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Degeneration of anterior horn cells

MedGen UID:
375215
Concept ID:
C1843505
Finding
Synonyms: Degeneration of alpha-motor neurons in anterior horn cells of the spinal cord; Degeneration of spinal cord anterior horn cells; Loss of anterior horn cells; Loss of anterior horn cells in the spinal cord; Loss of spinal cord anterior horn cells; Spinal cord anterior horn cell degeneration
 
HPO: HP:0002398

Term Hierarchy

Conditions with this feature

Kugelberg-Welander disease
MedGen UID:
101816
Concept ID:
C0152109
Disease or Syndrome
Spinal muscular atrophy (SMA) is characterized by muscle weakness and atrophy resulting from progressive degeneration and irreversible loss of the anterior horn cells in the spinal cord (i.e., lower motor neurons) and the brain stem nuclei. The onset of weakness ranges from before birth to adulthood. The weakness is symmetric, proximal > distal, and progressive. Before the genetic basis of SMA was understood, it was classified into clinical subtypes based on maximum motor function achieved; however, it is now apparent that the phenotype of SMN1-associated SMA spans a continuum without clear delineation of subtypes. With supportive care only, poor weight gain with growth failure, restrictive lung disease, scoliosis, and joint contractures are common complications; however, newly available targeted treatment options are changing the natural history of this disease.
Spinal muscular atrophy, type II
MedGen UID:
95975
Concept ID:
C0393538
Disease or Syndrome
Spinal muscular atrophy (SMA) is characterized by muscle weakness and atrophy resulting from progressive degeneration and irreversible loss of the anterior horn cells in the spinal cord (i.e., lower motor neurons) and the brain stem nuclei. The onset of weakness ranges from before birth to adulthood. The weakness is symmetric, proximal > distal, and progressive. Before the genetic basis of SMA was understood, it was classified into clinical subtypes based on maximum motor function achieved; however, it is now apparent that the phenotype of SMN1-associated SMA spans a continuum without clear delineation of subtypes. With supportive care only, poor weight gain with growth failure, restrictive lung disease, scoliosis, and joint contractures are common complications; however, newly available targeted treatment options are changing the natural history of this disease.
Spinal muscular atrophy-progressive myoclonic epilepsy syndrome
MedGen UID:
371854
Concept ID:
C1834569
Disease or Syndrome
The spectrum of ASAH1-related disorders ranges from Farber disease (FD) to spinal muscular atrophy with progressive myoclonic epilepsy (SMA-PME). Classic FD is characterized by onset in the first weeks of life of painful, progressive deformity of the major joints; palpable subcutaneous nodules of joints and mechanical pressure points; and a hoarse cry resulting from granulomas of the larynx and epiglottis. Life expectancy is usually less than two years. In the other less common types of FD, onset, severity, and primary manifestations vary. SMA-PME is characterized by early-childhood-onset progressive lower motor neuron disease manifest typically between ages three and seven years as proximal lower-extremity weakness, followed by progressive myoclonic and atonic seizures, tremulousness/tremor, and sensorineural hearing loss. Myoclonic epilepsy typically begins in late childhood after the onset of weakness and can include jerking of the upper limbs, action myoclonus, myoclonic status, and eyelid myoclonus. Other findings include generalized tremor, and cognitive decline. The time from disease onset to death from respiratory complications is usually five to 15 years.
Spinal muscular atrophy, type IV
MedGen UID:
325364
Concept ID:
C1838230
Disease or Syndrome
Spinal muscular atrophy (SMA) is characterized by muscle weakness and atrophy resulting from progressive degeneration and irreversible loss of the anterior horn cells in the spinal cord (i.e., lower motor neurons) and the brain stem nuclei. The onset of weakness ranges from before birth to adulthood. The weakness is symmetric, proximal > distal, and progressive. Before the genetic basis of SMA was understood, it was classified into clinical subtypes based on maximum motor function achieved; however, it is now apparent that the phenotype of SMN1-associated SMA spans a continuum without clear delineation of subtypes. With supportive care only, poor weight gain with growth failure, restrictive lung disease, scoliosis, and joint contractures are common complications; however, newly available targeted treatment options are changing the natural history of this disease.
