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==Pathophysiology==
==Background==
*'''Most common cause of acute liver failure''' in the United States and UK
*Found in >600 OTC and prescription products (Tylenol, Percocet, Vicodin, NyQuil, etc.)
*Therapeutic dose: 10-15 mg/kg per dose (max 4g/day in adults; 2g/day in chronic alcoholics)
*Toxic dose: >150 mg/kg (single ingestion) or > 7.5 g total in adults
*Mechanism:
**Normal metabolism: 90% glucuronidation/sulfation → nontoxic → renally excreted
**~5% oxidized by CYP2E1 → NAPQI (toxic metabolite) → detoxified by glutathione
**In overdose: glucuronidation/sulfation saturated → excess NAPQI production → glutathione depletion → hepatocellular necrosis
*N-acetylcysteine (NAC) is a glutathione precursor and is nearly 100% effective when given within 8 hours of ingestion<ref>Smilkstein MJ, et al. Efficacy of oral N-acetylcysteine in the treatment of acetaminophen overdose. ''N Engl J Med''. 1988;319(24):1557-1562. PMID 3059186</ref>


===Risk Factors for Enhanced Toxicity===
*Chronic alcohol use (CYP2E1 induction + depleted glutathione stores)
*Fasting / malnutrition (depleted glutathione)
*CYP2E1 inducers: isoniazid, phenobarbital, carbamazepine, rifampin
*Lower threshold for treatment in these patients


- APAP (n-acetyl-p-aminophenol) liver metabolized by oxidation and/or conjugation
==Clinical Features==
===Four Stages of Toxicity===
*Stage 1 (0-24h): Often asymptomatic or nonspecific (nausea, vomiting, anorexia, diaphoresis)
*Stage 2 (24-72h): RUQ pain, elevated transaminases, rising INR; may appear to improve clinically
*Stage 3 (72-96h): Peak hepatotoxicity — markedly elevated AST/ALT (can exceed 10,000), coagulopathy, [[jaundice]], [[acute kidney injury]], [[hepatic encephalopathy]]
**Fulminant hepatic failure: [[cerebral edema]], [[DIC]], [[multi-organ failure]], death
*Stage 4 (4-14 days): Recovery phase in survivors (hepatocytes regenerate)


  - toxic metabolites, including N-acetyl-benzoquinonimine (NAPQI), metabolized via all 3
===Chronic/Repeated Supratherapeutic Ingestion===
*More common than acute overdose in clinical practice
*Presents with hepatotoxicity without early Stage 1 symptoms
*Rumack-Matthew nomogram does NOT apply
*Treat based on APAP level + ALT elevation


  - conjugation with glucuronide (40-60%) or sulfate (20-40%)
==Differential Diagnosis==
*[[Viral hepatitis]]
*Alcoholic hepatitis
*Other drug-induced hepatitis
*[[Ischemic hepatitis]] (shock liver)
*[[Wilson disease]] (acute presentation)
*Amanita phalloides (mushroom) poisoning
*[[Salicylate toxicity]]
*Other ingestions causing liver failure


  - oxidation via CYP450 2E1 (<10%) and then conjugated
==Evaluation==
*'''Serum APAP level''': draw at '''4 hours post-ingestion''' (or immediately if >4 hours)
**Plot on Rumack-Matthew nomogram at time since ingestion
**Treatment line: starts at 150 mcg/mL at 4 hours (US uses this; original line at 200)
**Below treatment line = low risk; above = treat with NAC
*AST/ALT: may be normal initially; any elevation warrants NAC
*INR/PT: coagulopathy = hepatic failure; INR is the best prognostic marker
*BMP: creatinine (renal injury occurs in ~25% of severe cases), bicarbonate, glucose
*Lipase, bilirubin, CBC
*Salicylate level (coingestion screening)
*Lactate: elevated lactate = poor prognosis
*VBG/ABG: pH <7.30 after resuscitation = poor prognosis


- In excessive amounts, glutathione depleted --> CYP450 pathway overwhelmed  --> NAPQI accum = liver injury
===King's College Criteria (Liver Transplant Referral)===
*Acetaminophen-induced ALF:
**pH <7.30 after adequate fluid resuscitation (regardless of grade of encephalopathy) OR
**All three: INR >6.5, creatinine >3.4 mg/dL, and Grade III-IV hepatic encephalopathy
*Consider early transfer to a liver transplant center


