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Methylmalonic aciduria

MedGen UID:
343266
Concept ID:
C1855119
Disease or Syndrome; Finding
Synonym: Methylmalonic Aciduria
 
HPO: HP:0012120

Definition

Increased concentration of methylmalonic acid in the urine. [from HPO]

Conditions with this feature

Transcobalamin II deficiency
MedGen UID:
137976
Concept ID:
C0342701
Disease or Syndrome
Transcobalamin II deficiency (TCN2D) is an autosomal recessive disorder with onset in early infancy characterized by failure to thrive, megaloblastic anemia, and pancytopenia. Other features include methylmalonic aciduria, recurrent infections, and vomiting and diarrhea. Treatment with cobalamin results in clinical improvement, but the untreated disorder may result in mental retardation and neurologic abnormalities (summary by Haberle et al., 2009). Hall (1981) gave a clinically oriented review of congenital defects of vitamin B12 transport, and Frater-Schroder (1983) gave a genetically oriented review.
Deficiency of malonyl-CoA decarboxylase
MedGen UID:
91001
Concept ID:
C0342793
Disease or Syndrome
Malonyl-CoA decarboxylase deficiency is an uncommon inherited metabolic disease. The characteristic phenotype is variable, but may include developmental delay in early childhood, seizures, hypotonia, diarrhea, vomiting, metabolic acidosis, hypoglycemia, ketosis, abnormal urinary compounds, lactic acidemia, and hypertrophic cardiomyopathy (Sweetman and Williams, 2001).
Methylmalonic acidemia with homocystinuria, type cblX
MedGen UID:
167111
Concept ID:
C0796208
Disease or Syndrome
Disorders of intracellular cobalamin metabolism have a variable phenotype and age of onset that are influenced by the severity and location within the pathway of the defect. The prototype and best understood phenotype is cblC; it is also the most common of these disorders. The age of initial presentation of cblC spans a wide range: In utero with fetal presentation of nonimmune hydrops, cardiomyopathy, and intrauterine growth restriction. Newborns, who can have microcephaly, poor feeding, and encephalopathy. Infants, who can have poor feeding and slow growth, neurologic abnormality, and, rarely, hemolytic uremic syndrome (HUS). Toddlers, who can have poor growth, progressive microcephaly, cytopenias (including megaloblastic anemia), global developmental delay, encephalopathy, and neurologic signs such as hypotonia and seizures. Adolescents and adults, who can have neuropsychiatric symptoms, progressive cognitive decline, thromboembolic complications, and/or subacute combined degeneration of the spinal cord.
Methylmalonic aciduria and homocystinuria type cblD
MedGen UID:
341253
Concept ID:
C1848552
Disease or Syndrome
Disorders of intracellular cobalamin metabolism have a variable phenotype and age of onset that are influenced by the severity and location within the pathway of the defect. The prototype and best understood phenotype is cblC; it is also the most common of these disorders. The age of initial presentation of cblC spans a wide range: In utero with fetal presentation of nonimmune hydrops, cardiomyopathy, and intrauterine growth restriction. Newborns, who can have microcephaly, poor feeding, and encephalopathy. Infants, who can have poor feeding and slow growth, neurologic abnormality, and, rarely, hemolytic uremic syndrome (HUS). Toddlers, who can have poor growth, progressive microcephaly, cytopenias (including megaloblastic anemia), global developmental delay, encephalopathy, and neurologic signs such as hypotonia and seizures. Adolescents and adults, who can have neuropsychiatric symptoms, progressive cognitive decline, thromboembolic complications, and/or subacute combined degeneration of the spinal cord.
Cobalamin C disease
MedGen UID:
341256
Concept ID:
C1848561
Disease or Syndrome
