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Approach to Inborn Errors of Metabolism .. Dr.Padmesh
1. APPROACH
TO
INBORN ERRORS OF METABOLISM
DR.PADMESH.V
DEPT OF PEDIATRICS,
DR.SMCSI MCH, KARAKONAM.
2. Dr.Padmesh.V
METABOLISM
๏ง Metabolism Catabolism (Breaking down)
Anabolism (Building up)
๏ง Enzymes play an important role in facilitating
the process by serving as catalysts in the
conversion of one chemical (metabolite) to
another.
3. Dr.Padmesh.V
๏ง Catabolism :
๏ง Catabolism is the set of metabolic pathways that
break down molecules into smaller units and
release energy.
4. Dr.Padmesh.V
๏ง Catabolism :
๏ง Catabolism is the set of metabolic pathways that
break down molecules into smaller units and
release energy.
5. Dr.Padmesh.V
๏ง Anabolism :
๏ง Anabolism is the set of metabolic pathways that
construct molecules from smaller units. These
reactions require energy.
6. Dr.Padmesh.V
๏ง Anabolism :
๏ง Anabolism is the set of metabolic pathways that
construct molecules from smaller units. These
reactions require energy.
7. Dr.Padmesh.V
๏ง Anabolism :
๏ง Anabolism is the set of metabolic pathways that
construct molecules from smaller units. These
reactions require energy.
8. ๏ง Inborn errors of metabolism (IEM) Dr.Padmesh.V
- Inborn errors of metabolism (IEM) are disorders
in which there is a block at some point in the
normal metabolic pathway
- IEMs occur due to mutations in DNA.
DNA Enzyme
which code for a Receptor
Specific protein Transport vehicle
Membrane pump
Structural element
10. Dr.Padmesh.V
๏ง Example of mechanisms in IEM:
Precursor Substrate End-Product
A B C
Abnormal metabolic
pathway
Toxic Metabolite D
11. Dr.Padmesh.V
๏ง The number of diseases due to inherited point
defects in metabolism now exceeds 500.
๏ง While the diseases individually are rare, they
collectively account for a significant proportion of
neonatal and childhood morbidity and mortality.
๏ง Diagnosis is important not only for treatment but
also for genetic counselling and antenatal
diagnosis in subsequent pregnancies.
21. Dr.Padmesh.V
๏ง Suspecting Inborn Errors:
๏ง Inborn errors should be suspected when
๏ง HISTORY:
(1) Symptoms accompany starting/changes in diet,
(2) Children with seizures,
(3) Developmental delay,
(4) Recurrent vomiting,
(5) Unusual odour of urine,
(6) Parental consanguinity,
(7) Problems suggestive of inborn error such as retardation or
unexplained deaths in first- and second-degree relatives.
22. Dr.Padmesh.V
Suspecting Inborn Errors:
CLINICALLY:
IEM must be also considered in the differential diagnosis of
๏ง Critically ill newborns,
๏ง Neurodegeneration,
๏ง Mental retardation ,
๏ง Coarse facies / dysmorphic features,
๏ง Parenchymal liver disease,
๏ง Cardiomyopathy,
๏ง Organomegaly
๏ง Unexplained acidosis,
๏ง Corneal opacity, cataract or dislocation of lens,
๏ง Hyperammonemia, and
๏ง Hypoglycemia
26. Dr.Padmesh.V
๏ง 1) Encephalopathy with or without
metabolic acidosis:
๏ง Encephalopathy, seizures,and tone abnormalities are
predominant presenting features of
-organic acidemias,
-urea cycle defects,and
-congenital lactic acidosis.
๏ง Intractable seizures are prominent in
-pyridoxine dependency,
-non-ketotic hyperglycinemia,
-molybdenum co-factor defect,and
-folinic-acid responsive seizures.
27. ๏ง 2) Acute liver disease: could manifest as- Dr.Padmesh.V
๏ง Jaundice alone: -Gilbert syndrome,
-Criggler-Najjar syndrome
๏ง Hepatic failure (jaundice, ascites, hypoglycemia, coagulopathy):
-Tyrosinemia,
-galactosemia,
-neonatal hemochromatosis,
-glycogen storage disease type IV.
๏ง Neonatal cholestasis:
-alpha-1 antitrypsin deficiency,
-Niemann-Pick disease type C.
๏ง Persistent and severe hypoglycemia:
-Galactosemia,
-fatty acid oxidation defects,
-organic acidemias,
-glycogen storage disorders and
-disorders of gluconeogenesis.
