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Sensory ataxic neuropathy

MedGen UID:
336060
Concept ID:
C1843859
Finding
HPO: HP:0003434

Term Hierarchy

CClinical test,  RResearch test,  OOMIM,  GGeneReviews,  VClinVar  
  • Sensory ataxic neuropathy

Conditions with this feature

Sensory ataxic neuropathy, dysarthria, and ophthalmoparesis
MedGen UID:
375302
Concept ID:
C1843851
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+").
Mitochondrial DNA depletion syndrome 4b
MedGen UID:
462264
Concept ID:
C3150914
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+").
Progressive external ophthalmoplegia with mitochondrial DNA deletions, autosomal recessive 1
MedGen UID:
897191
Concept ID:
C4225153
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+").

Professional guidelines

PubMed

Kierdaszuk B, Kaliszewska M, Rusecka J, Kosińska J, Bartnik E, Tońska K, Kamińska AM, Kostera-Pruszczyk A
Genes (Basel) 2020 Dec 31;12(1) doi: 10.3390/genes12010054. PMID: 33396418Free PMC Article

Recent clinical studies

Etiology

Kontogeorgiou Z, Kartanou C, Tsirligkani C, Anagnostou E, Rentzos M, Stefanis L, Karadima G, Koutsis G
Clin Genet 2021 Jul;100(1):90-94. Epub 2021 Mar 29 doi: 10.1111/cge.13960. PMID: 33745133
Sedano MJ, Orizaola P, Gallardo E, García A, Pelayo-Negro AL, Sánchez-Juan P, Infante J, Berciano J
Acta Neurol Scand 2019 Jun;139(6):546-554. Epub 2019 Apr 10 doi: 10.1111/ane.13092. PMID: 30929269
Tranchant C, Anheim M
Rev Neurol (Paris) 2016 Aug-Sep;172(8-9):524-529. Epub 2016 Jul 28 doi: 10.1016/j.neurol.2016.07.003. PMID: 27476418
Riva N, Faccendini S, Lopez ID, Fratelli A, Velardo D, Quattrini A, Gatti R, Comi G, Comola M, Fazio R
J Peripher Nerv Syst 2014 Jun;19(2):145-51. doi: 10.1111/jns5.12065. PMID: 24844760
Ito M, Matsuno K, Sakumoto Y, Hirata K, Yuki N
J Neurol Neurosurg Psychiatry 2011 Mar;82(3):294-9. Epub 2011 Jan 20 doi: 10.1136/jnnp.2010.222836. PMID: 21252265

Diagnosis

Lee SU, Kim HJ, Choi JY, Choi KD, Kim JS
JAMA Neurol 2024 Jul 1;81(7):762-770. doi: 10.1001/jamaneurol.2024.1123. PMID: 38739407
Record CJ, Pipis M, Skorupinska M, Blake J, Poh R, Polke JM, Eggleton K, Nanji T, Zuchner S, Cortese A, Houlden H, Rossor AM, Laura M, Reilly MM
Brain 2024 Sep 3;147(9):3144-3156. doi: 10.1093/brain/awae064. PMID: 38481354Free PMC Article
Budumuru U, Sowmini PR, Krishnaswamy MJ, Saravanan SV, Vellaichamy K, Raju VS, Krishnan M
J Assoc Physicians India 2023 Jun;71(6):11-12. PMID: 37355852
Tranchant C, Anheim M
Rev Neurol (Paris) 2016 Aug-Sep;172(8-9):524-529. Epub 2016 Jul 28 doi: 10.1016/j.neurol.2016.07.003. PMID: 27476418
Ito M, Matsuno K, Sakumoto Y, Hirata K, Yuki N
J Neurol Neurosurg Psychiatry 2011 Mar;82(3):294-9. Epub 2011 Jan 20 doi: 10.1136/jnnp.2010.222836. PMID: 21252265

