Galactosemia: Difference between revisions
Ostermayer (talk | contribs) (Created page with "Galactosemia is an autosomal recessive disorder of galactose metabolism, most commonly caused by '''deficiency of galactose-1-phosphate uridylyltransferase (GALT)''', resulting in toxic accumulation of '''galactose-1-phosphate''' and '''galactitol''' in the liver, brain, kidneys, and lens.<ref name="GeneReviews">Classic Galactosemia and Clinical Variant Galactosemia. ''GeneReviews''. NCBI. 2021.</ref> Classic galactosemia is a '''neonatal emergency''' — affected infant...") |
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==Background== | ==Background== | ||
*Autosomal recessive; incidence approximately | *Galactosemia is an autosomal recessive disorder of galactose metabolism, most commonly caused by deficiency of galactose-1-phosphate uridylyltransferase (GALT), resulting in toxic accumulation of galactose-1-phosphate and galactitol in the liver, brain, kidneys, and lens.<ref name="GeneReviews">Classic Galactosemia and Clinical Variant Galactosemia. ''GeneReviews''. NCBI. 2021.</ref> Classic galactosemia is a neonatal emergency — affected infants become critically ill within the first week of life after ingesting breast milk or lactose-containing formula, presenting with '''liver failure, ''E. coli'' sepsis, coagulopathy, and cataracts'''.<ref name="SciDirect">Galactosemia. ''ScienceDirect Topics''. 2024.</ref> The disease is rapidly reversible with lactose elimination from the diet but fatal if unrecognized. | ||
*Three enzyme deficiencies cause galactosemia; | *The emergency physician must consider galactosemia in '''any neonate with ''E. coli'' sepsis, any infant with liver failure and feeding difficulties, and any infant with cataracts'''. | ||
*Autosomal recessive; incidence approximately 1 in 16,000-60,000 live births depending on population<ref name="GeneReviews"/> | |||
*Three enzyme deficiencies cause galactosemia; GALT deficiency (classic galactosemia) is the most severe and EM-relevant: | |||
{| class="wikitable" | {| class="wikitable" | ||
| Line 17: | Line 17: | ||
===Mechanism=== | ===Mechanism=== | ||
*Lactose (in breast milk and cow's milk formula) is digested to | *Lactose (in breast milk and cow's milk formula) is digested to glucose + galactose in the intestine | ||
*Galactose is normally metabolized by the Leloir pathway: galactose → (GALK) → galactose-1-phosphate → (GALT) → UDP-galactose → UDP-glucose | *Galactose is normally metabolized by the Leloir pathway: galactose → (GALK) → galactose-1-phosphate → (GALT) → UDP-galactose → UDP-glucose | ||
*In GALT deficiency: | *In GALT deficiency: galactose-1-phosphate (Gal-1-P) accumulates → direct toxicity to hepatocytes, renal tubular cells, and neurons | ||
*Galactose is shunted to alternative pathways → | *Galactose is shunted to alternative pathways → galactitol (a sugar alcohol) accumulates in the lens → osmotic swelling of lens fibers → cataracts<ref name="GeneReviews"/> | ||
* | * ATP depletion occurs in hepatocytes from phosphate trapping (analogous to [[Hereditary fructose intolerance]]) | ||
* | * Impaired neutrophil function from galactose metabolite accumulation → predisposition to gram-negative sepsis, especially ''E. coli''<ref name="SciDirect"/> | ||
===The ''E. coli'' sepsis connection=== | ===The ''E. coli'' sepsis connection=== | ||
*Approximately | *Approximately 10% of neonates with classic galactosemia develop ''E. coli'' sepsis; ''E. coli'' accounts for ~76% of sepsis episodes in galactosemia<ref name="PICU">An Approach to Galactosemia. ''PICU Doc On Call''. 2024.</ref> | ||
*The sepsis may | *The sepsis may precede or occur simultaneously with the diagnosis of galactosemia | ||
* | *Any term neonate with ''E. coli'' sepsis should be evaluated for galactosemia — this is one of the most important EM teaching points | ||
==Clinical features== | ==Clinical features== | ||