Pontocerebellar hypoplasia type 1A
MedGen UID:
335969
Concept ID:
C1843504
Disease or Syndrome
Pontocerebellar hypoplasia (PCH) refers to a group of severe neurodegenerative disorders affecting growth and function of the brainstem and cerebellum, resulting in little or no development. Different types were classified based on the clinical picture and the spectrum of pathologic changes. PCH type 1 is characterized by central and peripheral motor dysfunction associated with anterior horn cell degeneration resembling infantile spinal muscular atrophy (SMA; see SMA1, 253300); death usually occurs early. Genetic Heterogeneity of Pontocerebellar Hypoplasia Also see PCH1B (614678), caused by mutation in the EXOSC3 gene (606489); PCH1C (616081), caused by mutation in the EXOSC8 gene (606019); PCH1D (618065), caused by mutation in the EXOSC9 gene (606180); PCH1E (619303), caused by mutation in the SLC25A46 gene (610826); PCH1F (619304), caused by mutation in the EXOSC1 gene (606493); PCH2A (277470), caused by mutation in the TSEN54 gene (608755); PCH2B (612389), caused by mutation in the TSEN2 gene (608753); PCH2C (612390), caused by mutation in the TSEN34 gene (608754); PCH2D (613811), caused by mutation in the SEPSECS gene (613009); PCH3 (608027), caused by mutation in the PCLO gene (604918); PCH4 (225753), caused by mutation in the TSEN54 gene; PCH5 (610204), caused by mutation in the TSEN54 gene; PCH6 (611523), caused by mutation in the RARS2 gene (611524); PCH7 (614969), caused by mutation in the TOE1 gene (613931); PCH8 (614961), caused by mutation in the CHMP1A gene (164010); PCH9 (615809), caused by mutation in the AMPD2 gene (102771); PCH10 (615803), caused by mutation in the CLP1 gene (608757); PCH11 (617695), caused by mutation in the TBC1D23 gene (617687); PCH12 (618266), caused by mutation in the COASY gene (609855); PCH13 (618606), caused by mutation in the VPS51 gene (615738); PCH14 (619301), caused by mutation in the PPIL1 gene (601301); PCH15 (619302), caused by mutation in the CDC40 gene (605585); PCH16 (619527), caused by mutation in the MINPP1 gene (605391); and PCH17 (619909), caused by mutation in the PRDM13 gene (616741) on chromosome 6q16.
Infantile-onset X-linked spinal muscular atrophy
MedGen UID:
337123
Concept ID:
C1844934
Disease or Syndrome
X-linked infantile spinal muscular atrophy (XL-SMA) is characterized by congenital hypotonia, areflexia, and evidence of degeneration and loss of anterior horn cells (i.e., lower motor neurons) in the spinal cord and brain stem. Often congenital contractures and/or fractures are present. Intellect is normal. Life span is significantly shortened because of progressive ventilatory insufficiency resulting from chest muscle involvement.
Hereditary motor and sensory neuropathy, Okinawa type
MedGen UID:
346886
Concept ID:
C1858338
Disease or Syndrome
Okinawa-type hereditary motor and sensory neuropathy (HMSNO) is an autosomal dominant neurodegenerative disorder characterized by young adult onset of proximal or distal muscle weakness and atrophy, muscle cramps, and fasciculations, with later onset of distal sensory impairment. The disorder is slowly progressive and clinically resembles amyotrophic lateral sclerosis (ALS; see 105400) (summary by Ishiura et al., 2012).
Autosomal recessive distal spinal muscular atrophy 1
MedGen UID:
388083
Concept ID:
C1858517
Disease or Syndrome
Autosomal recessive distal hereditary motor neuronopathy-1 (HMNR1) is characterized by distal and proximal muscle weakness and diaphragmatic palsy that leads to respiratory distress. Without intervention, most infants with the severe form of the disease die before 2 years of age. Affected individuals present in infancy with inspiratory stridor, weak cry, recurrent bronchopneumonia, and swallowing difficulties. The disorder is caused by distal and progressive motor neuronopathy resulting in muscle weakness (summary by Perego et al., 2020). Genetic Heterogeneity of Autosomal Recessive Distal Hereditary Motor Neuronopathy See also HMNR2 (605726), caused by mutation in the SIGMAR1 gene (601978); HMNR3 (607088) (encompassing Harding HMN types III and IV), which maps to chromosome 11q13; HMNR4 (611067), caused by mutation in the PLEKHG5 gene (611101); HMNR5 (614881), caused by mutation in the DNAJB2 gene (604139); HMNR6 (620011), caused by mutation in the REEP1 gene (609139); HMNR7 (619216), caused by mutation in the VWA1 gene (611901); HMNR8 (618912), caused by mutation in the SORD gene (182500); HMNR9 (620402), caused by mutation in the COQ7 gene (601683); HMNR10 (620542), caused by mutation in the VRK1 gene (602168); and HMNR11 (620854), caused by mutation in the RTN2 gene (603183).
Amyotrophic lateral sclerosis type 1
