (may precipitate VF in digitalis toxicity)
*If cardioversion unavoidable: use lowest effective energy


===Dysrhythmias===
===What to Avoid===
#[[Digoxin Immune Fab]] is the agent of choice for all dysrhythmias!
*No calcium (controversial — may worsen toxicity)
#[[Cardioversion]] should only be used as a last resort (may precipitate V-Fib)
*No Class IA antiarrhythmics (procainamide, quinidine — worsen conduction)
##Consider lower energy settings (25-50J)
*Minimize cardioversion
#Bradyarrhythmias (symptomatic)
*No beta-blockers (worsen bradycardia/AV block)
##[[Atropine]] 0.5mg IV
##[[Pacing]]
#Ventricular dysrhythmias
##[[Dilantin Load|Phenytoin]]
###Enhances AV conduction
###Phenytoin: 15-20mg/kg at 50mg/min
###Fosphenytoin: 15-20mg PE/kg at 100-150mg/min
##[[Lidocaine]]
###Decreases ventricular automaticity
###1-3mg/kg over several minutes; follow by 1-4mg/min


===[[Hyperkalemia]]===
===Refractory Cases===
#Treat with [[Fab]], not with usual meds
*Lidocaine (for ventricular arrhythmias not responsive to Digibind)
##Once Fab is given hyperkalemia will rapidly correct
*Phenytoin (can improve conduction through AV node; historical use)
#If [[Fab]] unavailable and hyperkalemia is life-threatening then treat with:
*Temporary pacing for complete heart block refractory to atropine and Digibind
##Glucose-insulin
*Consider hemodialysis — does NOT effectively remove digoxin (highly protein/tissue bound) but may help if Digibind unavailable
##Sodium bicarb
##Kayexelate
##Dialysis
##Calcium (controversial: some say dangerous, others say not)
 
===[[Hypokalemia]]===
#Chronic intoxication
##Raise level to 3.5-4
#Acute intoxication
##Do not treat (likely that potassium level is rapidly rising)
 
===[[Hypomagnesemia]]===
#Treat with 1-2g over 10-20 min
##Monitor for resp depresion
##Avoid in pts with:
###Renal failure
###Bradydysrhythmias/conduction blocks


==Disposition==
==Disposition==
*Admit for signs of toxicity or history of large ingested dose; admit to ICU if [[Fab]] given
*Admit all symptomatic patients to monitored bed or ICU
*Discharge after 12hr observation if asymptomatic after accidental overdose
*ICU for arrhythmias, hemodynamic instability, or Digibind administration
*Continuous telemetry for minimum 12-24 hours
*Serial digoxin levels are NOT useful post-Digibind (measures total, not free)
*Poison control: 1-800-222-1222


==See Also==
==See Also==
*[[Digoxin Immune Fab]]
*[[Toxicology]]
*[[Toxidromes]]
*[[Atrial fibrillation]]
*[[Digoxin]]
*[[Heart failure]]
*[[Hyperkalemia]]
*[[Cardiac arrest]]
*[[Beta-blocker toxicity]]
*[[Calcium channel blocker overdose]]


== Source ==
==References==
*Rosen's
*Hauptman PJ, Kelly RA. Digitalis. ''Circulation''. 1999;99(9):1265-1270. PMID 10069797
*Tintinalli
*Hack JB, Lewin NA. Cardioactive steroids. In: ''Goldfrank's Toxicologic Emergencies''. 10th ed. McGraw-Hill. 2015.
*Chan BS, Buckley NA. Digoxin-specific antibody fragments in the treatment of digoxin toxicity. ''Clin Toxicol''. 2014;52(8):824-836. PMID 25089630
*Levine M, et al. The effects of intravenous calcium in patients with digoxin toxicity. ''J Emerg Med''. 2011;40(1):41-46. PMID 18814997


[[Category:Cards]]
[[Category:Toxicology]]
[[Category:Drugs]]
[[Category:Cardiology]]
[[Category:Tox]]

Latest revision as of 10:25, 22 March 2026

Background

  • Digoxin (digitalis) is a cardiac glycoside used for atrial fibrillation rate control and heart failure
  • Narrow therapeutic index (therapeutic level: 0.5-2.0 ng/mL)
  • Mechanism of action: inhibits Na/K-ATPase → increased intracellular calcium → increased contractility
  • Also increases vagal tone (AV nodal blockade)
  • Toxicity occurs from:
    • Acute ingestion (intentional overdose, accidental)
    • Chronic accumulation (most common — renal insufficiency, drug interactions, dehydration)
  • Drug interactions that increase digoxin levels:
    • Amiodarone (increases level by ~50%), verapamil, diltiazem, quinidine
    • Macrolide antibiotics (erythromycin, clarithromycin)
    • Cyclosporine, itraconazole
  • Conditions that increase sensitivity to digoxin:
    • Hypokalemia (most important — K and digoxin compete for same binding site)
    • Hypomagnesemia, hypercalcemia, hypothyroidism, renal failure
  • Mortality without antidote: up to 20-30% in significant poisoning

Clinical Features

GI (Often Earliest)

  • Nausea, vomiting, anorexia (most common symptoms)
  • Abdominal pain, diarrhea

Cardiac (Most Dangerous)