Therapy

Cortese A, Tozza S, Yau WY, Rossi S, Beecroft SJ, Jaunmuktane Z, Dyer Z, Ravenscroft G, Lamont PJ, Mossman S, Chancellor A, Maisonobe T, Pereon Y, Cauquil C, Colnaghi S, Mallucci G, Curro R, Tomaselli PJ, Thomas-Black G, Sullivan R, Efthymiou S, Rossor AM, Laurá M, Pipis M, Horga A, Polke J, Kaski D, Horvath R, Chinnery PF, Marques W, Tassorelli C, Devigili G, Leonardis L, Wood NW, Bronstein A, Giunti P, Züchner S, Stojkovic T, Laing N, Roxburgh RH, Houlden H, Reilly MM
Brain 2020 Feb 1;143(2):480-490. doi: 10.1093/brain/awz418. PMID: 32040566Free PMC Article
Sakoh T, Kanzaki M, Miyamoto A, Mochizuki S, Kakumoto T, Sato K, Uesaka Y, Kishi K
BMC Cancer 2019 Dec 16;19(1):1220. doi: 10.1186/s12885-019-6444-0. PMID: 31842803Free PMC Article
Kulkantrakorn K
Neurol Sci 2014 Nov;35(11):1827-30. Epub 2014 Jul 24 doi: 10.1007/s10072-014-1902-6. PMID: 25056196
Visser NA, Notermans NC, Degen LA, de Kruijk JR, van den Berg LH, Vrancken AF
J Peripher Nerv Syst 2014 Jun;19(2):136-44. doi: 10.1111/jns5.12063. PMID: 24813907
Illa I, Rojas R, Gallardo E, Serrano C, Graus F
Rev Neurol (Paris) 2001 May;157(5):517-22. PMID: 11438771

Prognosis

Lee SU, Kim HJ, Choi JY, Choi KD, Kim JS
JAMA Neurol 2024 Jul 1;81(7):762-770. doi: 10.1001/jamaneurol.2024.1123. PMID: 38739407
Sedano MJ, Orizaola P, Gallardo E, García A, Pelayo-Negro AL, Sánchez-Juan P, Infante J, Berciano J
Acta Neurol Scand 2019 Jun;139(6):546-554. Epub 2019 Apr 10 doi: 10.1111/ane.13092. PMID: 30929269
Visser NA, Notermans NC, Degen LA, de Kruijk JR, van den Berg LH, Vrancken AF
J Peripher Nerv Syst 2014 Jun;19(2):136-44. doi: 10.1111/jns5.12063. PMID: 24813907
Rojas-García R, Querol L, Gallardo E, De Luna Salva N, Juarez C, Garces M, Fages E, Casasnovas C, Illa I
J Peripher Nerv Syst 2012 Jun;17(2):158-68. doi: 10.1111/j.1529-8027.2012.00407.x. PMID: 22734901
Gáti I, Danielsson O, Jonasson J, Landtblom AM
Acta Myol 2011 Dec;30(3):188-90. PMID: 22616202Free PMC Article

Clinical prediction guides

Lee SU, Kim HJ, Choi JY, Choi KD, Kim JS
JAMA Neurol 2024 Jul 1;81(7):762-770. doi: 10.1001/jamaneurol.2024.1123. PMID: 38739407
Li LX, Jiang LT, Pan YG, Zhang XL, Pan LZ, Nie ZY, Chen YH, Jin LJ
J Mol Neurosci 2021 Dec;71(12):2462-2467. Epub 2021 Apr 1 doi: 10.1007/s12031-021-01831-9. PMID: 33791913
Sanderson KG, Millar E, Tumber A, Klatt R, Sondheimer N, Vincent A
Doc Ophthalmol 2021 Feb;142(1):111-118. Epub 2020 Jun 21 doi: 10.1007/s10633-020-09777-w. PMID: 32567010
Riva N, Faccendini S, Lopez ID, Fratelli A, Velardo D, Quattrini A, Gatti R, Comi G, Comola M, Fazio R
J Peripher Nerv Syst 2014 Jun;19(2):145-51. doi: 10.1111/jns5.12065. PMID: 24844760
Chai J, Logigian EL
Curr Opin Neurol 2010 Oct;23(5):509-13. doi: 10.1097/WCO.0b013e32833de6ab. PMID: 20689426

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