Disorders of intracellular cobalamin metabolism have a variable phenotype and age of onset that are influenced by the severity and location within the pathway of the defect. The prototype and best understood phenotype is cblC; it is also the most common of these disorders. The age of initial presentation of cblC spans a wide range: In utero with fetal presentation of nonimmune hydrops, cardiomyopathy, and intrauterine growth restriction. Newborns, who can have microcephaly, poor feeding, and encephalopathy. Infants, who can have poor feeding and slow growth, neurologic abnormality, and, rarely, hemolytic uremic syndrome (HUS). Toddlers, who can have poor growth, progressive microcephaly, cytopenias (including megaloblastic anemia), global developmental delay, encephalopathy, and neurologic signs such as hypotonia and seizures. Adolescents and adults, who can have neuropsychiatric symptoms, progressive cognitive decline, thromboembolic complications, and/or subacute combined degeneration of the spinal cord.
Methylmalonic aciduria and homocystinuria type cblF
MedGen UID:
336373
Concept ID:
C1848578
Disease or Syndrome
Disorders of intracellular cobalamin metabolism have a variable phenotype and age of onset that are influenced by the severity and location within the pathway of the defect. The prototype and best understood phenotype is cblC; it is also the most common of these disorders. The age of initial presentation of cblC spans a wide range: In utero with fetal presentation of nonimmune hydrops, cardiomyopathy, and intrauterine growth restriction. Newborns, who can have microcephaly, poor feeding, and encephalopathy. Infants, who can have poor feeding and slow growth, neurologic abnormality, and, rarely, hemolytic uremic syndrome (HUS). Toddlers, who can have poor growth, progressive microcephaly, cytopenias (including megaloblastic anemia), global developmental delay, encephalopathy, and neurologic signs such as hypotonia and seizures. Adolescents and adults, who can have neuropsychiatric symptoms, progressive cognitive decline, thromboembolic complications, and/or subacute combined degeneration of the spinal cord.
Methylmalonic acidemia due to methylmalonyl-CoA epimerase deficiency
MedGen UID:
344419
Concept ID:
C1855100
Disease or Syndrome
For this GeneReview, the term "isolated methylmalonic acidemia" refers to a group of inborn errors of metabolism associated with elevated methylmalonic acid (MMA) concentration in the blood and urine that result from the failure to isomerize (convert) methylmalonyl-coenzyme A (CoA) into succinyl-CoA during propionyl-CoA metabolism in the mitochondrial matrix, without hyperhomocysteinemia or homocystinuria, hypomethioninemia, or variations in other metabolites, such as malonic acid. Isolated MMA is caused by complete or partial deficiency of the enzyme methylmalonyl-CoA mutase (mut0 enzymatic subtype or mut– enzymatic subtype, respectively), a defect in the transport or synthesis of its cofactor, 5-deoxy-adenosyl-cobalamin (cblA, cblB, or cblD-MMA), or deficiency of the enzyme methylmalonyl-CoA epimerase. Prior to the advent of newborn screening, common phenotypes included: Infantile/non-B12-responsive form (mut0 enzymatic subtype, cblB), the most common phenotype, associated with infantile-onset lethargy, tachypnea, hypothermia, vomiting, and dehydration on initiation of protein-containing feeds. Without appropriate treatment, the infantile/non-B12-responsive phenotype could rapidly progress to coma due to hyperammonemic encephalopathy. Partially deficient or B12-responsive phenotypes (mut– enzymatic subtype, cblA, cblB [rare], cblD-MMA), in which symptoms occur in the first few months or years of life and are characterized by feeding problems, failure to thrive, hypotonia, and developmental delay marked by episodes of metabolic decompensation. Methylmalonyl-CoA epimerase deficiency, in which findings range from complete absence of symptoms to severe metabolic acidosis. Affected individuals can also develop ataxia, dysarthria, hypotonia, mild spastic paraparesis, and seizures. In those individuals diagnosed by newborn screening and treated from an early age, there appears to be decreased early mortality, less severe symptoms at diagnosis, favorable short-term neurodevelopmental outcome, and lower incidence of movement disorders and irreversible cerebral damage. However, secondary complications may still occur and can include intellectual disability, tubulointerstitial nephritis with progressive impairment of renal function, "metabolic stroke" (bilateral lacunar infarction of the basal ganglia during acute metabolic decompensation), pancreatitis, growth failure, functional immune impairment, bone marrow failure, optic nerve atrophy, arrhythmias and/or cardiomyopathy (dilated or hypertrophic), liver steatosis/fibrosis/cancer, and renal cancer.
