Acetaminophen toxicity

Background

• Includes Tylenol and numerous brands and products including acetaminophen

Maximal acetaminophen daily doses

• Adults: 4g/day
• Peds: 75mg/kg/day

Toxic dose

• >10 gm or >200mg/kg as single ingestion or over 24hr period OR
• >6 gm or >150mg/kg per 24hr period x 2days
• 200mg/kg in healthy children 1-6 years of age

The 150 Rule

• Toxic dose is 150mg/kg
• Give NAC if level is >150 mcg/mL four hours post-ingestion
• Initial loading dose of NAC is 150mg/kg IV (140mg/kg PO)

Mechanism of action

• Poorly understood
• Possibly through inhibition of Cyclooxygenase-3 (COX-3)
  • Decreases synthesis of prostaglandins
• Antipyresis through inhibition of hypothalamic heat center

Pharmacokinetics

• A - Rapid and near complete absorption
• D - Vd = 0.95 L/kg
• M - T 1/2 = 1.5-2hrs
  • 40-60% - Glucuronidation
  • 20-40% - Sulfuronidation
  • 5-10% - Metabolism through CYP450 (Forms NAPQI)^[1]
• E - Conjugated and unconjugated excreted through kidneys

Toxicologic Pathophysiology

• APAP toxic metabolite NAPQI usually quickly detoxified by glutathione stores in liver
  • In overdose, glutathione runs out, NAPQI accumulates → liver injury
• NAC increases availability of glutathione
  • NAC is a precursor

Clinical Features

Stage 1 (first 24hr)

• Mild nausea and vomiting/malaise
• Hypokalemia (associated with high 4-hr level)
• Massive Ingestion (>500mg/kg) may present with acidemia, coma, hemodynamic changes shortly after ingestion and prior to hepatic necrosis ^{[2] [3]}

Stage 2 (days 2-3)

• Improvement in symptoms
• RUQ abdominal pain
• Elevated transaminases
• Elevated bilirubin, PT (if severe)

Stage 3 (days 3-4)

• Recurrence of nausea and vomiting
• Acute liver necrosis → liver failure
• Jaundice
• Coagulopathy
• Encephalopathy (esp with massive ingestions)
• Acute renal failure (1-2%; usually after hepatic failure is evident)
• Pancreatitis (rare)

Stage 4 (after day 5, up to 2 weeks)

• Clinical improvement and recovery (7-8d) OR
• Deterioration to multi-organ failure and death OR
• Continued deterioration

Differential Diagnosis

Acute hepatitis

• Viral hepatitis
  • Hepatitis A
  • Hepatitis B
  • Hepatitis C
• Acute alcoholic hepatitis
• Acetaminophen toxicity
• Mushroom toxicity
  • Crotinarius mushrooms
  • Gyromitra mushrooms
  • Amanita mushrooms
• Ischemic hepatitis

Evaluation

Work-Up

• Acetaminophen (APAP) level
  • Obtain 4hrs post-ingestion
  • Obtaining <4hrs level or "arrival level" is of no diagnostic value
  • Obtaining multiple levels is rarely indicated in the absence of hepatotoxicity
• Chemistry
  • Metabolic acidosis seen with extremely large ingestion
• LFT
• PT/PTT/INR
• Aspirin levels and other co-ingestants

Rumack-Matthew Nomogram

• Only indicated for single, acute ingestion occurring <24hr prior to presentation
  • Not useful for chronic ingestion (patients who take supratherapeutic doses for several days) or if time of ingestion is unknown
• Make sure you use the correct units!
• Dotted line should be used for those at higher-risk of liver toxicity (eg alcoholics, those on enzyme-inducing drugs)
• Co-ingestion of drugs that reduce GI motility should prompt repeating acetaminophen level at 8 hrs:
  • Opiates
  • Anticholinergics (diphenhydramine, etc.)

Management

Very important to identify time of ingestion. The Rumack-Mathew Nomogram is only for acute acetaminophen ingestions and not useful for chronic ingestions

<4hr after ingestion

• GI decontamination
  • Activated Charcoal if <3 hr post-ingestion (no role for multidose activated charcoal)
  • Gastric Lavage if high-morbidity coingestants and <1 hr post-ingestion
• Send 4hr APAP level
  • Toxic level: Give NAC
  • Nontoxic level: No treatment necessary

Between 4-24hr after ingestion

• Send APAP level
  • If level will be available within 8hr post-ingestion: wait for level before treating
  • If level will not be available within 8hr post-ingestion: do not wait for level before treating
    • Discontinue treatment if level returns non-toxic

Unknown or >24hr after ingestion

• Consider GI decontamination for unknown ingestion time
• Give 1st dose of NAC
• Send APAP level, LFT, coags
  • APAP level >10 OR elevated transaminases? If yes then continue NAC
    • pH <7.3 or PT >100 or creatinine >3.3 or altered mental status? If yes refer to liver transplant unit
  • APAP level and LFT both normal? If yes then stop NAC (treatment not indicated)