===Classic presentation (first week of life)=== | ===Classic presentation (first week of life)=== | ||
* | * Previously well newborn begins breast milk or cow's milk formula feedings | ||
*Symptoms appear within | *Symptoms appear within days of starting milk feedings | ||
* | * Feeding difficulties: poor sucking, vomiting, diarrhea | ||
* | * Lethargy, hypotonia, irritability | ||
* | * Jaundice (may be conjugated or unconjugated; often both) | ||
* | * Hepatomegaly (may progress rapidly) | ||
* | * Coagulopathy (elevated PT/INR — hepatic synthetic failure; excessive bleeding from venipuncture sites is a characteristic early sign)<ref name="WV">Newborn Metabolic Screening — Galactosemia. ''WV DHHR''. 2024.</ref> | ||
* | * Ascites (may appear within first few days of life) | ||
* | * Hypoglycemia | ||
* | * Cataracts (bilateral "oil drop" cataracts; may not be visible to the naked eye — slit-lamp examination required; may develop as early as 1-2 weeks of age)<ref name="SciDirect"/> | ||
* | * Renal tubular dysfunction ([[Fanconi syndrome]]: glycosuria, aminoaciduria, phosphaturia) | ||
* | * Sepsis — especially ''E. coli''; may be the presenting feature before liver failure is apparent | ||
* | * Seizures, cerebral edema (in severe/untreated cases) | ||
* | * Death — if unrecognized; typically from sepsis, liver failure, or bleeding | ||
===Diagnostic clues=== | ===Diagnostic clues=== | ||
*Symptoms temporally related to | *Symptoms temporally related to milk feedings (breast milk or standard formula — both contain lactose) | ||
* | * Contrast with [[Hereditary fructose intolerance]]: galactosemia presents in the first days of life (because all neonates receive milk); HFI presents at 4-6 months (when weaning foods introduce fructose) | ||
*''E. coli'' sepsis in a | *''E. coli'' sepsis in a term neonate (term neonates with sepsis are less common than in preterms; ''E. coli'' is the most common pathogen in galactosemia-associated sepsis) | ||
* | * Reducing substances positive in urine (galactose is a reducing sugar) — classic bedside clue, though nonspecific and with false negatives | ||
===Long-term complications (even with early treatment)=== | ===Long-term complications (even with early treatment)=== | ||
| Line 56: | Line 56: | ||
*Speech and language deficits (childhood apraxia of speech) | *Speech and language deficits (childhood apraxia of speech) | ||
*Extrapyramidal movement disorders (tremor, ataxia, dystonia) | *Extrapyramidal movement disorders (tremor, ataxia, dystonia) | ||
* | * Premature ovarian insufficiency in females (occurs despite dietary treatment) | ||
*Osteoporosis | *Osteoporosis | ||
*These complications are thought to result from | *These complications are thought to result from endogenous galactose production and possibly prenatal toxicity — they cannot be fully prevented by postnatal dietary restriction<ref name="GeneReviews"/> | ||
==Differential diagnosis== | ==Differential diagnosis== | ||
===Neonate with liver failure, sepsis, and jaundice=== | ===Neonate with liver failure, sepsis, and jaundice=== | ||
* | * Galactosemia (milk-related; ''E. coli'' sepsis; cataracts; reducing substances in urine) | ||
* | * [[Hereditary fructose intolerance]] (fructose-related; later onset at 4-6 months; no cataracts) | ||
* | * [[Tyrosinemia|Tyrosinemia type 1]] (very high AFP + coagulopathy out of proportion to transaminases; Fanconi syndrome; not food-specific) | ||
* | * [[Neonatal HSV]] (disseminated; vesicular rash; markedly elevated ALT) | ||
* | * Bacterial [[Sepsis|sepsis]] (other organisms; no cataracts; normal reducing substances) | ||
* | * [[Neonatal hemochromatosis]] (GALD; iron overload; presents at birth, before feeding) | ||
* | * [[Neonatal hepatitis]] (other causes) | ||
* | * [[Biliary atresia]] (conjugated hyperbilirubinemia; acholic stools; no acute liver failure early) | ||
* | * Hemophagocytic lymphohistiocytosis (HLH) | ||
