Tyrosinemia: Difference between revisions

(Created page with "Tyrosinemia refers to a group of inherited disorders of tyrosine metabolism. '''Tyrosinemia type 1 (HT1)''' is the most severe and EM-relevant form, caused by deficiency of fumarylacetoacetate hydrolase (FAH), leading to accumulation of toxic metabolites that cause '''acute liver failure''', '''Fanconi syndrome''', '''porphyria-like neurologic crises''', and '''hepatocellular carcinoma'''.<ref name="GeneReviews">Tyrosinemia Type I. ''GeneRevie...")
 
(Moved intro paragraph into Background as bullets; removed excessive bold from bullet lead-ins; bold retained for critical items only)
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Tyrosinemia refers to a group of inherited disorders of tyrosine metabolism. '''Tyrosinemia type 1 (HT1)''' is the most severe and EM-relevant form, caused by deficiency of fumarylacetoacetate hydrolase (FAH), leading to accumulation of toxic metabolites that cause '''[[Acute liver failure|acute liver failure]]''', '''[[Fanconi syndrome]]''', '''porphyria-like neurologic crises''', and '''hepatocellular carcinoma'''.<ref name="GeneReviews">Tyrosinemia Type I. ''GeneReviews''. NCBI. 2025.</ref> Emergency physicians may encounter HT1 patients presenting with '''fulminant hepatic failure in infancy''', '''unexplained coagulopathy''', '''neurologic crises mimicking [[Acute intermittent porphyria|porphyria]] or [[Guillain-Barré syndrome]]''', or '''metabolic decompensation from missed nitisinone doses'''.<ref name="Medscape">Tyrosinemia. ''Medscape''. 2025.</ref>
==Background==
==Background==
*Tyrosinemia refers to a group of inherited disorders of tyrosine metabolism.
*Tyrosinemia type 1 (HT1) is the most severe and EM-relevant form, caused by deficiency of fumarylacetoacetate hydrolase (FAH), leading to accumulation of toxic metabolites that cause [[Acute liver failure|acute liver failure]], [[Fanconi syndrome]], porphyria-like neurologic crises, and hepatocellular carcinoma.<ref name="GeneReviews">Tyrosinemia Type I. ''GeneReviews''. NCBI. 2025.</ref> Emergency physicians may encounter HT1 patients presenting with fulminant hepatic failure in infancy, unexplained coagulopathy, neurologic crises mimicking [[Acute intermittent porphyria|porphyria]] or [[Guillain-Barré syndrome]], or metabolic decompensation from missed nitisinone doses.<ref name="Medscape">Tyrosinemia. ''Medscape''. 2025.</ref>
*Autosomal recessive; incidence ~1 in 100,000 births worldwide; much higher in Saguenay-Lac-Saint-Jean region of Quebec (1 in 1,850)<ref name="GeneReviews"/>
*Autosomal recessive; incidence ~1 in 100,000 births worldwide; much higher in Saguenay-Lac-Saint-Jean region of Quebec (1 in 1,850)<ref name="GeneReviews"/>
*Three types exist; '''type 1 is the focus of this page''' as it is by far the most EM-relevant:
*Three types exist; '''type 1 is the focus of this page''' as it is by far the most EM-relevant:
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*SA '''inhibits porphobilinogen synthase''' (δ-aminolevulinic acid dehydratase) → accumulation of '''δ-aminolevulinic acid (δ-ALA)''' → '''porphyria-like neurologic crises''' (identical mechanism to [[Lead poisoning|lead poisoning]] and [[Acute intermittent porphyria|acute intermittent porphyria]])<ref name="Medscape"/>
*SA '''inhibits porphobilinogen synthase''' (δ-aminolevulinic acid dehydratase) → accumulation of '''δ-aminolevulinic acid (δ-ALA)''' → '''porphyria-like neurologic crises''' (identical mechanism to [[Lead poisoning|lead poisoning]] and [[Acute intermittent porphyria|acute intermittent porphyria]])<ref name="Medscape"/>
*FAA/MAA cause direct hepatocellular damage → cirrhosis, liver failure, hepatocellular carcinoma
*FAA/MAA cause direct hepatocellular damage → cirrhosis, liver failure, hepatocellular carcinoma
*'''Nitisinone (NTBC)''' blocks the pathway upstream of FAH, preventing formation of all toxic metabolites — this transforms HT1 from a fatal disease into a manageable chronic condition<ref name="deLatVL2013">de Laet C, et al. Recommendations for the management of tyrosinaemia type 1. ''Orphanet J Rare Dis''. 2013;8:8. doi:10.1186/1750-1172-8-8</ref>
* Nitisinone (NTBC) blocks the pathway upstream of FAH, preventing formation of all toxic metabolites — this transforms HT1 from a fatal disease into a manageable chronic condition<ref name="deLatVL2013">de Laet C, et al. Recommendations for the management of tyrosinaemia type 1. ''Orphanet J Rare Dis''. 2013;8:8. doi:10.1186/1750-1172-8-8</ref>