Chronic Ingestion

• Initiate NAC in any patient with evidence of ongoing hepatotoxicity (lft abnormalities) OR 'positive' tylenol level (>20 mcg/mL)
• If patient has normal LFT and 'negative' tylenol level (<20 mcg/mL), NAC treatment NOT required

Overdose in Pregnancy

• Both IV or oral NAC may be used in pregnant patients with Acetaminophen toxicity. ^[4]
  • IV formulation may be preferred to increase fetal NAC concentrations

Extended release overdose

• Extended-release acetaminophen (Tylenol ER) consists of acetaminophen 325mg in immediate release (IR) form surrounding a matrix of acetaminophen 325mg
  • Several studies show that the elimination of ER and IR APAP preparations is nearly identical after 4 hours. However, some case reports have documented APAP levels that are above the potential toxicity and treatment line on the nomogram as late as 11-14 hours after the ingestion of the ER preparation.
  • Recommended management includes the measurement of 4-, 6-, and 8-hour APAP concentrations. Begin NAC therapy if any level crosses above the nomogram treatment line. If the 6-hour level is greater than the 4-hour level, begin NAC therapy.

Massive Ingestion

• >500mg/kg
• May have early acidemia, coma, hemodynamic changes (does not necessarily indicate hepatic damage)
  • Supportive care (IVF, pressors, intubation PRN)
• Early consultation with poison control, prior to 4 hour level
• May consider early or increased NAC dosage, dialysis in extreme cases ^[5]

NAC Treatment

Should begin if:

• The patient's history suggests:acetaminophen ingestion of ≥ 150mg/kg in children or 7.5 g in adults and the results of blood tests will not be available within 8 hours of the ingestion or
• Serum acetaminophen concentration falls on or above the Rumack-Matthew nomogram treatment line or
• While waiting for AST/ALT levels of a patient with a chronic overdose
  • Serum levels may not reach peak until up to 4 hours post-ingestion

Adult N-Acetylcysteine Dosing

See above guidelines for when to dose NAC

PO

• 140mg/kg PO load
• 70mg/kg PO q4hr x17 doses additional; dilute to 5% soln

IV

• Loading dose: 150mg/kg in 100 mL D5W over 60min
• Second (maintenance) dose: 50mg/kg in 250 mL D5W over 4hr
• Third dose: 100mg/kg in 500 mL D5W over 16hr

Comments

• Almost 100% effective if given <8 hr post-ingestion; less effective if 16-24 hr post-ingestion
• May still be useful >24 hr post-ingestion, even with fulminant hepatic failure. Give NAC until LFTs improve (not until APAP level is 0) ^{[6] [7]}
• Be aware NAC treatment may affect PT. May see a dose-dependent increase in PT following NAC in patients without hepatotoxicity. ^[8]

Pediatric N-Acetylcysteine Dosing

For children there is a diluent added to the NAC so that there is no electrolyte and volume complications.

PO

• 140 mg/kg body weight, orally, once as a loading dose
• Maintenance Dose: 70 mg/kg body weight, orally, 4 hours after the loading dose and every 4 hours for 17 total doses, unless repeated acetaminophen assays reveal nontoxic levels

100 to 109 kg:

• Loading dose: 15 g (75 mL) in 225 mL diluent; total volume: 300 mL
• Maintenance Dose: 7.5 g (37 mL) in 113 mL diluent; total volume: 150 mL

90 to 99 kg:

• Loading dose: 14 g (70 mL) in 210 mL diluent; total volume: 280 mL
• Maintenance Dose: 7 g (35 mL) in 105 mL diluent; total volume: 140 mL

80 to 89 kg

• Loading dose: 13 g (65 mL) in 195 mL diluent; total volume: 260 mL
• Maintenance Dose: 6.5 g (33 mL) in 97 mL diluent; total volume: 130 mL

70 to 79 kg

• Loading dose: 11 g (55 mL) in 165 mL in diluent; total volume: 220 mL
• Maintenance Dose: 5.5 g (28 mL) in 82 mL diluent; total volume: 110 mL

60 to 69 kg

• Loading dose: 10 g (50 mL) in 150 mL diluent; total volume: 200 mL
• Maintenance Dose: 5 g (25 mL) in 75 mL diluent; total volume: 100 mL

50 to 59 kg

• Loading dose: 8 g (40 mL) in 120 mL diluent; total volume: 160 mL
• Maintenance Dose: 4 g (20 mL) in 60 mL diluent; total volume: 80 mL

40 to 49 kg

• Loading dose: 7 g (35 mL) in 105 mL diluent; total volume: 140 mL
• Maintenance Dose: 3.5 g (18 mL) in 52 mL diluent; total volume: 70 mL