===The galactosemia-HFI comparison (high-yield EM distinction)=== | ===The galactosemia-HFI comparison (high-yield EM distinction)=== | ||
| Line 96: | Line 96: | ||
==Evaluation== | ==Evaluation== | ||
===ED workup=== | ===ED workup=== | ||
* | * Blood glucose: hypoglycemia (common) | ||
* | * Hepatic panel: elevated AST/ALT (hepatocellular injury); elevated bilirubin (conjugated, unconjugated, or both) | ||
* | * Coagulation studies: elevated PT/INR (often markedly — hepatic synthetic failure) | ||
* | * CBC: evaluate for infection (leukocytosis or leukopenia with left shift in sepsis) | ||
* | * Blood cultures: always obtain; high suspicion for ''E. coli'' | ||
* | * Urinalysis: '''reducing substances''' — positive if galactose present; this is NOT the same as a glucose dipstick (standard urine dipsticks detect glucose only, not galactose; '''Clinitest tablet''' or similar reducing substance test is needed)<ref name="StatPearls_Gal">Los E, Ford GA. Galactose-1-Phosphate Uridyltransferase Deficiency (Galactosemia). ''StatPearls''. NCBI. 2023.</ref> | ||
** | ** Caveat: reducing substances may be negative if infant has been NPO or on IV fluids (no galactose intake); a negative result does not exclude galactosemia | ||
* | * BMP: metabolic acidosis, electrolyte abnormalities, renal dysfunction | ||
* | * Ammonia: may be elevated in severe hepatic failure | ||
* | * Lactate: elevated (hepatic failure, tissue hypoperfusion) | ||
* | * Albumin: low (hepatic synthetic failure) | ||
* | * Ophthalmologic examination: slit-lamp for oil drop cataracts (may not be visible without slit-lamp in the first weeks) | ||
===Newborn screening=== | ===Newborn screening=== | ||
*Galactosemia is included in | *Galactosemia is included in newborn screening (NBS) panels in most countries | ||
*NBS measures | *NBS measures GALT enzyme activity and/or blood galactose levels from dried blood spots | ||
* | * NBS results may not be available before the infant becomes symptomatic — classic galactosemia presents in the first week of life, and NBS results may take days to return | ||
*'''Do NOT wait for NBS results if galactosemia is clinically suspected''' — stop lactose immediately | *'''Do NOT wait for NBS results if galactosemia is clinically suspected''' — stop lactose immediately | ||
* | * False negatives on NBS: may occur if infant has not yet received milk feedings, has received blood transfusion (donor RBCs have normal GALT activity), or sample was exposed to heat/humidity | ||
===Confirmatory testing (arrange via specialist)=== | ===Confirmatory testing (arrange via specialist)=== | ||
* | * Erythrocyte GALT enzyme activity: absent or markedly reduced in classic galactosemia | ||
* | * Erythrocyte galactose-1-phosphate level: elevated | ||
* | * GALT gene sequencing: identifies specific mutations (Q188R is the most common severe mutation in Caucasians; S135L in African-descent populations — associated with milder disease) | ||
==Management== | ==Management== | ||
| Line 126: | Line 126: | ||
**Stop breast milk | **Stop breast milk | ||
**Stop all cow's milk-based formulas | **Stop all cow's milk-based formulas | ||
**Switch to | **Switch to soy-based formula (lactose-free) or casein hydrolysate formula | ||
**'''Do NOT wait for confirmatory testing''' — if galactosemia is suspected clinically, remove lactose immediately; this action is lifesaving and harmless if the diagnosis is wrong | **'''Do NOT wait for confirmatory testing''' — if galactosemia is suspected clinically, remove lactose immediately; this action is lifesaving and harmless if the diagnosis is wrong | ||
* | * Empiric broad-spectrum antibiotics — ampicillin + gentamicin (or cefotaxime) per neonatal sepsis protocol; high suspicion for ''E. coli'' | ||
* | * IV dextrose (D10W): correct and prevent hypoglycemia | ||
* | * Correct coagulopathy: vitamin K (1 mg IM); FFP if active bleeding or severely prolonged INR | ||