==Clinical features==
==Clinical features==
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*Often the '''first presentation''' of undiagnosed HT1
*Often the '''first presentation''' of undiagnosed HT1
*Jaundice, hepatomegaly
*Jaundice, hepatomegaly
*'''Severe coagulopathy''' (disproportionate to degree of jaundice — INR may be markedly elevated with only mild transaminase elevation; this pattern is characteristic)<ref name="GeneReviews"/>
* Severe coagulopathy (disproportionate to degree of jaundice — INR may be markedly elevated with only mild transaminase elevation; this pattern is characteristic)<ref name="GeneReviews"/>
*Ascites
*Ascites
*Hypoglycemia
*Hypoglycemia
*Bleeding (GI hemorrhage, oozing from venipuncture sites)
*Bleeding (GI hemorrhage, oozing from venipuncture sites)
*Sepsis (increased susceptibility)
*Sepsis (increased susceptibility)
*'''Boiled cabbage odor''' to urine/sweat (from methionine accumulation; classic but not always present)<ref name="Medscape"/>
* Boiled cabbage odor to urine/sweat (from methionine accumulation; classic but not always present)<ref name="Medscape"/>
*Failure to thrive, vomiting, diarrhea, fever
*Failure to thrive, vomiting, diarrhea, fever
*May progress rapidly to multiorgan failure and death
*May progress rapidly to multiorgan failure and death
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*Occurs in '''untreated''' patients or patients who '''stop or miss nitisinone doses'''<ref name="NTBC_Crisis">Tyrosinemia Type I and Reversible Neurogenic Crisis After a One-Month Interruption of Nitisinone. ''J Pediatr Res''. 2018.</ref>
*Occurs in '''untreated''' patients or patients who '''stop or miss nitisinone doses'''<ref name="NTBC_Crisis">Tyrosinemia Type I and Reversible Neurogenic Crisis After a One-Month Interruption of Nitisinone. ''J Pediatr Res''. 2018.</ref>
*Episodic, lasting '''1-7 days'''; often triggered by intercurrent infection
*Episodic, lasting '''1-7 days'''; often triggered by intercurrent infection
*'''Severe abdominal pain''' (may mimic acute abdomen/surgical emergency)
* Severe abdominal pain (may mimic acute abdomen/surgical emergency)
*Painful paresthesias, peripheral neuropathy (ascending; may mimic [[Guillain-Barré syndrome]])
*Painful paresthesias, peripheral neuropathy (ascending; may mimic [[Guillain-Barré syndrome]])
*Progressive '''muscle weakness''' including respiratory muscles → '''respiratory failure requiring mechanical ventilation'''<ref name="GeneReviews"/>
*Progressive '''muscle weakness''' including respiratory muscles → '''respiratory failure requiring mechanical ventilation'''<ref name="GeneReviews"/>
*Self-injurious behavior (in response to extreme pain)
*Self-injurious behavior (in response to extreme pain)
*Seizures
*Seizures
*'''Hypertension''' (often marked)
* Hypertension (often marked)
*'''Hyponatremia''' (SIADH-like)
* Hyponatremia (SIADH-like)
*Altered mental status, irritability, agitation
*Altered mental status, irritability, agitation
*'''Can be fatal''' from respiratory arrest if unrecognized
*'''Can be fatal''' from respiratory arrest if unrecognized
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====Chronic/subacute presentation (>6 months)====
====Chronic/subacute presentation (>6 months)====
*Hepatosplenomegaly, failure to thrive
*Hepatosplenomegaly, failure to thrive
*'''[[Fanconi syndrome]]:''' polyuria, polydipsia, metabolic acidosis, hypophosphatemia, hypokalemia, glycosuria, aminoaciduria
* [[Fanconi syndrome]]: polyuria, polydipsia, metabolic acidosis, hypophosphatemia, hypokalemia, glycosuria, aminoaciduria
*'''Rickets''' (from phosphate wasting + impaired vitamin D activation)
* Rickets (from phosphate wasting + impaired vitamin D activation)
*Progressive chronic kidney disease
*Progressive chronic kidney disease
*'''Hypertrophic cardiomyopathy''' (reported in up to 30%)<ref name="Medscape"/>
* Hypertrophic cardiomyopathy (reported in up to 30%)<ref name="Medscape"/>