30 to 39 kg

• Loading dose: 6 g (30 mL) in 90 mL diluent; total volume: 120 mL
• Maintenance Dose: 3 g (15 mL) in 45 mL diluent; total volume: 60 mL

20 to 29 kg

• Loading dose: 4 g (20 mL) in 60 mL diluent; total volume: 80 mL
• Maintenance Dose: 2 g (10 mL) in 30 mL diluent; total volume: 40 mL

Less than 20 kg

• Add 3 mL of diluent to each 1 mL (200 mg) of 20% acetylcysteine solution
• Loading dose: 140 g/kg
• Maintenance Dose: 70 g/kg

IV

for pediatrics (0-18) the addition of a dilution of NAC should be followed to avoid electrolyte and fluid problems

5 to 20 kg:

• Loading Dose: 150 mg/kg in 3 mL/kg diluent, infused over 1 hour
• Second Dose: 50 mg/kg in 7 mL/kg diluent, infused over 4 hours
• Third Dose: 100 mg/kg in 14 mL/kg diluent, infused over 16 hours

21 to 40 kg:

• Loading Dose: 150 mg/kg in 100 mL diluent, infused over 1 hour
• Second Dose: 50 mg/kg in 250 mL diluent, infused over 4 hours
• Third Dose: 100 mg/kg in 500 mL diluent, infused over 16 hours

Over 100 kg:

• Loading Dose: 15,000 mg in 200 mL diluent, infused over 1 hour
• Second Dose: 5,000 mg in 500 mL diluent, infused over 4 hours
• Third Dose: 10,000 mg in 1,000 mL diluent, infused over 16 hours

Disposition

• Consider discharge for asymptomatic patients who do not require NAC
• Admission if requiring NAC or other ingestions, injuries
• Transfer to transplant center based on above criteria
• Psych consult if patient has suicidal ideation
• In subacute toxicity, AST/ALT ratio of < 0.4 has sen of 99% for resolving hepatic injury^[9]

King's College Criteria

• Criteria for predicting fulminant hepatic failure, and thus referral to transplant center^[10]
• PPV 70-90% and sensitivity 69%
• Includes:
  • pH<7.3 or lactate>3 at 12hrs after full fluid resuscitation, OR all of the following:
  • Cr>3.4
  • INR>6.5
  • grade 3 or 4 Hepatic Encephalopathy

• Other predictors of APAP-induced hepatic failure include:
  • lactate >3.5 4hrs after fluid resusciation
  • phos >3.8 at 48hrs, OR
  • APACHE II >15

External Links

• MDCalc - Acetaminophen Overdose & NAC Dosing
• MDCalc - King's College Criteria for Acetaminophen Toxicity

Video

References

1. ↑ Hendrickson RG, Bizovi KE. Acetaminophen. In: Flomenbaum NE, Goldfrank LR, Hoffman RS, et al, eds. Goldfrank’s Toxicologic Emergencies. 8th ed. New York: McGraw-Hill; 2002:523-543. (Textbook chapter)
2. ↑ Roth B, Woo O, Blanc P. Early Metabolic Acidosis and Coma After Acetaminophen Ingestion. Ann Emerg Med. 1999;33(4):452-456.
3. ↑ Zein JG, et al. Early anion gap metabolic acidosis in acetaminophen overdose. Am J Emerg Med. 2010;28:798-802.
4. ↑ Heard KJ. Acetylcysteine for acetaminophen poisoning. N Eng J Med. 2008;359(3):285-292. (Review)
5. ↑ Gosselin S, et al. Extracorporeal treatment for acetaminophen poisoning: Recommendations from the EXTRIP workgroup. Clin Tox. 2014;52:856-867.
6. ↑ Keays R, Harrison PM, Wendon JA, et al. Intravenous acetylcysteine in paracetamol-induced fulminant hepatic failure: a prospective controlled trial. BMJ. 1991;303(6809):1026-1029. (Prospective randomized controlled trial; 50 patients)
7. ↑ Harrison PM, Keays R, Bray GP, et al. Improved outcome of paracetamol-induced fulminant hepatic failure by late administration of N-acetylcysteine. Lancet. 1990;335(8705):1572- 1573. (Retrospective analysis; 100 patients)
8. ↑ Wasserman GS, Garg U. Intravenous administration of Nacetylcysteine: interference with coagulopathy testing. Ann Emerg Med. 2004;44(5):546-547. (Letter)
9. ↑ Mcgovern AJ, et al. Can AST/ALT ratio indicate recovery after acute paracetamol poisoning? Clin Toxciol. 2015; 53:164-167.
10. ↑ Bailey B, et al. Fulminant hepatic failure secondary to acetaminophen poisoning: a systematic review and meta-analysis of prognostic criteria determining the need for liver transplantation. Crit Care Med. 2003; 31(1):299-305.