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Proximal upper limb amyotrophy

MedGen UID:
356138
Concept ID:
C1866013
Finding
Synonyms: Proximal muscle atrophy in upper limbs; Proximal upper limb muscle atrophy
 
HPO: HP:0008948

Definition

Muscular atrophy affecting proximally located muscles of the arms. [from HPO]

Term Hierarchy

CClinical test,  RResearch test,  OOMIM,  GGeneReviews,  VClinVar  
  • CROGVProximal upper limb amyotrophy

Conditions with this feature

Autosomal dominant limb-girdle muscular dystrophy type 1G
MedGen UID:
322993
Concept ID:
C1836765
Disease or Syndrome
Autosomal dominant limb-girdle muscular dystrophy-3 (LGMDD3) is characterized by slowly progressive proximal muscle weakness affecting the upper and lower limbs. Onset is usually in adulthood, but can occur during the teenage years. Affected individuals may also develop cataracts before age 50 (summary by Vieira et al., 2014). For a phenotypic description and a discussion of genetic heterogeneity of autosomal dominant limb-girdle muscular dystrophy, see LGMDD1 (603511).
Charcot-Marie-Tooth disease axonal type 2C
MedGen UID:
342947
Concept ID:
C1853710
Disease or Syndrome
The autosomal dominant TRPV4 disorders (previously considered to be clinically distinct phenotypes before their molecular basis was discovered) are now grouped into neuromuscular disorders and skeletal dysplasias; however, the overlap within each group is considerable. Affected individuals typically have either neuromuscular or skeletal manifestations alone, and in only rare instances an overlap syndrome has been reported. The three autosomal dominant neuromuscular disorders (mildest to most severe) are: Charcot-Marie-Tooth disease type 2C. Scapuloperoneal spinal muscular atrophy. Congenital distal spinal muscular atrophy. The autosomal dominant neuromuscular disorders are characterized by a congenital-onset, static, or later-onset progressive peripheral neuropathy with variable combinations of laryngeal dysfunction (i.e., vocal fold paresis), respiratory dysfunction, and joint contractures. The six autosomal dominant skeletal dysplasias (mildest to most severe) are: Familial digital arthropathy-brachydactyly. Autosomal dominant brachyolmia. Spondylometaphyseal dysplasia, Kozlowski type. Spondyloepiphyseal dysplasia, Maroteaux type. Parastremmatic dysplasia. Metatropic dysplasia. The skeletal dysplasia is characterized by brachydactyly (in all 6); the five that are more severe have short stature that varies from mild to severe with progressive spinal deformity and involvement of the long bones and pelvis. In the mildest of the autosomal dominant TRPV4 disorders life span is normal; in the most severe it is shortened. Bilateral progressive sensorineural hearing loss (SNHL) can occur with both autosomal dominant neuromuscular disorders and skeletal dysplasias.
Autosomal recessive limb-girdle muscular dystrophy type 2G
MedGen UID:
400895
Concept ID:
C1866008
Disease or Syndrome
Autosomal recessive limb-girdle muscular dystrophy-7 (LGMDR7), also known as LGMDR7, is a skeletal muscle disorder with age of onset in the first or second decade of life. Weakness of proximal and some distal muscles progresses to inability to walk by the third or fourth decade, although some individuals retain the ability to walk without support later. Heart involvement may be present. Creatine kinase levels are increased as much as 30-fold (summary by Moreira et al., 2000). For a general description and a discussion of genetic heterogeneity of autosomal recessive limb-girdle muscular dystrophy, see LGMDR1 (253600).
Congenital muscular dystrophy due to LMNA mutation
MedGen UID:
413043
Concept ID:
C2750785
Disease or Syndrome