====Known HT1 patient with metabolic decompensation====
====Known HT1 patient with metabolic decompensation====
*'''Missed nitisinone doses''' → rapid reaccumulation of toxic metabolites → acute liver dysfunction, neurologic crisis, or both<ref name="NTBC_Crisis"/>
* Missed nitisinone doses → rapid reaccumulation of toxic metabolites → acute liver dysfunction, neurologic crisis, or both<ref name="NTBC_Crisis"/>
*Intercurrent illness → catabolic state → increased tyrosine turnover → metabolic decompensation
*Intercurrent illness → catabolic state → increased tyrosine turnover → metabolic decompensation
*Noncompliance (especially in adolescents)
*Noncompliance (especially in adolescents)
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==Evaluation==
==Evaluation==
===EM workup===
===EM workup===
*'''Hepatic function panel:''' AST/ALT may be only mildly elevated despite severe synthetic dysfunction (a characteristic discrepancy); bilirubin elevated
* Hepatic function panel: AST/ALT may be only mildly elevated despite severe synthetic dysfunction (a characteristic discrepancy); bilirubin elevated
*'''Coagulation studies:''' '''INR/PT markedly elevated''' — often the most striking lab abnormality; disproportionate to transaminases<ref name="GeneReviews"/>
* Coagulation studies: '''INR/PT markedly elevated''' — often the most striking lab abnormality; disproportionate to transaminases<ref name="GeneReviews"/>
*'''Blood glucose:''' hypoglycemia (hepatic failure)
* Blood glucose: hypoglycemia (hepatic failure)
*'''BMP:''' hypokalemia, hypophosphatemia, low bicarbonate (Fanconi/RTA), hyponatremia (in neurologic crises)
* BMP: hypokalemia, hypophosphatemia, low bicarbonate (Fanconi/RTA), hyponatremia (in neurologic crises)
*'''CBC:''' anemia, thrombocytopenia (from liver failure/hypersplenism)
* CBC: anemia, thrombocytopenia (from liver failure/hypersplenism)
*'''AFP (alpha-fetoprotein):''' '''markedly elevated''' (often >100,000 ng/mL) — this is a key diagnostic clue; AFP in HT1 is among the highest of any condition<ref name="GeneReviews"/>
* AFP (alpha-fetoprotein): '''markedly elevated''' (often >100,000 ng/mL) — this is a key diagnostic clue; AFP in HT1 is among the highest of any condition<ref name="GeneReviews"/>
*'''Ammonia:''' elevated in severe hepatic failure
* Ammonia: elevated in severe hepatic failure
*'''Lactate:''' elevated if tissue hypoperfusion or metabolic crisis
* Lactate: elevated if tissue hypoperfusion or metabolic crisis
*'''ABG/VBG:''' metabolic acidosis (from Fanconi syndrome and/or hepatic failure)
* ABG/VBG: metabolic acidosis (from Fanconi syndrome and/or hepatic failure)
*'''Urinalysis:''' glycosuria (normal glucose), aminoaciduria, phosphaturia (Fanconi pattern)
* Urinalysis: glycosuria (normal glucose), aminoaciduria, phosphaturia (Fanconi pattern)
*'''ECG/echocardiography:''' if cardiomyopathy suspected
* ECG/echocardiography: if cardiomyopathy suspected


