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Ethylmalonic aciduria

MedGen UID:
355967
Concept ID:
C1865353
Finding
HPO: HP:0003219

Definition

The concentration of ethylmalonic acid in the urine, normalized for urine concentration, is above the upper limit of normal. [from HPO]

Conditions with this feature

Progressive sclerosing poliodystrophy
MedGen UID:
60012
Concept ID:
C0205710
Disease or Syndrome
POLG-related disorders comprise a continuum of overlapping phenotypes that were clinically defined long before their molecular basis was known. Most affected individuals have some, but not all, of the features of a given phenotype; nonetheless, the following nomenclature can assist the clinician in diagnosis and management. Onset of the POLG-related disorders ranges from infancy to late adulthood. Alpers-Huttenlocher syndrome (AHS), one of the most severe phenotypes, is characterized by childhood-onset progressive and ultimately severe encephalopathy with intractable epilepsy and hepatic failure. Childhood myocerebrohepatopathy spectrum (MCHS) presents between the first few months of life and about age three years with developmental delay or dementia, lactic acidosis, and a myopathy with failure to thrive. Other findings can include liver failure, renal tubular acidosis, pancreatitis, cyclic vomiting, and hearing loss. Myoclonic epilepsy myopathy sensory ataxia (MEMSA) now describes the spectrum of disorders with epilepsy, myopathy, and ataxia without ophthalmoplegia. MEMSA now includes the disorders previously described as spinocerebellar ataxia with epilepsy (SCAE). The ataxia neuropathy spectrum (ANS) includes the phenotypes previously referred to as mitochondrial recessive ataxia syndrome (MIRAS) and sensory ataxia neuropathy dysarthria and ophthalmoplegia (SANDO). About 90% of persons in the ANS have ataxia and neuropathy as core features. Approximately two thirds develop seizures and almost one half develop ophthalmoplegia; clinical myopathy is rare. Autosomal recessive progressive external ophthalmoplegia (arPEO) is characterized by progressive weakness of the extraocular eye muscles resulting in ptosis and ophthalmoparesis (or paresis of the extraocular muscles) without associated systemic involvement; however, caution is advised because many individuals with apparently isolated arPEO at the onset develop other manifestations of POLG-related disorders over years or decades. Of note, in the ANS spectrum the neuropathy commonly precedes the onset of PEO by years to decades. Autosomal dominant progressive external ophthalmoplegia (adPEO) typically includes a generalized myopathy and often variable degrees of sensorineural hearing loss, axonal neuropathy, ataxia, depression, parkinsonism, hypogonadism, and cataracts (in what has been called "chronic progressive external ophthalmoplegia plus," or "CPEO+").
Multiple acyl-CoA dehydrogenase deficiency
MedGen UID:
75696
Concept ID:
C0268596
Disease or Syndrome
Multiple acyl-CoA dehydrogenase deficiency (MADD) represents a clinical spectrum in which presentations can be divided into type I (neonatal onset with congenital anomalies), type II (neonatal onset without congenital anomalies), and type III (late onset). Individuals with type I or II MADD typically become symptomatic in the neonatal period with severe metabolic acidosis, which may be accompanied by profound hypoglycemia and hyperammonemia. Many affected individuals die in the newborn period despite metabolic treatment. In those who survive the neonatal period, recurrent metabolic decompensation resembling Reye syndrome and the development of hypertrophic cardiomyopathy can occur. Congenital anomalies may include dysmorphic facial features, large cystic kidneys, hypospadias and chordee in males, and neuronal migration defects (heterotopias) on brain MRI. Individuals with type III MADD, the most common presentation, can present from infancy to adulthood. The most common symptoms are muscle weakness, exercise intolerance, and/or muscle pain, although metabolic decompensation with episodes of rhabdomyolysis can also be seen. Rarely, individuals with late-onset MADD (type III) may develop severe sensory neuropathy in addition to proximal myopathy.
Deficiency of butyryl-CoA dehydrogenase
MedGen UID:
90998
Concept ID:
C0342783
Disease or Syndrome
Most infants with short-chain acyl-CoA dehydrogenase deficiency (SCADD) identified through newborn screening programs have remained well, and asymptomatic relatives who meet diagnostic criteria are reported. Thus, SCADD is now viewed as a biochemical phenotype rather than a disease. A broad range of clinical findings was originally reported in those with confirmed SCADD, including severe dysmorphic facial features, feeding difficulties / failure to thrive, metabolic acidosis, ketotic hypoglycemia, lethargy, developmental delay, seizures, hypotonia, dystonia, and myopathy. However, individuals with no symptoms were also reported. In a large series of affected individuals detected on metabolic evaluation for developmental delay, 20% had failure to thrive, feeding difficulties, and hypotonia; 22% had seizures; and 30% had hypotonia without seizures. In contrast, the majority of infants with SCADD have been detected by expanded newborn screening, and the great majority of these infants remain asymptomatic. As with other fatty acid oxidation deficiencies, characteristic biochemical findings of SCADD may be absent except during times of physiologic stress such as fasting and illness. A diagnosis of SCADD based on clinical findings should not preclude additional testing to look for other causes.
Ethylmalonic encephalopathy
MedGen UID:
355966
Concept ID:
C1865349
Disease or Syndrome
Ethylmalonic encephalopathy (EE) is a severe, early-onset, progressive disorder characterized by developmental delay / mild-to-severe intellectual disability; generalized infantile hypotonia that evolves into hypertonia, spasticity, and (in some instances) dystonia; generalized tonic-clonic seizures; and generalized microvascular damage (diffuse and spontaneous relapsing petechial purpura, hemorrhagic suffusions of mucosal surfaces, and chronic hemorrhagic diarrhea). Infants sometimes have frequent vomiting and loss of social interaction. Speech is delayed and in some instances absent. Swallowing difficulties and failure to thrive are common. Children may be unable to walk without support and may be wheelchair bound. Neurologic deterioration accelerates following intercurrent infectious illness, and the majority of children die in the first decade.
Hypomyelinating leukodystrophy 4
MedGen UID:
383026
Concept ID:
C2677109
Disease or Syndrome
Any leukodystrophy in which the cause of the disease is a mutation in the HSPD1 gene.
Mitochondrial complex IV deficiency, nuclear type 22
MedGen UID:
1786100
Concept ID:
C5543491
Disease or Syndrome
Mitochondrial complex IV deficiency nuclear type 22 (MC4DN22) is an autosomal recessive metabolic disorder characterized by neonatal hypertrophic cardiomyopathy, encephalopathy, and severe lactic acidosis with fatal outcome (Wintjes et al., 2021). For a discussion of genetic heterogeneity of mitochondrial complex IV (cytochrome c oxidase) deficiency, see 220110.