  • Almost ANY dysrhythmia can occur
  • Classic: increased automaticity + decreased conduction
  • Most common arrhythmia: PVCs
  • Highly suggestive rhythms:
    • Bidirectional ventricular tachycardia (nearly pathognomonic)[1]
    • Atrial tachycardia with AV block (PAT with block)
    • Accelerated junctional rhythm
    • Regularized atrial fibrillation (AF with complete heart block + junctional escape)
  • Sinus bradycardia, AV block (1st, 2nd, 3rd degree)
  • Ventricular fibrillation / asystole (in severe toxicity)

Neurologic

  • Visual disturbances: xanthopsia (yellow-green halo vision), blurred vision, photophobia
  • Confusion, delirium, weakness, fatigue
  • Drowsiness

Metabolic

  • Hyperkalemia in acute toxicity (Na/K-ATPase inhibition → K moves extracellularly)
    • K >5.0 in acute digoxin poisoning is a marker of severe toxicity
    • In chronic toxicity, K is often low (from concurrent diuretic use)

Differential Diagnosis

Evaluation

  • ECG (look for dysrhythmias, ST changes)
    • Digitalis effect (scooped ST depression, "Salvador Dali mustache") ≠ toxicity
    • Digitalis toxicity = arrhythmias
  • Digoxin level:
    • Therapeutic: 0.5-2.0 ng/mL
    • Draw level ≥6 hours after last dose (allows tissue distribution)
    • Level >2.0 suggests toxicity but clinical correlation is essential
    • Level may be falsely elevated after Digibind (measures bound + unbound)
  • BMP: potassium (critical — hypokalemia worsens toxicity), creatinine, magnesium, calcium
  • Magnesium level (hypomagnesemia increases digoxin sensitivity)

Management

Digoxin-Specific Antibody Fragments (DigiFab/Digibind)

  • Definitive antidote — highly effective
  • Indications for empiric dosing:
    • Life-threatening arrhythmias (VT, VF, symptomatic bradycardia, high-grade AV block)
    • Hyperkalemia >5.0 mEq/L in acute poisoning
    • Hemodynamic instability
    • Digoxin level >10 ng/mL (acute) or >4 ng/mL (chronic) with symptoms
  • Dosing:
    • If amount ingested known: # vials = (body load in mg × 0.8) / 0.5
    • If level known: # vials = (level ng/mL × weight kg) / 100
    • Empiric dosing: 10-20 vials for acute life-threatening toxicity; 3-6 vials for chronic toxicity
    • Onset: 30-60 minutes
  • Each vial binds ~0.5 mg digoxin
  • Post-Digibind: total digoxin level rises (bound to antibody) but free digoxin decreases

Supportive Measures

  • Correct hypokalemia to >4.0 mEq/L (in chronic toxicity)
  • Correct hypomagnesemia: magnesium sulfate 2g IV
  • Calcium: CONTROVERSIAL in digoxin toxicity
    • Traditional teaching: avoid calcium (risk of "stone heart")
    • Recent evidence suggests risk may be overstated, but use with extreme caution
    • If hyperkalemic arrest, may give calcium but administer Digibind simultaneously
  • Atropine for symptomatic bradycardia: 0.5-1 mg IV (may repeat)
  • Activated charcoal if acute ingestion within 1-2 hours and protected airway
  • Avoid electrical cardioversion if possible (may precipitate VF in digitalis toxicity)
  • If cardioversion unavoidable: use lowest effective energy

What to Avoid

  • No calcium (controversial — may worsen toxicity)
  • No Class IA antiarrhythmics (procainamide, quinidine — worsen conduction)
  • Minimize cardioversion
  • No beta-blockers (worsen bradycardia/AV block)

Refractory Cases

  • Lidocaine (for ventricular arrhythmias not responsive to Digibind)
  • Phenytoin (can improve conduction through AV node; historical use)
  • Temporary pacing for complete heart block refractory to atropine and Digibind
  • Consider hemodialysis — does NOT effectively remove digoxin (highly protein/tissue bound) but may help if Digibind unavailable

Disposition

  • Admit all symptomatic patients to monitored bed or ICU
  • ICU for arrhythmias, hemodynamic instability, or Digibind administration
  • Continuous telemetry for minimum 12-24 hours
  • Serial digoxin levels are NOT useful post-Digibind (measures total, not free)
  • Poison control: 1-800-222-1222

See Also

References

  • Hauptman PJ, Kelly RA. Digitalis. Circulation. 1999;99(9):1265-1270. PMID 10069797
  • Hack JB, Lewin NA. Cardioactive steroids. In: Goldfrank's Toxicologic Emergencies. 10th ed. McGraw-Hill. 2015.
  • Chan BS, Buckley NA. Digoxin-specific antibody fragments in the treatment of digoxin toxicity. Clin Toxicol. 2014;52(8):824-836. PMID 25089630
  • Levine M, et al. The effects of intravenous calcium in patients with digoxin toxicity. J Emerg Med. 2011;40(1):41-46. PMID 18814997
  1. Smith TW. Digitalis: Mechanisms of action and clinical use. N Engl J Med. 1988;318(6):358-365. PMID 3277052
Retrieved from "https://www.wikem.org/w/index.php?title=Digoxin_toxicity&oldid=389664"