Methylmalonic aciduria, cblB type
MedGen UID:
344420
Concept ID:
C1855102
Disease or Syndrome
For this GeneReview, the term "isolated methylmalonic acidemia" refers to a group of inborn errors of metabolism associated with elevated methylmalonic acid (MMA) concentration in the blood and urine that result from the failure to isomerize (convert) methylmalonyl-coenzyme A (CoA) into succinyl-CoA during propionyl-CoA metabolism in the mitochondrial matrix, without hyperhomocysteinemia or homocystinuria, hypomethioninemia, or variations in other metabolites, such as malonic acid. Isolated MMA is caused by complete or partial deficiency of the enzyme methylmalonyl-CoA mutase (mut0 enzymatic subtype or mut– enzymatic subtype, respectively), a defect in the transport or synthesis of its cofactor, 5-deoxy-adenosyl-cobalamin (cblA, cblB, or cblD-MMA), or deficiency of the enzyme methylmalonyl-CoA epimerase. Prior to the advent of newborn screening, common phenotypes included: Infantile/non-B12-responsive form (mut0 enzymatic subtype, cblB), the most common phenotype, associated with infantile-onset lethargy, tachypnea, hypothermia, vomiting, and dehydration on initiation of protein-containing feeds. Without appropriate treatment, the infantile/non-B12-responsive phenotype could rapidly progress to coma due to hyperammonemic encephalopathy. Partially deficient or B12-responsive phenotypes (mut– enzymatic subtype, cblA, cblB [rare], cblD-MMA), in which symptoms occur in the first few months or years of life and are characterized by feeding problems, failure to thrive, hypotonia, and developmental delay marked by episodes of metabolic decompensation. Methylmalonyl-CoA epimerase deficiency, in which findings range from complete absence of symptoms to severe metabolic acidosis. Affected individuals can also develop ataxia, dysarthria, hypotonia, mild spastic paraparesis, and seizures. In those individuals diagnosed by newborn screening and treated from an early age, there appears to be decreased early mortality, less severe symptoms at diagnosis, favorable short-term neurodevelopmental outcome, and lower incidence of movement disorders and irreversible cerebral damage. However, secondary complications may still occur and can include intellectual disability, tubulointerstitial nephritis with progressive impairment of renal function, "metabolic stroke" (bilateral lacunar infarction of the basal ganglia during acute metabolic decompensation), pancreatitis, growth failure, functional immune impairment, bone marrow failure, optic nerve atrophy, arrhythmias and/or cardiomyopathy (dilated or hypertrophic), liver steatosis/fibrosis/cancer, and renal cancer.
Methylmalonic aciduria, cblA type
MedGen UID:
344422
Concept ID:
C1855109
Disease or Syndrome
For this GeneReview, the term "isolated methylmalonic acidemia" refers to a group of inborn errors of metabolism associated with elevated methylmalonic acid (MMA) concentration in the blood and urine that result from the failure to isomerize (convert) methylmalonyl-coenzyme A (CoA) into succinyl-CoA during propionyl-CoA metabolism in the mitochondrial matrix, without hyperhomocysteinemia or homocystinuria, hypomethioninemia, or variations in other metabolites, such as malonic acid. Isolated MMA is caused by complete or partial deficiency of the enzyme methylmalonyl-CoA mutase (mut0 enzymatic subtype or mut– enzymatic subtype, respectively), a defect in the transport or synthesis of its cofactor, 5-deoxy-adenosyl-cobalamin (cblA, cblB, or cblD-MMA), or deficiency of the enzyme methylmalonyl-CoA epimerase. Prior to the advent of newborn screening, common phenotypes included: Infantile/non-B12-responsive form (mut0 enzymatic subtype, cblB), the most common phenotype, associated with infantile-onset lethargy, tachypnea, hypothermia, vomiting, and dehydration on initiation of protein-containing