LMNA-related congenital muscular dystrophy (L-CMD) is a condition that primarily affects muscles used for movement (skeletal muscles). It is part of a group of genetic conditions called congenital muscular dystrophies, which cause weak muscle tone (hypotonia) and muscle wasting (atrophy) beginning very early in life.\n\nIn people with L-CMD, muscle weakness becomes apparent in infancy or early childhood and can worsen quickly. The most severely affected infants develop few motor skills, and they are never able to hold up their heads, roll over, or sit. Less severely affected children may learn to sit, stand, and walk before muscle weakness becomes apparent. First the neck muscles weaken, causing the head to fall forward (dropped-head syndrome). As other skeletal muscles become weaker, these children may ultimately lose the ability to sit, stand, and walk unassisted.\n\nOther features of L-CMD often include spinal rigidity and abnormal curvature of the spine (scoliosis and lordosis); joint deformities (contractures) that restrict movement, particularly in the hips and legs; and an inward-turning foot. People with L-CMD also have an increased risk of heart rhythm abnormalities (arrhythmias).\n\nOver time, muscle weakness causes most infants and children with L-CMD to have trouble eating and breathing. The breathing problems result from restrictive respiratory insufficiency, which occurs when muscles in the chest are weakened and the ribcage becomes increasingly rigid. This problem can be life-threatening, and many affected children require support with a machine to help them breathe (mechanical ventilation).
Autosomal dominant centronuclear myopathy
MedGen UID:
1645741
Concept ID:
C4551952
Disease or Syndrome
Centronuclear myopathy-1 (CNM1) is an autosomal dominant congenital myopathy characterized by slowly progressive muscular weakness and wasting. The disorder involves mainly limb girdle, trunk, and neck muscles but may also affect distal muscles. Weakness may be present during childhood or adolescence or may not become evident until the third decade of life, and some affected individuals become wheelchair-bound in their fifties. Ptosis and limitation of eye movements occur frequently. The most prominent histopathologic features include high frequency of centrally located nuclei in a large number of extrafusal muscle fibers (which is the basis of the name of the disorder), radial arrangement of sarcoplasmic strands around the central nuclei, and predominance and hypotrophy of type 1 fibers (summary by Bitoun et al., 2005). Genetic Heterogeneity of Centronuclear Myopathy Centronuclear myopathy is a genetically heterogeneous disorder. See also X-linked CNM (CNMX; 310400), caused by mutation in the MTM1 gene (300415) on chromosome Xq28; CNM2 (255200), caused by mutation in the BIN1 gene (601248) on chromosome 2q14; CNM4 (614807), caused by mutation in the CCDC78 gene (614666) on chromosome 16p13; CNM5 (615959), caused by mutation in the SPEG gene (615950) on chromosome 2q35; and CNM6 (617760), caused by mutation in the ZAK gene (609479) on chromosome 2q31. The mutation in the MYF6 gene that was reported to cause a form of CNM, formerly designated CNM3, has been reclassified as a variant of unknown significance; see 159991.0001. Some patients with mutation in the RYR1 gene (180901) have findings of centronuclear myopathy on skeletal muscle biopsy (see 255320).
Basal ganglia calcification, idiopathic, 9, autosomal recessive
MedGen UID:
1854926
Concept ID:
C5935607
Disease or Syndrome
Autosomal recessive idiopathic basal ganglia calcification-9 (IBGC9) is characterized by a combination of features including ataxia, parkinsonism, headache, and psychiatric and cognitive deficits, with high intrafamilial phenotypic variability and age at onset (Chelban et al., 2024). For a phenotypic description and a discussion of genetic heterogeneity of IBGC, see IBGC1 (213600).

