Hereditary fructose intolerance: Difference between revisions

Background

• Hereditary fructose intolerance (HFI) is an autosomal recessive disorder caused by deficiency of aldolase B, an enzyme essential for fructose metabolism in the liver, kidney, and intestine.^[1] When individuals with HFI ingest fructose, sucrose, or sorbitol, the toxic metabolite fructose-1-phosphate (F-1-P) accumulates, causing hypoglycemia, lactic acidosis, hepatic failure, and renal tubular dysfunction.^[2] HFI is entirely asymptomatic when fructose is avoided and potentially fatal when it is not.
• The emergency physician encounters HFI as an infant with vomiting, hypoglycemia, and liver failure temporally related to the introduction of weaning foods, or as a known HFI patient with accidental fructose exposure.
• Autosomal recessive; prevalence approximately 1 in 20,000-30,000 live births; carrier frequency ~1 in 70^[3]
• Caused by mutations in the ALDOB gene (chromosome 9q22.3); most common mutations are A149P, A150P, and A174D
• Symptoms only occur after ingestion of fructose, sucrose, or sorbitol — patients are completely well on a fructose-free diet
• Typically presents at 4-6 months of age when weaning foods (fruits, vegetables, sweetened cereals, juices) are introduced^[1]
• Breastfed infants are protected — breast milk contains lactose (glucose + galactose) but no fructose; symptoms begin when breast milk is supplemented or weaning starts
• Deaths occur primarily from diagnostic delay — once recognized, the treatment (dietary fructose avoidance) is simple and completely effective^[4]

Mechanism

• Fructose is phosphorylated by fructokinase → fructose-1-phosphate (F-1-P)
• Aldolase B normally cleaves F-1-P → glyceraldehyde + dihydroxyacetone phosphate (enter glycolysis/gluconeogenesis)
• In HFI: aldolase B is absent or deficient → F-1-P accumulates → multiple downstream effects:
  • Intracellular phosphate trapping: F-1-P sequesters inorganic phosphate (Pi) → depletion of ATP
  • Hypoglycemia: F-1-P inhibits both glycogenolysis (glycogen phosphorylase) AND gluconeogenesis (glucose-6-phosphate isomerase) — a dual block on glucose production^[2]
  • Glucagon resistance: hypoglycemia in HFI does NOT respond to glucagon (because glycogenolysis is blocked)^[2]
  • Lactic acidosis: F-1-P activates pyruvate kinase → increased lactate production
  • Hyperuricemia: ATP depletion → AMP degradation → increased urate production
  • Hepatocellular and renal tubular toxicity: direct cytotoxic effects of F-1-P accumulation → liver failure, Fanconi syndrome

Key dietary sources of fructose (EM-relevant)

• Fruits (all), fruit juices, honey
• Sucrose (table sugar) — sucrose = glucose + fructose; present in nearly all sweetened foods, candy, cookies, soft drinks
• Sorbitol — sugar alcohol used as sweetener in "sugar-free" products; also found in many medications (syrups, elixirs, chewable tablets) — a critical hidden source
• High-fructose corn syrup — ubiquitous in processed foods
• Many vegetables contain small amounts of fructose (especially peas, sweet corn, sweet potato)
• IV fructose or sorbitol solutions (historically used in some parenteral nutrition formulations — now rarely used but must be actively avoided)

Clinical features

Acute presentation (the ED encounter)

Infant with new diagnosis (classic presentation)

• Previously healthy breastfed infant, 4-6 months old
• Symptoms begin within minutes to hours of ingesting fructose-containing food or formula for the first time
• Vomiting (often violent/repeated)
• Profound hypoglycemia (lethargy, seizures, diaphoresis, pallor)
• Abdominal pain/distress
• Poor feeding, irritability
• With continued fructose exposure:
  • Hepatomegaly (progressive)
  • Jaundice (conjugated hyperbilirubinemia)
  • Coagulopathy (elevated INR — hepatic synthetic failure)
  • Bleeding (GI hemorrhage, oozing from puncture sites)
  • Ascites, edema
  • Renal tubular dysfunction (Fanconi syndrome: glycosuria, aminoaciduria, phosphaturia, metabolic acidosis)
  • Failure to thrive
  • Seizures, coma, death — in severe untreated cases