feeds. Without appropriate treatment, the infantile/non-B12-responsive phenotype could rapidly progress to coma due to hyperammonemic encephalopathy. Partially deficient or B12-responsive phenotypes (mut– enzymatic subtype, cblA, cblB [rare], cblD-MMA), in which symptoms occur in the first few months or years of life and are characterized by feeding problems, failure to thrive, hypotonia, and developmental delay marked by episodes of metabolic decompensation. Methylmalonyl-CoA epimerase deficiency, in which findings range from complete absence of symptoms to severe metabolic acidosis. Affected individuals can also develop ataxia, dysarthria, hypotonia, mild spastic paraparesis, and seizures. In those individuals diagnosed by newborn screening and treated from an early age, there appears to be decreased early mortality, less severe symptoms at diagnosis, favorable short-term neurodevelopmental outcome, and lower incidence of movement disorders and irreversible cerebral damage. However, secondary complications may still occur and can include intellectual disability, tubulointerstitial nephritis with progressive impairment of renal function, "metabolic stroke" (bilateral lacunar infarction of the basal ganglia during acute metabolic decompensation), pancreatitis, growth failure, functional immune impairment, bone marrow failure, optic nerve atrophy, arrhythmias and/or cardiomyopathy (dilated or hypertrophic), liver steatosis/fibrosis/cancer, and renal cancer.
Methylmalonic aciduria due to methylmalonyl-CoA mutase deficiency
MedGen UID:
344424
Concept ID:
C1855114
Disease or Syndrome
For this GeneReview, the term "isolated methylmalonic acidemia" refers to a group of inborn errors of metabolism associated with elevated methylmalonic acid (MMA) concentration in the blood and urine that result from the failure to isomerize (convert) methylmalonyl-coenzyme A (CoA) into succinyl-CoA during propionyl-CoA metabolism in the mitochondrial matrix, without hyperhomocysteinemia or homocystinuria, hypomethioninemia, or variations in other metabolites, such as malonic acid. Isolated MMA is caused by complete or partial deficiency of the enzyme methylmalonyl-CoA mutase (mut0 enzymatic subtype or mut– enzymatic subtype, respectively), a defect in the transport or synthesis of its cofactor, 5-deoxy-adenosyl-cobalamin (cblA, cblB, or cblD-MMA), or deficiency of the enzyme methylmalonyl-CoA epimerase. Prior to the advent of newborn screening, common phenotypes included: Infantile/non-B12-responsive form (mut0 enzymatic subtype, cblB), the most common phenotype, associated with infantile-onset lethargy, tachypnea, hypothermia, vomiting, and dehydration on initiation of protein-containing feeds. Without appropriate treatment, the infantile/non-B12-responsive phenotype could rapidly progress to coma due to hyperammonemic encephalopathy. Partially deficient or B12-responsive phenotypes (mut– enzymatic subtype, cblA, cblB [rare], cblD-MMA), in which symptoms occur in the first few months or years of life and are characterized by feeding problems, failure to thrive, hypotonia, and developmental delay marked by episodes of metabolic decompensation. Methylmalonyl-CoA epimerase deficiency, in which findings range from complete absence of symptoms to severe metabolic acidosis. Affected individuals can also develop ataxia, dysarthria, hypotonia, mild spastic paraparesis, and seizures. In those individuals diagnosed by newborn screening and treated from an early age, there appears to be decreased early mortality, less severe symptoms at diagnosis, favorable short-term neurodevelopmental outcome, and lower incidence of movement disorders and irreversible cerebral damage. However, secondary complications may still occur and can include intellectual disability, tubulointerstitial nephritis with progressive impairment of renal function, "metabolic stroke" (bilateral lacunar infarction of the basal ganglia during acute metabolic decompensation), pancreatitis, growth failure, functional immune impairment, bone marrow failure, optic nerve atrophy, arrhythmias and/or cardiomyopathy (dilated or hypertrophic), liver steatosis/fibrosis/cancer, and renal cancer.