* | * IV fluids: dextrose-containing crystalloid; avoid lactated Ringer's (contains lactate, not lactose — technically safe, but dextrose-containing NS is preferred for clarity) | ||
* | * Supportive care for liver failure: manage per [[Acute liver failure]] protocols | ||
* | * Monitor: blood glucose frequently, coagulation studies, bilirubin, hepatic panel, renal function | ||
===Medication safety=== | ===Medication safety=== | ||
* | * Check all oral medications for lactose and galactose as excipients — many tablets use lactose as a filler<ref name="GeneReviews"/> | ||
*Use IV formulations when possible during the acute phase | *Use IV formulations when possible during the acute phase | ||
*Consult pharmacy to verify medication safety | *Consult pharmacy to verify medication safety | ||
===Long-term management (arrange via metabolic specialist)=== | ===Long-term management (arrange via metabolic specialist)=== | ||
* | * Lifelong strict lactose-restricted diet — eliminates all dairy products, casein, and whey-containing foods | ||
*Soy-based formula in infancy; careful dietary education throughout life | *Soy-based formula in infancy; careful dietary education throughout life | ||
* | * Calcium and vitamin D supplementation (osteoporosis prevention — dairy restriction limits calcium intake) | ||
*Regular monitoring of: erythrocyte Gal-1-P levels, cataracts, speech and development, ovarian function (in females), bone mineral density | *Regular monitoring of: erythrocyte Gal-1-P levels, cataracts, speech and development, ovarian function (in females), bone mineral density | ||
* | * Life expectancy is normal with early diagnosis and dietary compliance; liver transplantation is NOT required (unlike tyrosinemia type 1)<ref name="SciDirect"/> | ||
==Disposition== | ==Disposition== | ||
* | * All infants with suspected or confirmed galactosemia: admit | ||
**NICU if septic, liver failure, or coagulopathy | **NICU if septic, liver failure, or coagulopathy | ||
**Stop all lactose-containing feeds | **Stop all lactose-containing feeds | ||
**Empiric antibiotics pending cultures | **Empiric antibiotics pending cultures | ||
**Metabolic/genetics consultation | **Metabolic/genetics consultation | ||
* | * Discharge criteria: | ||
**Feeding well on lactose-free formula | **Feeding well on lactose-free formula | ||
**Blood glucose stable | **Blood glucose stable | ||
| Line 160: | Line 160: | ||
**Metabolic specialist follow-up arranged | **Metabolic specialist follow-up arranged | ||
**Family educated on dietary restrictions | **Family educated on dietary restrictions | ||
* | * Ensure the family understands: | ||
** | ** No breast milk — this is emotionally difficult for mothers and requires sensitive counseling; explain that breast milk contains lactose which is harmful to the infant | ||
** | **No standard cow's milk formula | ||
**Careful reading of all food labels for lactose, galactose, casein, whey content | **Careful reading of all food labels for lactose, galactose, casein, whey content | ||
**All medications must be checked for lactose excipients | **All medications must be checked for lactose excipients | ||
** | ** Medical alert identification for the infant | ||
==See Also== | ==See Also== | ||
Latest revision as of 09:30, 22 March 2026
Background
- Galactosemia is an autosomal recessive disorder of galactose metabolism, most commonly caused by deficiency of galactose-1-phosphate uridylyltransferase (GALT), resulting in toxic accumulation of galactose-1-phosphate and galactitol in the liver, brain, kidneys, and lens.[1] Classic galactosemia is a neonatal emergency — affected infants become critically ill within the first week of life after ingesting breast milk or lactose-containing formula, presenting with liver failure, E. coli sepsis, coagulopathy, and cataracts.[2] The disease is rapidly reversible with lactose elimination from the diet but fatal if unrecognized.