Known HFI patient with accidental exposure

• Acute episode after accidental ingestion of fructose-containing food or medication
• Rapid-onset vomiting, hypoglycemia, malaise
• May be mild (self-limited vomiting) or severe (hypoglycemia, acidosis, liver decompensation) depending on fructose load

Diagnostic clues

• Temporal relationship to food introduction: symptoms began when weaning started or when a new food/formula containing fructose or sucrose was introduced
• Aversion to sweets: older children and adults with undiagnosed HFI develop a strong natural aversion to sweet foods and fruits — this is a classic historical clue^[3]
• Absence of dental caries: lifelong fructose avoidance results in remarkably healthy teeth — another diagnostic pearl^[3]
• Symptoms resolve completely when fructose is removed from the diet

Differential diagnosis

Infant with vomiting, hypoglycemia, and liver failure

• Galactosemia — very similar presentation but triggered by lactose/galactose (present in breast milk and standard formula); E. coli sepsis association; cataracts; reducing substances in urine
• Tyrosinemia type 1 — liver failure + coagulopathy + very high AFP; boiled cabbage odor; Fanconi syndrome; not temporally related to specific food introduction
• Sepsis — ill-appearing; fever; positive cultures
• Neonatal hepatitis (other causes)
• Neonatal hemochromatosis (GALD) — presents at birth, not at weaning
• Glycogen storage diseases — hepatomegaly + hypoglycemia; not food-specific
• Fructose-1,6-bisphosphatase deficiency — similar presentation (hypoglycemia + acidosis + hepatomegaly) but triggered by fasting rather than fructose ingestion; important to distinguish
• Urea cycle defects, organic acidemias
• Food protein-induced enterocolitis syndrome (FPIES) — profuse vomiting after specific food; no hypoglycemia or liver disease

Key distinguishing features of HFI

• Symptoms temporally linked to fructose/sucrose introduction
• Hypoglycemia that does NOT respond to glucagon
• Hypophosphatemia (phosphate trapping by F-1-P) — relatively specific finding
• Hyperuricemia — unusual in an infant; should raise suspicion
• Resolution with fructose withdrawal

Evaluation

ED workup

• Blood glucose: expect hypoglycemia (may be severe/refractory)
• BMP: hypophosphatemia (characteristic), metabolic acidosis, elevated creatinine (if renal involvement)
• Hepatic panel: elevated AST/ALT (hepatocellular injury); elevated bilirubin (conjugated)
• Coagulation studies: elevated PT/INR (hepatic synthetic failure in severe cases)
• Uric acid: hyperuricemia (ATP depletion → AMP breakdown → urate production)^[1]
• Lactate: lactic acidosis
• Magnesium: hypermagnesemia (released from damaged cells with ATP depletion)
• CBC: thrombocytopenia (in severe hepatic failure)
• Urinalysis: glycosuria (normal blood glucose), aminoaciduria, phosphaturia (Fanconi pattern); fructosuria may be present
• Ammonia: may be elevated in severe hepatic failure
• AFP: may be elevated (liver injury; less markedly than tyrosinemia)

Characteristic laboratory constellation

Hypoglycemia + hypophosphatemia + hyperuricemia + lactic acidosis + liver dysfunction in an infant following fructose exposure = highly suspicious for HFI

Confirmatory testing (arrange via specialist)

• ALDOB gene sequencing: preferred confirmatory test; noninvasive; high sensitivity and specificity^[2]
• Liver biopsy: for aldolase B enzyme activity measurement — invasive; reserved for cases where genetic testing is inconclusive
• Fructose tolerance test: NO LONGER RECOMMENDED — dangerous; causes profound hypoglycemia and can precipitate acute liver failure^[4]
• Urine reducing substances: may be positive (fructosuria) after fructose ingestion; non-specific
• Carbohydrate-deficient transferrin (CDT): often abnormal in untreated HFI (secondary glycosylation defect)