Methylcobalamin deficiency type cblG
MedGen UID:
344426
Concept ID:
C1855128
Disease or Syndrome
Disorders of intracellular cobalamin metabolism have a variable phenotype and age of onset that are influenced by the severity and location within the pathway of the defect. The prototype and best understood phenotype is cblC; it is also the most common of these disorders. The age of initial presentation of cblC spans a wide range: In utero with fetal presentation of nonimmune hydrops, cardiomyopathy, and intrauterine growth restriction. Newborns, who can have microcephaly, poor feeding, and encephalopathy. Infants, who can have poor feeding and slow growth, neurologic abnormality, and, rarely, hemolytic uremic syndrome (HUS). Toddlers, who can have poor growth, progressive microcephaly, cytopenias (including megaloblastic anemia), global developmental delay, encephalopathy, and neurologic signs such as hypotonia and seizures. Adolescents and adults, who can have neuropsychiatric symptoms, progressive cognitive decline, thromboembolic complications, and/or subacute combined degeneration of the spinal cord.
Methylcobalamin deficiency type cblE
MedGen UID:
344640
Concept ID:
C1856057
Disease or Syndrome
Disorders of intracellular cobalamin metabolism have a variable phenotype and age of onset that are influenced by the severity and location within the pathway of the defect. The prototype and best understood phenotype is cblC; it is also the most common of these disorders. The age of initial presentation of cblC spans a wide range: In utero with fetal presentation of nonimmune hydrops, cardiomyopathy, and intrauterine growth restriction. Newborns, who can have microcephaly, poor feeding, and encephalopathy. Infants, who can have poor feeding and slow growth, neurologic abnormality, and, rarely, hemolytic uremic syndrome (HUS). Toddlers, who can have poor growth, progressive microcephaly, cytopenias (including megaloblastic anemia), global developmental delay, encephalopathy, and neurologic signs such as hypotonia and seizures. Adolescents and adults, who can have neuropsychiatric symptoms, progressive cognitive decline, thromboembolic complications, and/or subacute combined degeneration of the spinal cord.
Mitochondrial DNA depletion syndrome, encephalomyopathic form with methylmalonic aciduria
MedGen UID:
413170
Concept ID:
C2749864
Disease or Syndrome
SUCLA2-related mitochondrial DNA (mtDNA) depletion syndrome, encephalomyopathic form with methylmalonic aciduria is characterized by onset of the following features in infancy or childhood (median age of onset 2 months; range of onset birth to 6 years): psychomotor retardation, hypotonia, dystonia, muscular atrophy, sensorineural hearing impairment, postnatal growth retardation, and feeding difficulties. Other less frequent features include distinctive facial features, contractures, kyphoscoliosis, gastroesophageal reflux, ptosis, choreoathetosis, ophthalmoplegia, and epilepsy (infantile spasms or generalized convulsions). The median survival is 20 years; approximately 30% of affected individuals succumb during childhood. Affected individuals may have hyperintensities in the basal ganglia, cerebral atrophy, and leukoencephalopathy on head MRI. Elevation of methylmalonic acid (MMA) in the urine and plasma is found in a vast majority of affected individuals, although at levels that are far below those typically seen in individuals with classic methylmalonic aciduria.
Mitochondrial DNA depletion syndrome 9
MedGen UID:
462826
Concept ID:
C3151476
Disease or Syndrome
SUCLG1-related mitochondrial DNA (mtDNA) depletion syndrome, encephalomyopathic form with methylmalonic aciduria is characterized in the majority of affected newborns by hypotonia, muscle atrophy, feeding difficulties, and lactic acidosis. Affected infants commonly manifest developmental delay / cognitive impairment, growth retardation / failure to thrive, hepatopathy, sensorineural hearing impairment, dystonia, and hypertonia. Notable findings in some affected individuals include hypertrophic cardiomyopathy, epilepsy, myoclonus, microcephaly, sleep disturbance, rhabdomyolysis, contractures, hypothermia, and/or hypoglycemia. Life span is shortened, with median survival of 20 months.