- The emergency physician must consider galactosemia in any neonate with E. coli sepsis, any infant with liver failure and feeding difficulties, and any infant with cataracts.
- Autosomal recessive; incidence approximately 1 in 16,000-60,000 live births depending on population[1]
- Three enzyme deficiencies cause galactosemia; GALT deficiency (classic galactosemia) is the most severe and EM-relevant:
| Type | Enzyme deficiency | Key features |
|---|---|---|
| Classic galactosemia | GALT (galactose-1-phosphate uridylyltransferase) | Life-threatening; liver failure, E. coli sepsis, cataracts, brain damage; this page's focus |
| Galactokinase (GALK) deficiency | GALK | Cataracts only; no liver or brain disease; much milder |
| Epimerase (GALE) deficiency | GALE | Usually benign (RBC-confined); rare generalized form resembles classic galactosemia |
Mechanism
- Lactose (in breast milk and cow's milk formula) is digested to glucose + galactose in the intestine
- Galactose is normally metabolized by the Leloir pathway: galactose → (GALK) → galactose-1-phosphate → (GALT) → UDP-galactose → UDP-glucose
- In GALT deficiency: galactose-1-phosphate (Gal-1-P) accumulates → direct toxicity to hepatocytes, renal tubular cells, and neurons
- Galactose is shunted to alternative pathways → galactitol (a sugar alcohol) accumulates in the lens → osmotic swelling of lens fibers → cataracts[1]
- ATP depletion occurs in hepatocytes from phosphate trapping (analogous to Hereditary fructose intolerance)
- Impaired neutrophil function from galactose metabolite accumulation → predisposition to gram-negative sepsis, especially E. coli[2]
The E. coli sepsis connection
- Approximately 10% of neonates with classic galactosemia develop E. coli sepsis; E. coli accounts for ~76% of sepsis episodes in galactosemia[3]
- The sepsis may precede or occur simultaneously with the diagnosis of galactosemia
- Any term neonate with E. coli sepsis should be evaluated for galactosemia — this is one of the most important EM teaching points
Clinical features
Classic presentation (first week of life)
- Previously well newborn begins breast milk or cow's milk formula feedings
- Symptoms appear within days of starting milk feedings
- Feeding difficulties: poor sucking, vomiting, diarrhea
- Lethargy, hypotonia, irritability
- Jaundice (may be conjugated or unconjugated; often both)
- Hepatomegaly (may progress rapidly)
- Coagulopathy (elevated PT/INR — hepatic synthetic failure; excessive bleeding from venipuncture sites is a characteristic early sign)[4]
- Ascites (may appear within first few days of life)
- Hypoglycemia
- Cataracts (bilateral "oil drop" cataracts; may not be visible to the naked eye — slit-lamp examination required; may develop as early as 1-2 weeks of age)[2]
- Renal tubular dysfunction (Fanconi syndrome: glycosuria, aminoaciduria, phosphaturia)
- Sepsis — especially E. coli; may be the presenting feature before liver failure is apparent
- Seizures, cerebral edema (in severe/untreated cases)
- Death — if unrecognized; typically from sepsis, liver failure, or bleeding
Diagnostic clues
- Symptoms temporally related to milk feedings (breast milk or standard formula — both contain lactose)
- Contrast with Hereditary fructose intolerance: galactosemia presents in the first days of life (because all neonates receive milk); HFI presents at 4-6 months (when weaning foods introduce fructose)
- E. coli sepsis in a term neonate (term neonates with sepsis are less common than in preterms; E. coli is the most common pathogen in galactosemia-associated sepsis)
- Reducing substances positive in urine (galactose is a reducing sugar) — classic bedside clue, though nonspecific and with false negatives
Long-term complications (even with early treatment)
- Cognitive impairment, learning disabilities
- Speech and language deficits (childhood apraxia of speech)