- N-acetylcysteine (NAC) increases availability of glutathione thus prevents accumulation of NAPQI
==Management==
===GI Decontamination===
*Activated charcoal 1 g/kg (max 50g) if within 1-2 hours of ingestion and patient is alert with protected airway
*May benefit up to 4 hours post-ingestion
*Do NOT delay NAC for charcoal


- Additional effects of NAC: Antioxidant effects, microcirculatory changes (improved tissue oxygenation)
===N-Acetylcysteine (NAC) — The Antidote===
*Give NAC if:
**APAP level above treatment line on Rumack-Matthew nomogram
**Time of ingestion unknown and APAP level detectable
**Elevated transaminases with history of APAP ingestion
**Ingestion of > 150 mg/kg and level will not be available within 8 hours
**Any doubt → give NAC (minimal side effects, potentially life-saving)


- Activated charcoal: Adsorbs (and prevents absorption of) acetaminophen
====IV NAC Protocol (21-hour Protocol — Preferred)====
*Loading dose: 150 mg/kg IV in 200 mL D5W over 60 minutes (or 15 minutes if used to be over 15 min)
*Second infusion: 50 mg/kg IV in 500 mL D5W over 4 hours
*Third infusion: 100 mg/kg IV in 1000 mL D5W over 16 hours
*Total: 300 mg/kg over 21 hours
*Anaphylactoid reactions (flushing, urticaria, bronchospasm) most common during loading dose
**Slow or pause infusion; treat with antihistamines/bronchodilators; '''do not stop NAC permanently'''


- However, also adsorbs (and prevents absorption of) N-acetylcysteine
====Oral NAC Protocol (72-hour)====
*Loading dose: 140 mg/kg PO
*Maintenance: 70 mg/kg PO every 4 hours × 17 additional doses
*Total: 1,330 mg/kg over 72 hours
*Mixed with cola or juice to improve palatability
*If patient vomits within 1 hour of dose, repeat the dose


====Two-Bag Modified Prescott Protocol====
*Some centers use a simplified 2-bag protocol: 200 mg/kg IV over 4 hours then 100 mg/kg IV over 16 hours
*Lower rate of anaphylactoid reactions<ref>Wong A, et al. Comparison of two- versus three-bag IV acetylcysteine protocols. ''Clin Toxicol''. 2013;51(7):676-679.</ref>


Risk Factors for Toxicity
===When to Stop NAC===
*APAP level undetectable, AST/ALT normalizing/improving, INR ≤1.3, clinically well
*If AST/ALT still elevated or INR elevated: continue NAC beyond standard protocol


-Hepatic disease, alcoholics, geriatric: chronic toxicity
===Fulminant Hepatic Failure===
 
*Continue IV NAC indefinitely (has benefit even in established liver failure)
-Toxicity enhanced with inducers of CYP450 (alcoholics, drugs), poor nutrition (lower glutathione stores)
*Contact liver transplant center early
 
*Manage: coagulopathy (FFP only if active bleeding), [[cerebral edema]] (elevate HOB, hypertonic saline, mannitol), [[hypoglycemia]], [[infection]], [[electrolyte imbalances]]
Kinetics
 
-t1/2: 4 hrs in OD, otherwise 1-3 hrs
 
-Usual maximum daily recommended dose: 2.4 - 4.0 g/day
 
-Thx dose: Peds - 15mg/kg/dose Q4-6; Adults - 325mg-1000mg Q4-6
 
-Toxic dose 140mg/kg; 10g or 200mg/kg; 4g or 100mg/kg in high risk pt
 
Metabolism: CYP450 dependent (in absence of sufficient glutathione)
 
-Children with less of cytochrome; less likely to suffer effects of toxicity
 
-Pediatric to Adult "metabolism" typically occurs between 6 to 9 years old
 
 
==Symptoms==
 
 
-Phase 1 (0-24 hrs): asymptomatic, N/V, abd. tenderness, diaphoresis
 
-Phase 2 (24-72 hrs): asymptomatic, LFT's & coagulation tests, Cr may begin to incr.
 