===Diagnostic confirmation (arrange via specialist; not ED tests)===
===Diagnostic confirmation (arrange via specialist; not ED tests)===
*'''Urine/blood succinylacetone:''' '''pathognomonic''' for HT1; the definitive screening marker<ref name="GeneReviews"/>
* Urine/blood succinylacetone: '''pathognomonic''' for HT1; the definitive screening marker<ref name="GeneReviews"/>
*Elevated plasma tyrosine, methionine, phenylalanine
*Elevated plasma tyrosine, methionine, phenylalanine
*Elevated urinary δ-aminolevulinic acid (during neurologic crises)
*Elevated urinary δ-aminolevulinic acid (during neurologic crises)
*'''FAH gene mutation analysis''' (confirmatory)
* FAH gene mutation analysis (confirmatory)


===When to suspect HT1 in the ED===
===When to suspect HT1 in the ED===
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*Infant/child with '''Fanconi syndrome + liver disease''' (most causes of Fanconi syndrome spare the liver; HT1 affects both)
*Infant/child with '''Fanconi syndrome + liver disease''' (most causes of Fanconi syndrome spare the liver; HT1 affects both)
*Child with '''porphyria-like crisis''' (abdominal pain + neuropathy + hypertension + hyponatremia) — porphyria is extremely rare in children; consider HT1
*Child with '''porphyria-like crisis''' (abdominal pain + neuropathy + hypertension + hyponatremia) — porphyria is extremely rare in children; consider HT1
*'''Boiled cabbage''' odor
* Boiled cabbage odor
*Known HT1 patient who has missed nitisinone doses and presents with acute symptoms
*Known HT1 patient who has missed nitisinone doses and presents with acute symptoms


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**May show clinical improvement within hours to days
**May show clinical improvement within hours to days
**If liver fails to respond to nitisinone within 1 week → '''liver transplant referral'''<ref name="Orphanet">Tyrosinemia type 1. ''Orphanet''. 2024.</ref>
**If liver fails to respond to nitisinone within 1 week → '''liver transplant referral'''<ref name="Orphanet">Tyrosinemia type 1. ''Orphanet''. 2024.</ref>
*'''Early contact with metabolic/hepatology center''' — these patients may need emergent liver transplant
* Early contact with metabolic/hepatology center — these patients may need emergent liver transplant


===Neurologic crisis===
===Neurologic crisis===
*'''Restart or increase nitisinone immediately''' if doses were missed — this is the definitive treatment<ref name="NTBC_Crisis"/>
*'''Restart or increase nitisinone immediately''' if doses were missed — this is the definitive treatment<ref name="NTBC_Crisis"/>
*'''Monitor respiratory function closely''' — progressive neuropathy can cause respiratory failure requiring '''intubation and mechanical ventilation'''<ref name="GeneReviews"/>
* Monitor respiratory function closely — progressive neuropathy can cause respiratory failure requiring '''intubation and mechanical ventilation'''<ref name="GeneReviews"/>
*'''Pain management:''' opioids may be required for severe pain; avoid hepatotoxic agents
* Pain management: opioids may be required for severe pain; avoid hepatotoxic agents
*'''Seizure management:''' [[Benzodiazepines|benzodiazepines]] first-line
* Seizure management: [[Benzodiazepines|benzodiazepines]] first-line
*'''Hypertension management:''' may require antihypertensives
* Hypertension management: may require antihypertensives
*'''Correct hyponatremia''' carefully (risk of osmotic demyelination with rapid correction)
* Correct hyponatremia carefully (risk of osmotic demyelination with rapid correction)
*'''Glucose infusion''' (10% dextrose) — high-calorie IV fluids reduce protein catabolism and tyrosine turnover
* Glucose infusion (10% dextrose) — high-calorie IV fluids reduce protein catabolism and tyrosine turnover
*'''Do NOT give hemin''' (used in acute porphyria) — not indicated and not effective in HT1 neurologic crises; the mechanism involves δ-ALA accumulation from SA, not a deficiency in heme synthesis pathway
*'''Do NOT give hemin''' (used in acute porphyria) — not indicated and not effective in HT1 neurologic crises; the mechanism involves δ-ALA accumulation from SA, not a deficiency in heme synthesis pathway