MedGen UID:
400169
Concept ID:
C1862939
Disease or Syndrome
Amyotrophic lateral sclerosis is a neurodegenerative disorder characterized by the death of motor neurons in the brain, brainstem, and spinal cord, resulting in fatal paralysis. ALS usually begins with asymmetric involvement of the muscles in middle adult life. Approximately 10% of ALS cases are familial (Siddique and Deng, 1996). ALS is sometimes referred to as 'Lou Gehrig disease' after the famous American baseball player who was diagnosed with the disorder. Rowland and Shneider (2001) and Kunst (2004) provided extensive reviews of ALS. Some forms of ALS occur with frontotemporal dementia (FTD); see 105500. Ranganathan et al. (2020) provided a detailed review of the genes involved in different forms of ALS with FTD, noting that common disease pathways involve disturbances in RNA processing, autophagy, the ubiquitin proteasome system, the unfolded protein response, and intracellular trafficking. The current understanding of ALS and FTD is that some forms of these disorders represent a spectrum of disease with converging mechanisms of neurodegeneration. Familial ALS is distinct from a form of ALS with dementia reported in cases on Guam (105500) (Espinosa et al., 1962; Husquinet and Franck, 1980), in which the histology is different and dementia and parkinsonism complicate the clinical picture. Genetic Heterogeneity of Amyotrophic Lateral Sclerosis ALS is a genetically heterogeneous disorder, with several causative genes and mapped loci. ALS6 (608030) is caused by mutation in the FUS gene (137070) on chromosome 16p11; ALS8 (608627) is caused by mutation in the VAPB gene (605704) on chromosome 13; ALS9 (611895) is caused by mutation in the ANG gene (105850) on chromosome 14q11; ALS10 (612069) is caused by mutation in the TARDBP gene (605078) on 1p36; ALS11 (612577) is caused by mutation in the FIG4 gene (609390) on chromosome 6q21; ALS12 (613435) is caused by mutation in the OPTN gene (602432) on chromosome 10p13; ALS15 (300857) is caused by mutation in the UBQLN2 gene (300264) on chromosome Xp11; ALS18 (614808) is caused by mutation in the PFN1 gene (176610) on chromosome 17p13; ALS19 (615515) is caused by mutation in the ERBB4 gene (600543) on chromosome 2q34; ALS20 (615426) is caused by mutation in the HNRNPA1 gene (164017) on chromosome 12q13; ALS21 (606070) is caused by mutation in the MATR3 gene (164015) on chromosome 5q31; ALS22 (616208) is caused by mutation in the TUBA4A gene (191110) on chromosome 2q35; ALS23 (617839) is caused by mutation in the ANXA11 gene (602572) on chromosome 10q23; ALS26 (619133) is caused by mutation in the TIA1 gene (603518) on chromosome 2p13; ALS27 (620285) is caused by mutation in the SPTLC1 gene (605712) on chromosome 9q22; and ALS28 (620452) is caused by mutation in the LRP12 gene (618299) on chromosome 8q22. Loci associated with ALS have been found on chromosomes 18q21 (ALS3; 606640) and 20p13 (ALS7; 608031). Intermediate-length polyglutamine repeat expansions in the ATXN2 gene (601517) contribute to susceptibility to ALS (ALS13; 183090). Susceptibility to ALS24 (617892) is conferred by mutation in the NEK1 gene (604588) on chromosome 4q33, and susceptibility to ALS25 (617921) is conferred by mutation in the KIF5A gene (602821) on chromosome 12q13. Susceptibility to ALS has been associated with mutations in other genes, including deletions or insertions in the gene encoding the heavy neurofilament subunit (NEFH; 162230); deletions in the gene encoding peripherin (PRPH; 170710); and mutations in the dynactin gene (DCTN1; 601143). Some forms of ALS show juvenile onset. See juvenile-onset ALS2 (205100), caused by mutation in the alsin (606352) gene on 2q33; ALS4 (602433), caused by mutation in the senataxin gene (SETX; 608465) on 9q34; ALS5 (602099), caused by mutation in the SPG11 gene (610844) on 15q21; and ALS16 (614373), caused by mutation in the SIGMAR1 gene (601978) on 9p13.
Amyotrophic lateral sclerosis type 4
MedGen UID:
355983
Concept ID:
C1865409
Disease or Syndrome
Juvenile amyotrophic lateral sclerosis-4 (ALS4) is an autosomal dominant disorder characterized by distal muscle weakness and atrophy, normal sensation, and pyramidal signs, with onset of symptoms before the age of 25 years, a slow rate of progression, and a normal life span (summary by Chen et al., 2004). For a phenotypic description and a discussion of genetic heterogeneity of amyotrophic lateral sclerosis, see ALS1 (105400).
Amyotrophic lateral sclerosis type 23
MedGen UID:
1645924
Concept ID:
C4693381
Disease or Syndrome
An autosomal dominant subtype of amyotrophic lateral sclerosis caused by mutation(s) in the ANXA11 gene, encoding annexin A11.