-Phase 3 (72-124 hrs): PEAK hepatotoxicity, hepatic necrosis, jaundice, encephalopathy, renal failure, death, pancreatitis (hyperamylasemia)
 
--Seen in 18% of overdoses
 
-Phase 4 (5-14 d): recovery
 
 
==W/U==
 
 
Laboratory testing
 
-Lytes, BUN/Cr, glucose: metabolic acidos seen w/ extremely large (> 75 g, > 10 g peds) ingestion, renal function
 
-LFT's: AST usually incr. first; may rise over 10,000
 
-Monitor qd x3 with bilirubin
 
-Coagulation studies: indicator of liver function; monitor qD x3
 
-Acetaminophen level: 4 hours post ingestion and repeat in 4 hours
 
-Estimated ingestion >150 mg/kg and 8 hr post ingestion may start NAC while awaiting levels
 
-Rumack-Matthews nomogram guide for Tx in acute overdose; do not use for chronic ingestions or late ingestions
 
Toxic levels
 
-4 hr level >150 mcg/mL [993 umol/L]
 
-6 hr >110 mcg/mL [728 umol/L]
 
-8 hr >75 mcg/mL [496.5 umol/L]
 
-24 hr >4.5 mcg/mL [29.8 umol/L]
 
Acetaminophen half-life > 4 hr also may indicate toxicity
 
Extended release preparations (Tylenol7 "Extended Relief")
 
-Bi-layer caplet; each layer contains 325 mg acetaminophen
 
-One layer "immediate release," second layer "extended release" (up to  8 hrs; 95% released by 5 hrs)
 
-Peak blood levels with therapeutic doses @ 1-2 hrs; may be longer  after overdose
 
-Requires serial levels (x2-3) as will drop and can be misleading
 
-Cannot use nomogram
 
-If suspicious, treat with NAC
 
-Does not qualify for new shorter course 48 hr NAC therapy
 
 
==Treatment==
 
 
Call poison control
 
1. ABCs, IV, O2, monitor
 
-Decrease absorption
 
-Do not induce emesis
 
2. Gastric lavage if < 1 hr post-ingestion
 
3. Activated charcoal if < 3 hr post-ingestion or if other coingestants
 
-Does not interfere with NAC administration
 
4. Antidote: N-acetylcysteine (NAC or Mucomyst)
 
-Obtain acetaminophen level at least 4 hrs after ingestion (if uncertain time, obtain level immediately and then 4hrs later; determine 1/2 life)
 
-Wait for level before initiating therapy if level will return within 8 hrs post-ingestion
 
-Plot on Rumack-Matthew nomogram; if acetaminophen level in non-toxic range, NAC not indicated
 
-If level will not return within 8 hrs post-ingestion, give first dose of NAC empirically with suspected toxic ingestion; discontinue therapy if level non-toxic
 
If toxic:
 
NAC
 
PO:
 
-140 mg/kg PO load
 
-70 mg/kg PO q4hr x17 doses additional; dilute to 5% soln
 
IV (Acetadote)
 
-Loading dose 150 mg/kg in 200 mL D5W over 60 min
 
-Second (maintenance) dose 50 mg/kg in 500 mL D5W over 4 hrs
 
-Third dose 100 mg/kg in 1000 mL D5W over 16 hrs
 
--Virtually 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
 
--Do not stop when acetaminophen concentrations fall to 0: free radicals are still causing hepatic damage
 
--In pts who develop hepatic injury, NAC tx should be continued until liver function improves (follow LFT's)
 
5. May require strong anti-emetic (ondansetron 0.15 mg/kg IV, metoclopramide 20-40mg IV) or NGT if severe vomiting
 
6. Increase elimination
 
-Charcoal hemoperfusion
 
--Also effective in removing acetaminophen
 
--Not useful in usual clinical circumstances
 
--Indicated when pt. has fulminant hepatic encephalopathy with significant levels of acetaminophen present
 