Methylmalonate semialdehyde dehydrogenase deficiency
MedGen UID:
481470
Concept ID:
C3279840
Disease or Syndrome
Methylmalonate semialdehyde dehydrogenase deficiency is a rare autosomal recessive inborn error of metabolism with a highly variable phenotype. Some patients may be asymptomatic, whereas others show global developmental delay, nonspecific dysmorphic features, and delayed myelination on brain imaging. Laboratory studies typically show increased urinary 3-hydroxyisobutyric acid, although additional metabolic abnormalities may also be observed (summary by Marcadier et al., 2013).
Combined malonic and methylmalonic acidemia
MedGen UID:
481944
Concept ID:
C3280314
Disease or Syndrome
Combined malonic and methylmalonic aciduria (CMAMMA) is a rare recessive inborn error of metabolism characterized by elevations of urine malonic acid (MA) and methylmalonic acid (MMA). MMA excretion is higher than MA in CMAMMA patients, unlike patients with malonyl-CoA decarboxylase deficiency (248360) in whom the biochemical abnormalities include elevated MA alone or combined elevations of MA and MMA with MA mainly being higher than MMA. The clinical significance of CMAMMA is controversial. Initially, CMAMMA patients were ascertained during investigation of children with symptoms suggestive of a metabolic disorder or adults with neurologic manifestations (Sloan et al., 2011). Levtova et al. (2019) described CMAMMA patients identified by neonatal screening who had a favorable clinical course.
Methylmalonic acidemia with homocystinuria, type cblJ
MedGen UID:
766829
Concept ID:
C3553915
Disease or Syndrome
Combined methylmalonic aciduria (MMA) and homocystinuria is a genetically heterogeneous metabolic disorder of cobalamin (cbl; vitamin B12) metabolism, which is essential for hematologic and neurologic function. Biochemically, the defect causes decreased levels of the coenzymes adenosylcobalamin (AdoCbl) and methylcobalamin (MeCbl), which results in decreased activity of the respective enzymes methylmalonyl-CoA mutase (MUT; 609058) and methyltetrahydrofolate:homocysteine methyltransferase, also known as methionine synthase (MTR; 156570). The cblJ type is phenotypically and biochemically similar to the cblF type (MAHCF; 277380) (summary by Coelho et al., 2012).
Growth and developmental delay-hypotonia-vision impairment-lactic acidosis syndrome
MedGen UID:
816331
Concept ID:
C3810001
Disease or Syndrome
Combined oxidative phosphorylation deficiency-18 (COXPD18) is an autosomal recessive disorder of mitochondrial function characterized by intrauterine growth retardation, hypotonia, visual impairment, speech delay, and lactic acidosis associated with decreased mitochondrial respiratory chain activity. Affected patients may also show hematologic abnormalities, mainly macrocytic anemia (summary by Hildick-Smith et al., 2013). For a discussion of genetic heterogeneity of combined oxidative phosphorylation deficiency, see COXPD1 (609060).
Methylmalonic acidemia due to transcobalamin receptor defect
MedGen UID:
1670056
Concept ID:
C4749905
Disease or Syndrome
A rare metabolite absorption and transport disorder with characteristics of moderate increase of methylmalonic acid (MMA) in the blood and urine due to decreased cellular uptake of cobalamin resulting from decreased transcobalamin receptor function. Patients are usually asymptomatic however; screening reveals increased C3-acylcarnitine and MMA in plasma. Serum homocysteine levels may vary from normal to moderately elevated and retinal vascular occlusive disease, resulting in severe visual loss, has been reported. Caused by mutation in the gene encoding the transcobalamin receptor (CD320).
Combined oxidative phosphorylation deficiency 56
MedGen UID:
1824034
Concept ID:
C5774261
Disease or Syndrome
Combined oxidative phosphorylation deficiency-56 (COXPD56) is an autosomal recessive disorder characterized by lethargy at birth, hypotonia, developmental delay, myopathy, and ptosis (Thompson et al., 2022). For a discussion of genetic heterogeneity of combined oxidative phosphorylation deficiency, see COXPD1 (609060).