Professional guidelines

PubMed

Hiebeler M, Abicht A, Reilich P, Walter MC
J Neuromuscul Dis 2021;8(4):537-542. doi: 10.3233/JND-210644. PMID: 33682724
Wadman RI, van der Pol WL, Bosboom WM, Asselman FL, van den Berg LH, Iannaccone ST, Vrancken AF
Cochrane Database Syst Rev 2020 Jan 6;1(1):CD006282. doi: 10.1002/14651858.CD006282.pub5. PMID: 32006461Free PMC Article
Wadman RI, van der Pol WL, Bosboom WM, Asselman FL, van den Berg LH, Iannaccone ST, Vrancken AF
Cochrane Database Syst Rev 2019 Dec 11;12(12):CD006281. doi: 10.1002/14651858.CD006281.pub5. PMID: 31825542Free PMC Article

Recent clinical studies

Etiology

Wadman RI, van der Pol WL, Bosboom WM, Asselman FL, van den Berg LH, Iannaccone ST, Vrancken AF
Cochrane Database Syst Rev 2020 Jan 6;1(1):CD006282. doi: 10.1002/14651858.CD006282.pub5. PMID: 32006461Free PMC Article
Roth JD, Pariser JJ, Stout TE, Misseri R, Elliott SP
Urology 2020 Jan;135:165-170. Epub 2019 Oct 15 doi: 10.1016/j.urology.2019.09.039. PMID: 31626855
Abati E, Corti S
J Neurol Sci 2018 May 15;388:50-60. Epub 2018 Mar 2 doi: 10.1016/j.jns.2018.03.001. PMID: 29627031
Wadman RI, Bosboom WM, van der Pol WL, van den Berg LH, Wokke JH, Iannaccone ST, Vrancken AF
Cochrane Database Syst Rev 2012 Apr 18;(4):CD006281. doi: 10.1002/14651858.CD006281.pub4. PMID: 22513939
Vanpaemel L, Schoenmakers M, van Nesselrooij B, Pruijs H, Helders P
J Pediatr Orthop B 1997 Jul;6(3):172-8. doi: 10.1097/01202412-199707000-00004. PMID: 9260645

Diagnosis

Hageman G, Nihom J
Eur J Paediatr Neurol 2023 Jan;42:1-14. Epub 2022 Nov 9 doi: 10.1016/j.ejpn.2022.11.002. PMID: 36442412
Iftikhar M, Frey J, Shohan MJ, Malek S, Mousa SA
Pharmacol Ther 2021 Apr;220:107719. Epub 2020 Oct 29 doi: 10.1016/j.pharmthera.2020.107719. PMID: 33130193
Vucic S, Ziemann U, Eisen A, Hallett M, Kiernan MC
J Neurol Neurosurg Psychiatry 2013 Oct;84(10):1161-70. Epub 2012 Dec 21 doi: 10.1136/jnnp-2012-304019. PMID: 23264687Free PMC Article
Swash M, de Carvalho M
Amyotroph Lateral Scler Other Motor Neuron Disord 2004 Sep;5 Suppl 1:108-10. doi: 10.1080/17434470410020067. PMID: 15512888
Vanpaemel L, Schoenmakers M, van Nesselrooij B, Pruijs H, Helders P
J Pediatr Orthop B 1997 Jul;6(3):172-8. doi: 10.1097/01202412-199707000-00004. PMID: 9260645

Therapy

Audic F, Dubois SM, Durigneux J, Barnerias C, Isapof A, Nougues MC, Davion JB, Richelme C, Vuillerot C, Legoff L, Sabouraud P, Cances C, Laugel V, Ropars J, Espil-Taris C, Trommsdorff V, Pervillé A, Garcia-de-la-Banda MG, Testard H, Chouchane M, Walther-Louvier U, Schweizer C, Halbert C, Badri M, Quijano-Roy S, Chabrol B, Desguerre I
Arch Pediatr 2024 Feb;31(2):117-123. Epub 2023 Dec 21 doi: 10.1016/j.arcped.2023.10.009. PMID: 38135619
Hiebeler M, Abicht A, Reilich P, Walter MC
J Neuromuscul Dis 2021;8(4):537-542. doi: 10.3233/JND-210644. PMID: 33682724
Wadman RI, van der Pol WL, Bosboom WM, Asselman FL, van den Berg LH, Iannaccone ST, Vrancken AF
Cochrane Database Syst Rev 2020 Jan 6;1(1):CD006282. doi: 10.1002/14651858.CD006282.pub5. PMID: 32006461Free PMC Article
Roth JD, Pariser JJ, Stout TE, Misseri R, Elliott SP
Urology 2020 Jan;135:165-170. Epub 2019 Oct 15 doi: 10.1016/j.urology.2019.09.039. PMID: 31626855
Swash M, de Carvalho M
Amyotroph Lateral Scler Other Motor Neuron Disord 2004 Sep;5 Suppl 1:108-10. doi: 10.1080/17434470410020067. PMID: 15512888