7. Follow acetaminophen levels q4h, LFT, Coags
 
8. Evaluate potential need for liver transplant: pH<7.25, Cr >2.5, INR >4.5
 


==Disposition==
==Disposition==
*'''Admit''' if NAC initiated, elevated transaminases, or altered mental status
*ICU for evidence of liver failure (coagulopathy, encephalopathy, acidosis, renal failure)
*Consider discharge if:
**APAP level below treatment line at ≥4 hours post-ingestion
**Normal AST/ALT, INR, creatinine
**4-6 hour observation complete
**Psychiatric evaluation for intentional ingestions
*Poison control: 1-800-222-1222


==See Also==
*[[Toxicology]]
*[[Acute liver failure]]
*[[Salicylate toxicity]]
*[[Hepatic encephalopathy]]


Psych hold
==References==
 
<references/>
Admit
*Heard KJ. Acetylcysteine for acetaminophen poisoning. ''N Engl J Med''. 2008;359(3):285-292. PMID 18635433
 
*Rumack BH. Acetaminophen hepatotoxicity: the first 35 years. ''J Toxicol Clin Toxicol''. 2002;40(1):3-20. PMID 11990202
-Pre-school child with ingestions > 200 mg/kg
*Chun LJ, et al. Acetaminophen hepatotoxicity and acute liver failure. ''J Clin Gastroenterol''. 2009;43(4):342-349. PMID 19169150
 
-Older child, adult w/ingestion >150 mg/kg or a total dose of 7.5 g
 
-Liver function abnormalities
 
-Delayed presentation or requirement for NAC therapy
 
Discharge
 
-Asymptomatic pts. w/o need of NAC therapy
 
 
 


[[Category:Tox]]
[[Category:Toxicology]]
[[Category:GI]]

Revisión actual - 09:29 22 mar 2026

Background

  • Most common cause of acute liver failure in the United States and UK
  • Found in >600 OTC and prescription products (Tylenol, Percocet, Vicodin, NyQuil, etc.)
  • Therapeutic dose: 10-15 mg/kg per dose (max 4g/day in adults; 2g/day in chronic alcoholics)
  • Toxic dose: >150 mg/kg (single ingestion) or > 7.5 g total in adults
  • Mechanism:
    • Normal metabolism: 90% glucuronidation/sulfation → nontoxic → renally excreted
    • ~5% oxidized by CYP2E1 → NAPQI (toxic metabolite) → detoxified by glutathione
    • In overdose: glucuronidation/sulfation saturated → excess NAPQI production → glutathione depletion → hepatocellular necrosis
  • N-acetylcysteine (NAC) is a glutathione precursor and is nearly 100% effective when given within 8 hours of ingestion[1]

Risk Factors for Enhanced Toxicity

  • Chronic alcohol use (CYP2E1 induction + depleted glutathione stores)
  • Fasting / malnutrition (depleted glutathione)
  • CYP2E1 inducers: isoniazid, phenobarbital, carbamazepine, rifampin
  • Lower threshold for treatment in these patients

Clinical Features

Four Stages of Toxicity

  • Stage 1 (0-24h): Often asymptomatic or nonspecific (nausea, vomiting, anorexia, diaphoresis)
  • Stage 2 (24-72h): RUQ pain, elevated transaminases, rising INR; may appear to improve clinically
  • Stage 3 (72-96h): Peak hepatotoxicity — markedly elevated AST/ALT (can exceed 10,000), coagulopathy, jaundice, acute kidney injury, hepatic encephalopathy
  • Stage 4 (4-14 days): Recovery phase in survivors (hepatocytes regenerate)

Chronic/Repeated Supratherapeutic Ingestion

  • More common than acute overdose in clinical practice
  • Presents with hepatotoxicity without early Stage 1 symptoms
  • Rumack-Matthew nomogram does NOT apply
  • Treat based on APAP level + ALT elevation