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*'''Do NOT discontinue nitisinone''' — interruption can precipitate life-threatening liver failure or neurologic crisis within days to weeks<ref name="NTBC_Crisis"/>
*'''Do NOT discontinue nitisinone''' — interruption can precipitate life-threatening liver failure or neurologic crisis within days to weeks<ref name="NTBC_Crisis"/>
*If the patient cannot take oral nitisinone (vomiting, intubation), contact the metabolic team immediately for guidance
*If the patient cannot take oral nitisinone (vomiting, intubation), contact the metabolic team immediately for guidance
*'''Avoid hepatotoxic medications''' (acetaminophen, hepatically metabolized drugs) in patients with liver disease
* Avoid hepatotoxic medications (acetaminophen, hepatically metabolized drugs) in patients with liver disease
*Maintain '''low-tyrosine/low-phenylalanine diet''' — if the patient is NPO, provide IV dextrose to reduce catabolism; consult metabolic dietitian
*Maintain '''low-tyrosine/low-phenylalanine diet''' — if the patient is NPO, provide IV dextrose to reduce catabolism; consult metabolic dietitian


==Disposition==
==Disposition==
*'''Acute liver failure:''' ICU admission; early contact with liver transplant center and metabolic specialist
* Acute liver failure: ICU admission; early contact with liver transplant center and metabolic specialist
*'''Neurologic crisis:''' ICU admission (risk of respiratory failure); continuous monitoring; restart nitisinone
* Neurologic crisis: ICU admission (risk of respiratory failure); continuous monitoring; restart nitisinone
*'''New diagnosis suspected (infant with liver failure + high AFP + coagulopathy):''' admit; start nitisinone while awaiting confirmatory tests; metabolic/genetics and hepatology consultation
* New diagnosis suspected (infant with liver failure + high AFP + coagulopathy): admit; start nitisinone while awaiting confirmatory tests; metabolic/genetics and hepatology consultation
*'''Known HT1 patient with intercurrent illness:''' low threshold for admission; monitor liver function, electrolytes, glucose; ensure nitisinone is continued; IV dextrose to reduce catabolism
* Known HT1 patient with intercurrent illness: low threshold for admission; monitor liver function, electrolytes, glucose; ensure nitisinone is continued; IV dextrose to reduce catabolism
*'''Stable known HT1 patient with mild illness:''' may consider discharge with close metabolic team follow-up if PO tolerant, nitisinone continued, and caregiver reliable
* Stable known HT1 patient with mild illness: may consider discharge with close metabolic team follow-up if PO tolerant, nitisinone continued, and caregiver reliable
*Notify the patient's '''metabolic specialist''' of all ED visits
*Notify the patient's '''metabolic specialist''' of all ED visits


Revision as of 14:19, 19 March 2026

Background

  • Tyrosinemia refers to a group of inherited disorders of tyrosine metabolism.
  • Tyrosinemia type 1 (HT1) is the most severe and EM-relevant form, caused by deficiency of fumarylacetoacetate hydrolase (FAH), leading to accumulation of toxic metabolites that cause acute liver failure, Fanconi syndrome, porphyria-like neurologic crises, and hepatocellular carcinoma.[1] Emergency physicians may encounter HT1 patients presenting with fulminant hepatic failure in infancy, unexplained coagulopathy, neurologic crises mimicking porphyria or Guillain-Barré syndrome, or metabolic decompensation from missed nitisinone doses.[2]
  • Autosomal recessive; incidence ~1 in 100,000 births worldwide; much higher in Saguenay-Lac-Saint-Jean region of Quebec (1 in 1,850)[1]
  • Three types exist; type 1 is the focus of this page as it is by far the most EM-relevant:
Type Enzyme deficiency Key features
Type 1 (hepatorenal) Fumarylacetoacetate hydrolase (FAH) Liver failure, Fanconi syndrome, neurologic crises, HCC risk; life-threatening
Type 2 (oculocutaneous) Tyrosine aminotransferase Painful palmoplantar keratosis, herpetiform corneal ulcers; no liver disease
Type 3 4-hydroxyphenylpyruvate dioxygenase Mild; intellectual disability; extremely rare

Mechanism of toxicity (Type 1)

  • FAH deficiency → accumulation of fumarylacetoacetate (FAA), maleylacetoacetate (MAA), and succinylacetone (SA) — all are directly cytotoxic[1]
  • SA is a mitochondrial toxin → proximal tubule dysfunction → Fanconi syndrome
  • SA inhibits porphobilinogen synthase (δ-aminolevulinic acid dehydratase) → accumulation of δ-aminolevulinic acid (δ-ALA)porphyria-like neurologic crises (identical mechanism to lead poisoning and acute intermittent porphyria)[2]
  • FAA/MAA cause direct hepatocellular damage → cirrhosis, liver failure, hepatocellular carcinoma
  • Nitisinone (NTBC) blocks the pathway upstream of FAH, preventing formation of all toxic metabolites — this transforms HT1 from a fatal disease into a manageable chronic condition[3]