- Extrapyramidal movement disorders (tremor, ataxia, dystonia)
- Premature ovarian insufficiency in females (occurs despite dietary treatment)
- Osteoporosis
- These complications are thought to result from endogenous galactose production and possibly prenatal toxicity — they cannot be fully prevented by postnatal dietary restriction[1]
Differential diagnosis
Neonate with liver failure, sepsis, and jaundice
- Galactosemia (milk-related; E. coli sepsis; cataracts; reducing substances in urine)
- Hereditary fructose intolerance (fructose-related; later onset at 4-6 months; no cataracts)
- Tyrosinemia type 1 (very high AFP + coagulopathy out of proportion to transaminases; Fanconi syndrome; not food-specific)
- Neonatal HSV (disseminated; vesicular rash; markedly elevated ALT)
- Bacterial sepsis (other organisms; no cataracts; normal reducing substances)
- Neonatal hemochromatosis (GALD; iron overload; presents at birth, before feeding)
- Neonatal hepatitis (other causes)
- Biliary atresia (conjugated hyperbilirubinemia; acholic stools; no acute liver failure early)
- Hemophagocytic lymphohistiocytosis (HLH)
The galactosemia-HFI comparison (high-yield EM distinction)
| Feature | Galactosemia | Hereditary fructose intolerance |
|---|---|---|
| Offending sugar | Galactose (from lactose in milk) | Fructose (from fruits, sucrose, sorbitol) |
| Typical onset | First days of life (milk feedings start at birth) | 4-6 months (when weaning foods introduce fructose) |
| Cataracts | Yes (oil drop; slit-lamp) | No |
| E. coli sepsis | Yes (~10%; characteristic) | No |
| Reducing substances in urine | Positive (galactose) | May be positive (fructose) |
| Fanconi syndrome | Yes | Yes |
| Glucagon response | Partially effective | Not effective (dual glycogenolysis/gluconeogenesis block) |
| Treatment | Remove lactose (use soy formula) | Remove fructose/sucrose/sorbitol |
Evaluation
ED workup
- Blood glucose: hypoglycemia (common)
- Hepatic panel: elevated AST/ALT (hepatocellular injury); elevated bilirubin (conjugated, unconjugated, or both)
- Coagulation studies: elevated PT/INR (often markedly — hepatic synthetic failure)
- CBC: evaluate for infection (leukocytosis or leukopenia with left shift in sepsis)
- Blood cultures: always obtain; high suspicion for E. coli
- Urinalysis: reducing substances — positive if galactose present; this is NOT the same as a glucose dipstick (standard urine dipsticks detect glucose only, not galactose; Clinitest tablet or similar reducing substance test is needed)[5]
- Caveat: reducing substances may be negative if infant has been NPO or on IV fluids (no galactose intake); a negative result does not exclude galactosemia
- BMP: metabolic acidosis, electrolyte abnormalities, renal dysfunction
- Ammonia: may be elevated in severe hepatic failure
- Lactate: elevated (hepatic failure, tissue hypoperfusion)
- Albumin: low (hepatic synthetic failure)
- Ophthalmologic examination: slit-lamp for oil drop cataracts (may not be visible without slit-lamp in the first weeks)
Newborn screening
- Galactosemia is included in newborn screening (NBS) panels in most countries
- NBS measures GALT enzyme activity and/or blood galactose levels from dried blood spots
- NBS results may not be available before the infant becomes symptomatic — classic galactosemia presents in the first week of life, and NBS results may take days to return
- Do NOT wait for NBS results if galactosemia is clinically suspected — stop lactose immediately
- False negatives on NBS: may occur if infant has not yet received milk feedings, has received blood transfusion (donor RBCs have normal GALT activity), or sample was exposed to heat/humidity
Confirmatory testing (arrange via specialist)
- Erythrocyte GALT enzyme activity: absent or markedly reduced in classic galactosemia
- Erythrocyte galactose-1-phosphate level: elevated