Professional guidelines

PubMed

Hu S, Kong X
Taiwan J Obstet Gynecol 2022 Mar;61(2):290-298. doi: 10.1016/j.tjog.2022.02.017. PMID: 35361390
Hu S, Mei S, Liu N, Kong X
BMC Med Genet 2018 Aug 29;19(1):154. doi: 10.1186/s12881-018-0666-x. PMID: 30157807Free PMC Article
Hörster F, Hoffmann GF
Pediatr Nephrol 2004 Oct;19(10):1071-4. Epub 2004 Aug 4 doi: 10.1007/s00467-004-1572-3. PMID: 15293040

Recent clinical studies

Etiology

Manoli I, Gebremariam A, McCoy S, Pass AR, Gagné J, Hall C, Ferry S, Van Ryzin C, Sloan JL, Sacchetti E, Catesini G, Rizzo C, Martinelli D, Spada M, Dionisi-Vici C, Venditti CP
J Inherit Metab Dis 2023 Jul;46(4):554-572. Epub 2023 Jun 6 doi: 10.1002/jimd.12636. PMID: 37243446Free PMC Article
Chakrapani A, Stojanovic J, Vara R, De Nictolis F, Spada M, Dionisi-Vici C
J Inherit Metab Dis 2023 May;46(3):466-481. Epub 2023 Apr 24 doi: 10.1002/jimd.12613. PMID: 37067856
Martinelli D, Catesini G, Greco B, Guarnera A, Parrillo C, Maines E, Longo D, Napolitano A, De Nictolis F, Cairoli S, Liccardo D, Caviglia S, Sidorina A, Olivieri G, Siri B, Bianchi R, Spagnoletti G, Dello Strologo L, Spada M, Dionisi-Vici C
J Inherit Metab Dis 2023 May;46(3):450-465. Epub 2023 Mar 15 doi: 10.1002/jimd.12599. PMID: 36861405
Deodato F, Boenzi S, Santorelli FM, Dionisi-Vici C
Am J Med Genet C Semin Med Genet 2006 May 15;142C(2):104-12. doi: 10.1002/ajmg.c.30090. PMID: 16602092
Ogier de Baulny H, Saudubray JM
Semin Neonatol 2002 Feb;7(1):65-74. doi: 10.1053/siny.2001.0087. PMID: 12069539

Diagnosis

Manoli I, Gebremariam A, McCoy S, Pass AR, Gagné J, Hall C, Ferry S, Van Ryzin C, Sloan JL, Sacchetti E, Catesini G, Rizzo C, Martinelli D, Spada M, Dionisi-Vici C, Venditti CP
J Inherit Metab Dis 2023 Jul;46(4):554-572. Epub 2023 Jun 6 doi: 10.1002/jimd.12636. PMID: 37243446Free PMC Article
Chakrapani A, Stojanovic J, Vara R, De Nictolis F, Spada M, Dionisi-Vici C
J Inherit Metab Dis 2023 May;46(3):466-481. Epub 2023 Apr 24 doi: 10.1002/jimd.12613. PMID: 37067856
Hu S, Kong X
Taiwan J Obstet Gynecol 2022 Mar;61(2):290-298. doi: 10.1016/j.tjog.2022.02.017. PMID: 35361390
Hu S, Mei S, Liu N, Kong X
BMC Med Genet 2018 Aug 29;19(1):154. doi: 10.1186/s12881-018-0666-x. PMID: 30157807Free PMC Article
Ogier de Baulny H, Saudubray JM
Semin Neonatol 2002 Feb;7(1):65-74. doi: 10.1053/siny.2001.0087. PMID: 12069539