Clinical features

Presentations the EM physician will encounter

Acute liver failure (infants <6 months) — the classic presentation

  • Often the first presentation of undiagnosed HT1
  • Jaundice, hepatomegaly
  • Severe coagulopathy (disproportionate to degree of jaundice — INR may be markedly elevated with only mild transaminase elevation; this pattern is characteristic)[1]
  • Ascites
  • Hypoglycemia
  • Bleeding (GI hemorrhage, oozing from venipuncture sites)
  • Sepsis (increased susceptibility)
  • Boiled cabbage odor to urine/sweat (from methionine accumulation; classic but not always present)[2]
  • Failure to thrive, vomiting, diarrhea, fever
  • May progress rapidly to multiorgan failure and death

Porphyria-like neurologic crisis — the most dangerous acute emergency

  • Occurs in untreated patients or patients who stop or miss nitisinone doses[4]
  • Episodic, lasting 1-7 days; often triggered by intercurrent infection
  • Severe abdominal pain (may mimic acute abdomen/surgical emergency)
  • Painful paresthesias, peripheral neuropathy (ascending; may mimic Guillain-Barré syndrome)
  • Progressive muscle weakness including respiratory muscles → respiratory failure requiring mechanical ventilation[1]
  • Self-injurious behavior (in response to extreme pain)
  • Seizures
  • Hypertension (often marked)
  • Hyponatremia (SIADH-like)
  • Altered mental status, irritability, agitation
  • Can be fatal from respiratory arrest if unrecognized
  • Mechanism identical to acute porphyria: elevated δ-ALA from SA inhibition of porphobilinogen synthase

Chronic/subacute presentation (>6 months)

  • Hepatosplenomegaly, failure to thrive
  • Fanconi syndrome: polyuria, polydipsia, metabolic acidosis, hypophosphatemia, hypokalemia, glycosuria, aminoaciduria
  • Rickets (from phosphate wasting + impaired vitamin D activation)
  • Progressive chronic kidney disease
  • Hypertrophic cardiomyopathy (reported in up to 30%)[2]

Known HT1 patient with metabolic decompensation

  • Missed nitisinone doses → rapid reaccumulation of toxic metabolites → acute liver dysfunction, neurologic crisis, or both[4]
  • Intercurrent illness → catabolic state → increased tyrosine turnover → metabolic decompensation
  • Noncompliance (especially in adolescents)

Differential diagnosis

Infant with acute liver failure and coagulopathy

Porphyria-like neurologic crisis

Fanconi syndrome (other causes)

Evaluation

EM workup

  • Hepatic function panel: AST/ALT may be only mildly elevated despite severe synthetic dysfunction (a characteristic discrepancy); bilirubin elevated
  • Coagulation studies: INR/PT markedly elevated — often the most striking lab abnormality; disproportionate to transaminases[1]
  • Blood glucose: hypoglycemia (hepatic failure)
  • BMP: hypokalemia, hypophosphatemia, low bicarbonate (Fanconi/RTA), hyponatremia (in neurologic crises)
  • CBC: anemia, thrombocytopenia (from liver failure/hypersplenism)
  • AFP (alpha-fetoprotein): markedly elevated (often >100,000 ng/mL) — this is a key diagnostic clue; AFP in HT1 is among the highest of any condition[1]
  • Ammonia: elevated in severe hepatic failure
  • Lactate: elevated if tissue hypoperfusion or metabolic crisis
  • ABG/VBG: metabolic acidosis (from Fanconi syndrome and/or hepatic failure)
  • Urinalysis: glycosuria (normal glucose), aminoaciduria, phosphaturia (Fanconi pattern)
  • ECG/echocardiography: if cardiomyopathy suspected

Diagnostic confirmation (arrange via specialist; not ED tests)

  • Urine/blood succinylacetone: pathognomonic for HT1; the definitive screening marker[1]
  • Elevated plasma tyrosine, methionine, phenylalanine
  • Elevated urinary δ-aminolevulinic acid (during neurologic crises)
  • FAH gene mutation analysis (confirmatory)