Professional guidelines

PubMed

Yunus ZM, Rahman SA, Choy YS, Keng WT, Ngu LH
J Pediatr Endocrinol Metab 2016 Sep 1;29(9):1031-9. doi: 10.1515/jpem-2016-0028. PMID: 27544719

Recent clinical studies

Etiology

Fogh S, Dipace G, Bie A, Veiga-da-Cunha M, Hansen J, Kjeldsen M, Mosegaard S, Ribes A, Gregersen N, Aagaard L, Van Schaftingen E, Olsen RKJ
J Inherit Metab Dis 2021 Sep;44(5):1215-1225. Epub 2021 Jun 8 doi: 10.1002/jimd.12394. PMID: 33973257Free PMC Article
Pedersen CB, Zolkipli Z, Vang S, Palmfeldt J, Kjeldsen M, Stenbroen V, Schmidt SP, Wanders RJ, Ruiter JP, Wibrand F, Tein I, Gregersen N
J Inherit Metab Dis 2010 Jun;33(3):211-22. Epub 2010 May 5 doi: 10.1007/s10545-010-9086-6. PMID: 20443061
McGowan KA, Nyhan WL, Barshop BA, Naviaux RK, Yu A, Haas RH, Townsend JJ
Arch Neurol 2004 Apr;61(4):570-4. doi: 10.1001/archneur.61.4.570. PMID: 15096407
Corydon MJ, Vockley J, Rinaldo P, Rhead WJ, Kjeldsen M, Winter V, Riggs C, Babovic-Vuksanovic D, Smeitink J, De Jong J, Levy H, Sewell AC, Roe C, Matern D, Dasouki M, Gregersen N
Pediatr Res 2001 Jan;49(1):18-23. doi: 10.1203/00006450-200101000-00008. PMID: 11134486
Gregersen N, Andresen BS, Bross P
Eur J Pediatr 2000 Dec;159 Suppl 3:S213-8. doi: 10.1007/pl00014406. PMID: 11216903