Management

Acute emergency management

• Stop all fructose, sucrose, and sorbitol intake immediately — this is the single most important intervention
• IV dextrose (D10W): correct and prevent hypoglycemia with glucose-containing fluids only^[1]
  • Do NOT give fructose or sorbitol-containing IV solutions
  • Do NOT give sucrose-containing oral medications
• Correct metabolic acidosis: sodium bicarbonate if pH <7.1 or bicarbonate severely depressed; often improves with dextrose and fructose withdrawal
• Correct coagulopathy: vitamin K, FFP if active bleeding
• Treat hepatic failure per standard protocols (see Acute liver failure)
• Monitor and correct electrolytes: phosphate supplementation if severely hypophosphatemic; monitor potassium, magnesium
• Glucagon is NOT effective for hypoglycemia in HFI — both glycogenolysis and gluconeogenesis are blocked by F-1-P; give IV dextrose instead^[2]

Medication safety — critical for the EM physician

• Many common pediatric liquid medications contain sorbitol or sucrose as sweeteners — these are dangerous in HFI^[2]
• Before administering ANY oral medication to a known or suspected HFI patient, check the excipient/inactive ingredient list for fructose, sucrose, or sorbitol
• Safer alternatives: use tablet formulations (crushed if needed), or IV formulations
• Common offenders: acetaminophen syrups, ibuprofen suspensions, antibiotic suspensions, cough syrups, chewable tablets
• Consult pharmacy to verify medication safety

Long-term management (arrange via metabolic specialist)

• Lifelong strict dietary exclusion of fructose, sucrose, and sorbitol — this is the definitive and only treatment^[1]
• Nutritionist referral — extensive dietary education required; hidden fructose sources are ubiquitous
• Vitamin and mineral supplementation — patients on fructose-free diets may develop deficiencies in vitamin C, folate, and fiber (from restricted fruit/vegetable intake)
• Life expectancy is completely normal with dietary compliance
• No liver transplant required (unlike tyrosinemia type 1 or Crigler-Najjar syndrome)

Disposition

• Infant with suspected new diagnosis (vomiting + hypoglycemia + liver dysfunction after fructose introduction):
  • Admit
  • Stop all fructose/sucrose/sorbitol sources
  • IV dextrose, supportive care
  • Metabolic/genetics consultation
  • Arrange ALDOB gene testing
• Known HFI patient with mild accidental exposure (vomiting, mild hypoglycemia, no liver failure):
  • Treat hypoglycemia with oral glucose or IV dextrose
  • Observe until asymptomatic and blood glucose stable
  • May discharge if well, tolerating fructose-free diet, glucose stable, and family is reliable
• Known HFI patient with severe exposure (liver failure, refractory hypoglycemia, acidosis):
  • Admit (PICU if critically ill)
  • Aggressive IV dextrose, correct acidosis and coagulopathy
  • Metabolic team consultation
• Ensure all families receive:
  • Written dietary guidance (fructose, sucrose, sorbitol avoidance)
  • Medical alert identification for the child
  • Guidance on medication safety (sorbitol in syrups)
  • Metabolic specialist follow-up

See Also

• Galactosemia
• Tyrosinemia
• Fanconi syndrome
• Neonatal hepatitis
• Acute liver failure
• Hypoglycemia
• Neonatal hemochromatosis

External Links

• StatPearls — Hereditary Fructose Intolerance
• StatPearls — Fructose-1-Phosphate Aldolase Deficiency
• World J Clin Pediatr — Hereditary fructose intolerance: A comprehensive review (2022)
• Diseases — Clinical Practice Guidelines for HFI (2024)
• Orphanet — Hereditary fructose intolerance

References