Therapy

Manoli I, Gebremariam A, McCoy S, Pass AR, Gagné J, Hall C, Ferry S, Van Ryzin C, Sloan JL, Sacchetti E, Catesini G, Rizzo C, Martinelli D, Spada M, Dionisi-Vici C, Venditti CP
J Inherit Metab Dis 2023 Jul;46(4):554-572. Epub 2023 Jun 6 doi: 10.1002/jimd.12636. PMID: 37243446Free PMC Article
Chakrapani A, Stojanovic J, Vara R, De Nictolis F, Spada M, Dionisi-Vici C
J Inherit Metab Dis 2023 May;46(3):466-481. Epub 2023 Apr 24 doi: 10.1002/jimd.12613. PMID: 37067856
Kalantari S, Brezzi B, Bracciamà V, Barreca A, Nozza P, Vaisitti T, Amoroso A, Deaglio S, Manganaro M, Porta F, Spada M
Orphanet J Rare Dis 2022 Feb 2;17(1):33. doi: 10.1186/s13023-022-02179-y. PMID: 35109910Free PMC Article
Jiang YZ, Zhou GP, Wu SS, Kong YY, Zhu ZJ, Sun LY
Transplant Rev (Orlando) 2021 Jan;35(1):100592. Epub 2020 Dec 18 doi: 10.1016/j.trre.2020.100592. PMID: 33422927
Bjørke Monsen AL, Ueland PM
Am J Clin Nutr 2003 Jul;78(1):7-21. doi: 10.1093/ajcn/78.1.7. PMID: 12816766

Prognosis

Manoli I, Gebremariam A, McCoy S, Pass AR, Gagné J, Hall C, Ferry S, Van Ryzin C, Sloan JL, Sacchetti E, Catesini G, Rizzo C, Martinelli D, Spada M, Dionisi-Vici C, Venditti CP
J Inherit Metab Dis 2023 Jul;46(4):554-572. Epub 2023 Jun 6 doi: 10.1002/jimd.12636. PMID: 37243446Free PMC Article
Morath MA, Okun JG, Müller IB, Sauer SW, Hörster F, Hoffmann GF, Kölker S
J Inherit Metab Dis 2008 Feb;31(1):35-43. Epub 2007 Sep 12 doi: 10.1007/s10545-007-0571-5. PMID: 17846917
Deodato F, Boenzi S, Santorelli FM, Dionisi-Vici C
Am J Med Genet C Semin Med Genet 2006 May 15;142C(2):104-12. doi: 10.1002/ajmg.c.30090. PMID: 16602092
Lerner-Ellis JP, Tirone JC, Pawelek PD, Doré C, Atkinson JL, Watkins D, Morel CF, Fujiwara TM, Moras E, Hosack AR, Dunbar GV, Antonicka H, Forgetta V, Dobson CM, Leclerc D, Gravel RA, Shoubridge EA, Coulton JW, Lepage P, Rommens JM, Morgan K, Rosenblatt DS
Nat Genet 2006 Jan;38(1):93-100. Epub 2005 Nov 27 doi: 10.1038/ng1683. PMID: 16311595
Ogier de Baulny H, Saudubray JM
Semin Neonatol 2002 Feb;7(1):65-74. doi: 10.1053/siny.2001.0087. PMID: 12069539

Clinical prediction guides

Reischl-Hajiabadi AT, Schnabel E, Gleich F, Mengler K, Lindner M, Burgard P, Posset R, Lommer-Steinhoff S, Grünert SC, Thimm E, Freisinger P, Hennermann JB, Krämer J, Gramer G, Lenz D, Christ S, Hörster F, Hoffmann GF, Garbade SF, Kölker S, Mütze U
J Inherit Metab Dis 2024 Jul;47(4):674-689. Epub 2024 Apr 2 doi: 10.1002/jimd.12731. PMID: 38563533
Manoli I, Gebremariam A, McCoy S, Pass AR, Gagné J, Hall C, Ferry S, Van Ryzin C, Sloan JL, Sacchetti E, Catesini G, Rizzo C, Martinelli D, Spada M, Dionisi-Vici C, Venditti CP
J Inherit Metab Dis 2023 Jul;46(4):554-572. Epub 2023 Jun 6 doi: 10.1002/jimd.12636. PMID: 37243446Free PMC Article
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