Differential Diagnosis

Evaluation

  • Serum APAP level: draw at 4 hours post-ingestion (or immediately if >4 hours)
    • Plot on Rumack-Matthew nomogram at time since ingestion
    • Treatment line: starts at 150 mcg/mL at 4 hours (US uses this; original line at 200)
    • Below treatment line = low risk; above = treat with NAC
  • AST/ALT: may be normal initially; any elevation warrants NAC
  • INR/PT: coagulopathy = hepatic failure; INR is the best prognostic marker
  • BMP: creatinine (renal injury occurs in ~25% of severe cases), bicarbonate, glucose
  • Lipase, bilirubin, CBC
  • Salicylate level (coingestion screening)
  • Lactate: elevated lactate = poor prognosis
  • VBG/ABG: pH <7.30 after resuscitation = poor prognosis

King's College Criteria (Liver Transplant Referral)

  • Acetaminophen-induced ALF:
    • pH <7.30 after adequate fluid resuscitation (regardless of grade of encephalopathy) OR
    • All three: INR >6.5, creatinine >3.4 mg/dL, and Grade III-IV hepatic encephalopathy
  • Consider early transfer to a liver transplant center

Management

GI Decontamination

  • Activated charcoal 1 g/kg (max 50g) if within 1-2 hours of ingestion and patient is alert with protected airway
  • May benefit up to 4 hours post-ingestion
  • Do NOT delay NAC for charcoal

N-Acetylcysteine (NAC) — The Antidote

  • Give NAC if:
    • APAP level above treatment line on Rumack-Matthew nomogram
    • Time of ingestion unknown and APAP level detectable
    • Elevated transaminases with history of APAP ingestion
    • Ingestion of > 150 mg/kg and level will not be available within 8 hours
    • Any doubt → give NAC (minimal side effects, potentially life-saving)

IV NAC Protocol (21-hour Protocol — Preferred)

  • Loading dose: 150 mg/kg IV in 200 mL D5W over 60 minutes (or 15 minutes if used to be over 15 min)
  • Second infusion: 50 mg/kg IV in 500 mL D5W over 4 hours
  • Third infusion: 100 mg/kg IV in 1000 mL D5W over 16 hours
  • Total: 300 mg/kg over 21 hours
  • Anaphylactoid reactions (flushing, urticaria, bronchospasm) most common during loading dose
    • Slow or pause infusion; treat with antihistamines/bronchodilators; do not stop NAC permanently

Oral NAC Protocol (72-hour)

  • Loading dose: 140 mg/kg PO
  • Maintenance: 70 mg/kg PO every 4 hours × 17 additional doses
  • Total: 1,330 mg/kg over 72 hours
  • Mixed with cola or juice to improve palatability
  • If patient vomits within 1 hour of dose, repeat the dose

Two-Bag Modified Prescott Protocol

  • Some centers use a simplified 2-bag protocol: 200 mg/kg IV over 4 hours then 100 mg/kg IV over 16 hours
  • Lower rate of anaphylactoid reactions[2]

When to Stop NAC

  • APAP level undetectable, AST/ALT normalizing/improving, INR ≤1.3, clinically well
  • If AST/ALT still elevated or INR elevated: continue NAC beyond standard protocol

Fulminant Hepatic Failure

Disposition

  • Admit if NAC initiated, elevated transaminases, or altered mental status
  • ICU for evidence of liver failure (coagulopathy, encephalopathy, acidosis, renal failure)
  • Consider discharge if:
    • APAP level below treatment line at ≥4 hours post-ingestion
    • Normal AST/ALT, INR, creatinine
    • 4-6 hour observation complete
    • Psychiatric evaluation for intentional ingestions
  • Poison control: 1-800-222-1222

See Also

References

  1. Smilkstein MJ, et al. Efficacy of oral N-acetylcysteine in the treatment of acetaminophen overdose. N Engl J Med. 1988;319(24):1557-1562. PMID 3059186
  2. Wong A, et al. Comparison of two- versus three-bag IV acetylcysteine protocols. Clin Toxicol. 2013;51(7):676-679.
  • Heard KJ. Acetylcysteine for acetaminophen poisoning. N Engl J Med. 2008;359(3):285-292. PMID 18635433
  • Rumack BH. Acetaminophen hepatotoxicity: the first 35 years. J Toxicol Clin Toxicol. 2002;40(1):3-20. PMID 11990202
  • Chun LJ, et al. Acetaminophen hepatotoxicity and acute liver failure. J Clin Gastroenterol. 2009;43(4):342-349. PMID 19169150
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