When to suspect HT1 in the ED

  • Infant with liver failure + coagulopathy out of proportion to transaminases + very high AFP
  • Infant/child with Fanconi syndrome + liver disease (most causes of Fanconi syndrome spare the liver; HT1 affects both)
  • Child with porphyria-like crisis (abdominal pain + neuropathy + hypertension + hyponatremia) — porphyria is extremely rare in children; consider HT1
  • Boiled cabbage odor
  • Known HT1 patient who has missed nitisinone doses and presents with acute symptoms

Management

Acute liver failure

  • Manage per standard Acute liver failure protocols:
    • IV fluids, correct hypoglycemia (D10W infusion)
    • FFP, cryoprecipitate, vitamin K for coagulopathy/active bleeding
    • Treat/prevent Hepatic encephalopathy (lactulose, rifaximin)
    • Broad-spectrum antibiotics if sepsis suspected
    • Monitor ammonia, electrolytes, glucose frequently
  • Start nitisinone (NTBC) immediately if HT1 is suspected or confirmed — do not wait for confirmatory testing[3]
    • Dose: 1-2 mg/kg/day orally (can be given via NG tube)
    • May show clinical improvement within hours to days
    • If liver fails to respond to nitisinone within 1 week → liver transplant referral[5]
  • Early contact with metabolic/hepatology center — these patients may need emergent liver transplant

Neurologic crisis

  • Restart or increase nitisinone immediately if doses were missed — this is the definitive treatment[4]
  • Monitor respiratory function closely — progressive neuropathy can cause respiratory failure requiring intubation and mechanical ventilation[1]
  • Pain management: opioids may be required for severe pain; avoid hepatotoxic agents
  • Seizure management: benzodiazepines first-line
  • Hypertension management: may require antihypertensives
  • Correct hyponatremia carefully (risk of osmotic demyelination with rapid correction)
  • Glucose infusion (10% dextrose) — high-calorie IV fluids reduce protein catabolism and tyrosine turnover
  • Do NOT give hemin (used in acute porphyria) — not indicated and not effective in HT1 neurologic crises; the mechanism involves δ-ALA accumulation from SA, not a deficiency in heme synthesis pathway

Fanconi syndrome management

  • Potassium, phosphate, bicarbonate supplementation (see Fanconi syndrome)
  • IV fluids for dehydration
  • Vitamin D (calcitriol)

Medication safety

  • Do NOT discontinue nitisinone — interruption can precipitate life-threatening liver failure or neurologic crisis within days to weeks[4]
  • If the patient cannot take oral nitisinone (vomiting, intubation), contact the metabolic team immediately for guidance
  • Avoid hepatotoxic medications (acetaminophen, hepatically metabolized drugs) in patients with liver disease
  • Maintain low-tyrosine/low-phenylalanine diet — if the patient is NPO, provide IV dextrose to reduce catabolism; consult metabolic dietitian

Disposition

  • Acute liver failure: ICU admission; early contact with liver transplant center and metabolic specialist
  • Neurologic crisis: ICU admission (risk of respiratory failure); continuous monitoring; restart nitisinone
  • New diagnosis suspected (infant with liver failure + high AFP + coagulopathy): admit; start nitisinone while awaiting confirmatory tests; metabolic/genetics and hepatology consultation
  • Known HT1 patient with intercurrent illness: low threshold for admission; monitor liver function, electrolytes, glucose; ensure nitisinone is continued; IV dextrose to reduce catabolism
  • Stable known HT1 patient with mild illness: may consider discharge with close metabolic team follow-up if PO tolerant, nitisinone continued, and caregiver reliable
  • Notify the patient's metabolic specialist of all ED visits

See Also

External Links

References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 Tyrosinemia Type I. GeneReviews. NCBI. 2025.
  2. 2.0 2.1 2.2 2.3 Tyrosinemia. Medscape. 2025.
  3. 3.0 3.1 de Laet C, et al. Recommendations for the management of tyrosinaemia type 1. Orphanet J Rare Dis. 2013;8:8. doi:10.1186/1750-1172-8-8
  4. 4.0 4.1 4.2 4.3 Tyrosinemia Type I and Reversible Neurogenic Crisis After a One-Month Interruption of Nitisinone. J Pediatr Res. 2018.
  5. Tyrosinemia type 1. Orphanet. 2024.
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