Prognosis

Hiebeler M, Abicht A, Reilich P, Walter MC
J Neuromuscul Dis 2021;8(4):537-542. doi: 10.3233/JND-210644. PMID: 33682724
Abati E, Corti S
J Neurol Sci 2018 May 15;388:50-60. Epub 2018 Mar 2 doi: 10.1016/j.jns.2018.03.001. PMID: 29627031
Swash M, de Carvalho M
Amyotroph Lateral Scler Other Motor Neuron Disord 2004 Sep;5 Suppl 1:108-10. doi: 10.1080/17434470410020067. PMID: 15512888
Markowitz JA, Tinkle MB, Fischbeck KH
J Obstet Gynecol Neonatal Nurs 2004 Jan-Feb;33(1):12-20. doi: 10.1177/0884217503261125. PMID: 14971549
Vanpaemel L, Schoenmakers M, van Nesselrooij B, Pruijs H, Helders P
J Pediatr Orthop B 1997 Jul;6(3):172-8. doi: 10.1097/01202412-199707000-00004. PMID: 9260645

Clinical prediction guides

Huin V, Coarelli G, Guemy C, Boluda S, Debs R, Mochel F, Stojkovic T, Grabli D, Maisonobe T, Gaymard B, Lenglet T, Tard C, Davion JB, Sablonnière B, Monin ML, Ewenczyk C, Viala K, Charles P, Le Ber I, Reilly MM, Houlden H, Cortese A, Seilhean D, Brice A, Durr A
Brain 2022 Jun 30;145(6):2121-2132. doi: 10.1093/brain/awab449. PMID: 34927205
Lejman J, Zieliński G, Gawda P, Lejman M
Genes (Basel) 2021 Aug 28;12(9) doi: 10.3390/genes12091346. PMID: 34573328Free PMC Article
Hiebeler M, Abicht A, Reilich P, Walter MC
J Neuromuscul Dis 2021;8(4):537-542. doi: 10.3233/JND-210644. PMID: 33682724
D'Ambrosi N, Cozzolino M, Carrì MT
Antioxid Redox Signal 2018 Jul 1;29(1):15-36. Epub 2017 Oct 16 doi: 10.1089/ars.2017.7271. PMID: 28895473
Silani V, Ciammola A, Pizzuti A, Cardin V, Scarlato G
J Neurol Sci 1999 Oct 31;169(1-2):161-9. doi: 10.1016/s0022-510x(99)00240-3. PMID: 10540026

Recent systematic reviews

Wadman RI, van der Pol WL, Bosboom WM, Asselman FL, van den Berg LH, Iannaccone ST, Vrancken AF
Cochrane Database Syst Rev 2020 Jan 6;1(1):CD006282. doi: 10.1002/14651858.CD006282.pub5. PMID: 32006461Free PMC Article
Wadman RI, Bosboom WM, van der Pol WL, van den Berg LH, Wokke JH, Iannaccone ST, Vrancken AF
Cochrane Database Syst Rev 2012 Apr 18;(4):CD006282. doi: 10.1002/14651858.CD006282.pub4. PMID: 22513940
Wadman RI, Bosboom WM, van der Pol WL, van den Berg LH, Wokke JH, Iannaccone ST, Vrancken AF
Cochrane Database Syst Rev 2012 Apr 18;(4):CD006281. doi: 10.1002/14651858.CD006281.pub4. PMID: 22513939
Wadman RI, Bosboom WM, van den Berg LH, Wokke JH, Iannaccone ST, Vrancken AF
Cochrane Database Syst Rev 2011 Dec 7;(12):CD006282. doi: 10.1002/14651858.CD006282.pub3. PMID: 22161400
Wadman RI, Bosboom WM, van den Berg LH, Wokke JH, Iannaccone ST, Vrancken AF
Cochrane Database Syst Rev 2011 Dec 7;(12):CD006281. doi: 10.1002/14651858.CD006281.pub3. PMID: 22161399

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