- GALT gene sequencing: identifies specific mutations (Q188R is the most common severe mutation in Caucasians; S135L in African-descent populations — associated with milder disease)
Management
Immediate ED management
- STOP ALL LACTOSE-CONTAINING FEEDS IMMEDIATELY — this is the single most critical intervention[1]
- Stop breast milk
- Stop all cow's milk-based formulas
- Switch to soy-based formula (lactose-free) or casein hydrolysate formula
- Do NOT wait for confirmatory testing — if galactosemia is suspected clinically, remove lactose immediately; this action is lifesaving and harmless if the diagnosis is wrong
- Empiric broad-spectrum antibiotics — ampicillin + gentamicin (or cefotaxime) per neonatal sepsis protocol; high suspicion for E. coli
- IV dextrose (D10W): correct and prevent hypoglycemia
- Correct coagulopathy: vitamin K (1 mg IM); FFP if active bleeding or severely prolonged INR
- IV fluids: dextrose-containing crystalloid; avoid lactated Ringer's (contains lactate, not lactose — technically safe, but dextrose-containing NS is preferred for clarity)
- Supportive care for liver failure: manage per Acute liver failure protocols
- Monitor: blood glucose frequently, coagulation studies, bilirubin, hepatic panel, renal function
Medication safety
- Check all oral medications for lactose and galactose as excipients — many tablets use lactose as a filler[1]
- Use IV formulations when possible during the acute phase
- Consult pharmacy to verify medication safety
Long-term management (arrange via metabolic specialist)
- Lifelong strict lactose-restricted diet — eliminates all dairy products, casein, and whey-containing foods
- Soy-based formula in infancy; careful dietary education throughout life
- Calcium and vitamin D supplementation (osteoporosis prevention — dairy restriction limits calcium intake)
- Regular monitoring of: erythrocyte Gal-1-P levels, cataracts, speech and development, ovarian function (in females), bone mineral density
- Life expectancy is normal with early diagnosis and dietary compliance; liver transplantation is NOT required (unlike tyrosinemia type 1)[2]
Disposition
- All infants with suspected or confirmed galactosemia: admit
- NICU if septic, liver failure, or coagulopathy
- Stop all lactose-containing feeds
- Empiric antibiotics pending cultures
- Metabolic/genetics consultation
- Discharge criteria:
- Feeding well on lactose-free formula
- Blood glucose stable
- Coagulopathy improving
- Infection treated or excluded
- Metabolic specialist follow-up arranged
- Family educated on dietary restrictions
- Ensure the family understands:
- No breast milk — this is emotionally difficult for mothers and requires sensitive counseling; explain that breast milk contains lactose which is harmful to the infant
- No standard cow's milk formula
- Careful reading of all food labels for lactose, galactose, casein, whey content
- All medications must be checked for lactose excipients
- Medical alert identification for the infant
See Also
- Hereditary fructose intolerance
- Tyrosinemia
- Neonatal hepatitis
- Fanconi syndrome
- Neonatal sepsis
- Acute liver failure
- Neonatal hemochromatosis
- Cataracts
External Links
- GeneReviews — Classic Galactosemia and Clinical Variant Galactosemia
- StatPearls — Hereditary Fructose Intolerance (for comparison)
- Medscape — Galactosemia Clinical Presentation
- World J Clin Pediatr — Hereditary fructose intolerance: A comprehensive review (2022)
- Orphanet — Hereditary fructose intolerance
References
- ↑ 1.0 1.1 1.2 1.3 1.4 1.5 Classic Galactosemia and Clinical Variant Galactosemia. GeneReviews. NCBI. 2021.
- ↑ 2.0 2.1 2.2 2.3 Galactosemia. ScienceDirect Topics. 2024.
- ↑ An Approach to Galactosemia. PICU Doc On Call. 2024.
- ↑ Newborn Metabolic Screening — Galactosemia. WV DHHR. 2024.
- ↑ Los E, Ford GA. Galactose-1-Phosphate Uridyltransferase Deficiency (Galactosemia). StatPearls. NCBI. 2023.