Diagnosis

Horton A, Hong KM, Pandithan D, Allen M, Killick C, Goergen S, Springer A, Phelan D, Marty M, Halligan R, Lee J, Pitt J, Chong B, Christodoulou J, Lunke S, Stark Z, Fahey M
Cold Spring Harb Mol Case Stud 2022 Feb;8(2) Epub 2022 Mar 24 doi: 10.1101/mcs.a006193. PMID: 35165146Free PMC Article
Özçelik S, Öztekin N, Kıykım E, Cansever MŞ, Aktuğlu-Zeybek AÇ
J Sep Sci 2020 Apr;43(7):1365-1371. Epub 2020 Feb 9 doi: 10.1002/jssc.201901044. PMID: 31958360
Peake RWA, Rodan LH
Clin Chem 2017 Nov;63(11):1771-1773. doi: 10.1373/clinchem.2017.279497. PMID: 29089323
Jamroz E, Paprocka J, Adamek D, Pytel J, Szczechowska K, Grabska N, Malec M, Głuszkiewicz E, Daab M, Wodołażski A
Folia Neuropathol 2011;49(1):71-7. PMID: 21455846
Gregersen N, Andresen BS, Bross P
Eur J Pediatr 2000 Dec;159 Suppl 3:S213-8. doi: 10.1007/pl00014406. PMID: 11216903

Therapy

McGowan KA, Nyhan WL, Barshop BA, Naviaux RK, Yu A, Haas RH, Townsend JJ
Arch Neurol 2004 Apr;61(4):570-4. doi: 10.1001/archneur.61.4.570. PMID: 15096407
Worthen HG, al Ashwal A, Ozand PT, Garawi S, Rahbeeni Z, al Odaib A, Subramanyam SB, Rashed M
Brain Dev 1994 Nov;16 Suppl:81-5. doi: 10.1016/0387-7604(94)90100-7. PMID: 7726385
Brismar J, Ozand PT
Brain Dev 1994 Nov;16 Suppl:104-24. doi: 10.1016/0387-7604(94)90103-1. PMID: 7726375

Prognosis

Yunus ZM, Rahman SA, Choy YS, Keng WT, Ngu LH
J Pediatr Endocrinol Metab 2016 Sep 1;29(9):1031-9. doi: 10.1515/jpem-2016-0028. PMID: 27544719
Alrifai MT, AlShaya MA, Abulaban A, Alfadhel M
Pediatr Neurol 2014 Sep;51(3):390-7. Epub 2014 May 21 doi: 10.1016/j.pediatrneurol.2014.05.015. PMID: 25160544
McGowan KA, Nyhan WL, Barshop BA, Naviaux RK, Yu A, Haas RH, Townsend JJ
Arch Neurol 2004 Apr;61(4):570-4. doi: 10.1001/archneur.61.4.570. PMID: 15096407
Garavaglia B, Colamaria V, Carrara F, Tonin P, Rimoldi M, Uziel G
J Inherit Metab Dis 1994;17(3):301-3. doi: 10.1007/BF00711813. PMID: 7807937

Clinical prediction guides

Fogh S, Dipace G, Bie A, Veiga-da-Cunha M, Hansen J, Kjeldsen M, Mosegaard S, Ribes A, Gregersen N, Aagaard L, Van Schaftingen E, Olsen RKJ
J Inherit Metab Dis 2021 Sep;44(5):1215-1225. Epub 2021 Jun 8 doi: 10.1002/jimd.12394. PMID: 33973257Free PMC Article
Jamroz E, Paprocka J, Adamek D, Pytel J, Szczechowska K, Grabska N, Malec M, Głuszkiewicz E, Daab M, Wodołażski A
Folia Neuropathol 2011;49(1):71-7. PMID: 21455846
Pedersen CB, Zolkipli Z, Vang S, Palmfeldt J, Kjeldsen M, Stenbroen V, Schmidt SP, Wanders RJ, Ruiter JP, Wibrand F, Tein I, Gregersen N
J Inherit Metab Dis 2010 Jun;33(3):211-22. Epub 2010 May 5 doi: 10.1007/s10545-010-9086-6. PMID: 20443061
Corydon MJ, Vockley J, Rinaldo P, Rhead WJ, Kjeldsen M, Winter V, Riggs C, Babovic-Vuksanovic D, Smeitink J, De Jong J, Levy H, Sewell AC, Roe C, Matern D, Dasouki M, Gregersen N
Pediatr Res 2001 Jan;49(1):18-23. doi: 10.1203/00006450-200101000-00008. PMID: 11134486
Ozand PT, Rashed M, Millington DS, Sakati N, Hazzaa S, Rahbeeni Z, al Odaib A, Youssef N, Mazrou A, Gascon GG
Brain Dev 1994 Nov;16 Suppl:12-22. doi: 10.1016/0387-7604(94)90092-2. PMID: 7726376

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