28. Dr.Padmesh.V
๏ง 3) Dysmorphic features: seen in
-Peroxisomal disorders,
-Pyruvate dehydrogenase deficiency,
-Congenital disorders of glycosylation ,and
-Lysosomal storage diseases.
Some IEMs may present with
non-immune hydrops fetalis
-lysosomal storage disorders,and
-Congenital disorders of glycosylation.
29. Dr.Padmesh.V
๏ง 4) Cardiac disease:
Cardiomyopathy is a prominent feature in some
IEM like in:
-Fatty acid oxidation defects,
-Glycogen storage disease type II , and
-Mitochondrial electron transport chain defects.
30. Dr.Padmesh.V
๏ง 6. Diarrhea :
a. Severe watery diarrhea:
- Congenital chloride diarrhea
- Galactosemia
- Primary lactase,sucrase,isomaltase deficiency.
b. Chronic diarrhea:
-Bile acid disorders
-Infantile Refsum disease
-Respiratory chain disorders asso with
steatorrhea
-Vitamin deficiency osteopenia
-Hypocholesterolemia
c. Diarrhea,Failure to thrive,hypotonia,hepatomegaly:
-Glycogen storage dis 1
- Wolmans disease
33. Dr.Padmesh.V
INVESTIGATIONS:
๏ง Metabolic investigations should be initiated as soon
as the possibility is considered.
๏ง The outcome of treatment of many IEM especially
those associated with hyperammonemia is directly
related to the rapidity with which problems are
detected and treated.
34. Dr.Padmesh.V
๏ง First line investigations (metabolic screen):
๏ง The following tests should be obtained in all babies with suspected
IEM.
๏ง 1) Complete blood count: (neutropenia and thrombocytopenia
seen in propionic and methylmalonic academia)
๏ง 2) Arterial blood gases and electrolytes
๏ง 3) Blood glucose
๏ง 4) Plasma ammonia (Normal values in newborn: 90-150 mg/dl or
64-107 mmol/L)
๏ง 5) Arterial blood lactate (Normal values: 0.5-1.6 mmol/L)
๏ง 6) Liver function tests,
๏ง 7) Urine ketones,
๏ง 8) Urine reducing substances,
๏ง 9) Serum uric acid (low in molybdenum cofactor deficiency).
35. Dr.Padmesh.V
Suspected Metabolic disease
Plasma Ammonia
High Normal
Blood pH, CO2 Blood pH, CO2
Normal Acidosis Normal
PKU, Non Ketotic hyper
-glycinemia, Peroxisomal
No Ketosis disorders
Urea Cycle No Ketosis Ketosis with/without lactic acidosis
defect
Fatty acid Organic acidemias
oxidation defect Mitochondrial disorders
36. Dr.Padmesh.V
Normal Plasma Ammonia
No Acidosis
PKU, Non Ketotic Hyperglycinemia,
Galacosemia, Peroxisomal disorders
46. Dr.Padmesh.V
๏ง Second line investigations
(ancillary and confirmatory tests)
๏ง These tests need to be performed in a targeted manner, based
on presumptive diagnosis after first line investigations:
๏ง 1) Gas chromatography mass spectrometry (GCMS) of urine- for
diagnosis of organic acidemias.
๏ง 2) Plasma amino acids and acyl carnitine profile: by Tandem
mass spectrometry (TMS)- for diagnosis of organic
acidemias, urea cycle defects, aminoacidopathies and fatty acid
oxidation defects.
๏ง 3) High performance liquid chromatography (HPLC): for
quantitative analysis of amino acids in blood and urine; required
for diagnosis of organic acidemias and aminoacidopathies.
47. Dr.Padmesh.V
๏ง 4) Lactate/pyruvate ratio- in cases with elevated lactate.
๏ง 5) Urinary orotic acid- in cases with hyperammonemia for
classification of urea cycle defect.
๏ง 6) Enzyme assay: This is required for definitive
diagnosis, but not available for most IEMโs.
Available enzyme assays include:
-Biotinidase assay- in cases with suspected
biotinidase deficiency (intractable seizures, seborrheic
rash, alopecia);
-GALT (galactose 1-phosphate uridyl transferase )
assay- in cases with suspected galactosemia
(hypoglycemia, cataracts, reducing sugars in urine).
48. Dr.Padmesh.V
๏ง 7) Neuroimaging: MRI
๏ง Some IEM may be associated with structural
malformations . Examples:
๏ง Zellweger syndrome has diffuse cortical migration and
sulcation abnormalities.
๏ง Agenesis of corpus callosum has been reported in
Menkeโs disease, pyruvate decarboxylase deficiency and
nonketotic hyperglycinemia.
๏ง Maple syrup urine disease (MSUD): brainstem and
cerebellar edema.
๏ง Propionic & methylmalonic acidemia: basal ganglia signal
change.
๏ง Glutaric aciduria: frontotemporal atrophy, subdural
hematomas.
49. Dr.Padmesh.V
๏ง 8) Magnetic resonance spectroscopy (MRS): may be helpful in
selected disorders
๏ง E.g. lactate peak elevated in mitochondrial disorders, leucine peak
elevated in MSUD.
๏ง 9) Electroencephalography (EEG):
๏ง Comb-like rhythm in MSUD,
๏ง Burst suppression in Non Ketotic Hyperglycemia and
holocarboxylase synthetase deficiency.
๏ง 10) Plasma very long chain fatty acid (VLCFA) levels: elevated in
peroxisomal disorders.
๏ง 11)Mutation analysis when available.
๏ง 12) CSF aminoacid analysis: CSF Glycine levels elevated in NKH.
50. Dr.Padmesh.V
TREATMENT:
๏ง In most cases, treatment needs to be instituted empirically
without a specific diagnosis.
๏ง The metabolic screen helps to broadly categorize the patientโs
IEM (e.g. urea cycle defect, organic academia,
congenital lactic acidosis etc), on the basis of which, empirical
treatment can be instituted
51. Dr.Padmesh.V
๏ง Aims of treatment
๏ง 1. To reduce the formation of toxic metabolites by decreasing
substrate availability (by stopping feeds and preventing endogenous
catabolism)
๏ง 2. To provide adequate calories.
๏ง 3. To enhance the excretion of toxic metabolites.
๏ง 4. To institute co-factor therapy for specific disease and also
empirically if diagnosis not established.
๏ง 5. Supportive care-
-Treatment of seizures (avoid sodium valproate โ
may increase ammonia levels),
-Maintain euglycemia and normothermia,
-Fluid, electrolyte & acid-base balance,
-Treatment of infection,
-Mechanical ventilation if required.
52. Dr.Padmesh.V
๏ง Management of hyperammonemia:
๏ง 1) Discontinue all feeds. Provide adequate calories by intravenous glucose and
lipids. Maintain glucose infusion rate 8-10mg/kg/min. Start intravenous lipid
0.5 g/kg/day (up to 3 g/kg/day). After stabilization gradually add protein 0.25
g/kg till 1.5 g/kg/day.
๏ง 2) Dialysis is the only means for rapid removal of ammonia, and hemodialysis is
more effective and faster than peritoneal dialysis. Exchange transfusion is
not useful.
๏ง 3) Alternative pathways for nitrogen excretion-:
-Sodium benzoate (IV/oral)- loading dose 250 mg/kg then 250-400 mg/kg/day
in 4 divided doses. (Intravenous preparation not available in India.)
-Sodium phenylbutyrate (not available in India)-loading dose 250 mg/kg
followed by 250-500 mg/kg/day.
-L-arginine (oral or IV)- 300 mg/kg/day (IV preparation not available in India)
-L-carnitine (oral or IV)- 200 mg/kg/day
๏ง 4) Supportive care: Treatment of sepsis,seizures,ventilation.
Avoid sodium valproate.
53. Dr.Padmesh.V
๏ง Acute management of newborn with suspected
organic acidemia:
๏ง 1) The patient is kept nil per orally and intravenous glucose is provided.
๏ง 2) Supportive care: hydration, treatment of sepsis, seizures, ventilation.
๏ง 3) Carnitine: 100 mg/kg/day IV or oral.
๏ง 4) Treat acidosis: Sodium bicarbonate 0.35-0.5mEq/kg/hr (max 1-
2mEq/kg/hr)
๏ง 5) Start Biotin 10 mg/day orally.
๏ง 6) Start Vitamin B12 1-2 mg/day I/M (useful in B12 responsive forms of
methylmalonic acidemias)
๏ง 7) Start Thiamine 300 mg/day (useful in Thiamine-responsive variants of
MSUD).
55. Dr.Padmesh.V
๏ง Treatment of newborn with refractory seizures
with no obvious etiology (suspected metabolic
etiology):
๏ง 1) If patient persists to have seizures despite 2 or 3
antiepileptic drugs in adequate doses, consider trial of
pyridoxine 100 mg intravenously. If intravenous preparation
not available, oral pyridoxine can be given (15 mg/kg/day).
๏ง 2) If seizures persist despite pyridoxine, give trial of biotin 10
mg/day and folinic acid 15 mg/day (folinic acid responsive
seizures).
๏ง 3) Rule out glucose transporter defect: measure CSF and blood
glucose. This disorder responds to the ketogenic diet.
56. Dr.Padmesh.V
๏ง Management of asymptomatic newborn
with a history of sibling death with
suspected IEM:
๏ง 1) After baseline metabolic screen, start oral dextrose feeds (10%
dextrose).
๏ง 2) After 24 hours, repeat screen. If normal, start breast feeds.
Monitor sugar, blood gases and urine ketones, blood ammonia Q6
hourly.
๏ง 3) Some recommend starting medium chain triglycerides (MCT oil)
before starting breast feeds,
๏ง 4) After 48 hours, repeat metabolic screen. Obtain samples for urine
organic acid tests.
๏ง 5) The infant will need careful observation and follow-up for the first
few months, as IEM may present in different age groups in members
of the same family.
57. Dr.Padmesh.V
๏ง Long term treatment of IEM
๏ง 1) Dietary treatment: This is the mainstay of treatment in
phenylketonuria, maple syrup urine
disease, homocystinuria, galactosemia, and glycogen storage
disease Type I & III.
๏ง Some disorders like urea cycle disorders and organic acidurias
require dietary modification (protein restriction) in addition to
other modalities.
๏ง 2) Enzyme replacement therapy (ERT): ERT is now
commercially available for some lysosomal storage disorders.
However, these disorders do not manifest in the newborn
period, except Pompeโs disease (Glycogen storage disorder
Type II) which may present in the newborn period and for
which ERT is now available.
58. Dr.Padmesh.V
3) Cofactor replacement therapy:
The catalytic properties of many enzymes depend on the participation
of non protein prosthetic groups, such as vitamins and minerals,as
obligatory cofactors.
60. Dr.Padmesh.V
1.Genetic counselling and prenatal diagnosis:
Most of the IEM are single gene defects, inherited in an autosomal recessive
manner, with a 25% recurrence risk.
๏ง Therefore when the diagnosis is known and confirmed in the index case, prenatal
diagnosis can be offered wherever available for the subsequent pregnancies.
๏ง The samples required are Chorionic Villous tissue or Amniotic fluid.
๏ง Modalities available are:
-Substrate or metabolite detection: useful in phenylketonuria, peroxisomal
defects.
-Enzyme assay: useful in lysosomal storage disorders like Niemann-Pick
disease, Gaucher disease.
-DNA based (molecular) diagnosis: Detection of mutation in proband/
carrier parents is a prerequisite.
61. Dr.Padmesh.V
๏ง 2) Neonatal screening:
๏ง Tandem mass spectrometry is used in some countries for
neonatal screening for IEM.
๏ง Disorders which can be detected by TMS include
-Aminoacidopathies (
phenylketonuria, MSUD, Homocystinuria, Citrullinemia,Argini
nosuccinic aciduria, hepatorenal tyrosinemia),
-Fatty acid oxidation defects,
-Organic acidemias (glutaric aciduria, propionic
acidemia, methylmalonic acidemia, isovaleric acidemia).
๏ง The cost of this procedure is very high.
๏ง Also, though the test is highly sensitive, the specificity is
relatively low; and there are difficulties in interpretation of
abnormal test results in apparently healthy infants.
62. Dr.Padmesh.V
๏ง Reference:
1. Nelsonโs textbook of Pediatrics, 18th ed.
2. Essential Pediatrics, 7th ed., O.P.Ghai.
3. Care of the Newborn, 6th ed., Meharban Singh.
4. Current Pediatric Diagnosis & Treatment
(CPDT), 18th ed.
3. A Clinical Guide to Inherited Metabolic
Diseases, 2nd ed, Joe T. R. Clarke.
4. AIMS NICU Protocol 2008.
5. Indian Journal of Pediatrics, Vol 72- Apr,2005
Zellweger- peroxisomal import disorder.Menkes disease (kinky hair disease) is a progressive neurodegenerative condition inherited as a sex-linked recessive trait. The Menkes gene codes for a copper transporting P-type ATPase, and mutations in the protein are associated with low serum copper and ceruloplasmin levels as well as a defect in copper absorption and transport across the intestines.