Recent clinical studies

Etiology

Cignetti NE, Cox RS, Baute V, McGhee MB, van Alfen N, Strakowski JA, Boon AJ, Norbury JW, Cartwright MS
Muscle Nerve 2023 Jan;67(1):3-11. Epub 2022 Aug 30 doi: 10.1002/mus.27705. PMID: 36040106Free PMC Article
Boruah DK, Prakash A, Gogoi BB, Yadav RR, Dhingani DD, Sarma B
AJNR Am J Neuroradiol 2018 May;39(5):974-980. Epub 2018 Mar 15 doi: 10.3174/ajnr.A5577. PMID: 29545250Free PMC Article
Preethish-Kumar V, Polavarapu K, Singh RJ, Vengalil S, Prasad C, Verma A, Nalini A
Amyotroph Lateral Scler Frontotemporal Degener 2016 Oct-Nov;17(7-8):499-507. Epub 2016 Apr 6 doi: 10.3109/21678421.2016.1167912. PMID: 27050119
Jiang SD, Jiang LS, Dai LY
Eur Spine J 2011 Mar;20(3):351-7. Epub 2010 Aug 8 doi: 10.1007/s00586-010-1544-1. PMID: 20694735Free PMC Article
Gebere-Michael SG, Johnston JC, Metaferia GZ, Wuhib MZ, Fernandez HH
J Neurol Sci 2010 Mar 15;290(1-2):142-5. Epub 2009 Dec 31 doi: 10.1016/j.jns.2009.12.009. PMID: 20045121

Diagnosis

Cignetti NE, Cox RS, Baute V, McGhee MB, van Alfen N, Strakowski JA, Boon AJ, Norbury JW, Cartwright MS
Muscle Nerve 2023 Jan;67(1):3-11. Epub 2022 Aug 30 doi: 10.1002/mus.27705. PMID: 36040106Free PMC Article
Glenn MD, Jabari D
Neurol Clin 2020 Aug;38(3):553-564. doi: 10.1016/j.ncl.2020.03.010. PMID: 32703468
Luo W, Li Y, Xu Q, Gu R, Zhao J
Eur Spine J 2019 Oct;28(10):2293-2301. Epub 2019 Apr 29 doi: 10.1007/s00586-019-05990-7. PMID: 31037421
Al-Ghawi E, Al-Harbi T, Al-Sarawi A, Binfalah M
J Med Case Rep 2016 Mar 17;10:54. doi: 10.1186/s13256-016-0843-5. PMID: 26983673Free PMC Article
Finsterer J
J Neurol Sci 2010 Nov 15;298(1-2):1-10. Epub 2010 Sep 16 doi: 10.1016/j.jns.2010.08.025. PMID: 20846673

Therapy

Pruvost S, Gomez Garcia de la Banda M, Quijano Roy S, Izedaren F, Roche N, Pouplin S
Disabil Rehabil 2024 Feb;46(3):575-580. Epub 2023 Jan 17 doi: 10.1080/09638288.2022.2164362. PMID: 36650958
Shrestha BK , Ranabhat K , Pant R , Sapkota S , Shrestha S
Kathmandu Univ Med J (KUMJ) 2019 Jan.-Mar;17(65):73-76. PMID: 31734684
Cachia D, Izzy S, Ionete C, Salameh J
BMJ Case Rep 2012 Dec 6;2012 doi: 10.1136/bcr-2012-007632. PMID: 23220836Free PMC Article
Yamashita S, Ueda A, Hirahara T, Kimura E, Hirano T, Uchino M
Intern Med 2011;50(8):919-24. Epub 2011 Apr 15 doi: 10.2169/internalmedicine.50.4647. PMID: 21498943
Seror P, Leger JM, Maisonobe T
Muscle Nerve 2002 Dec;26(6):841-4. doi: 10.1002/mus.10241. PMID: 12451612

Prognosis

Cignetti NE, Cox RS, Baute V, McGhee MB, van Alfen N, Strakowski JA, Boon AJ, Norbury JW, Cartwright MS
Muscle Nerve 2023 Jan;67(1):3-11. Epub 2022 Aug 30 doi: 10.1002/mus.27705. PMID: 36040106Free PMC Article
Farr E, D'Andrea D, Franz CK
Sleep Med Clin 2020 Dec;15(4):539-543. Epub 2020 Oct 5 doi: 10.1016/j.jsmc.2020.08.002. PMID: 33131663
Glenn MD, Jabari D
Neurol Clin 2020 Aug;38(3):553-564. doi: 10.1016/j.ncl.2020.03.010. PMID: 32703468
Jiang SD, Jiang LS, Dai LY
Eur Spine J 2011 Mar;20(3):351-7. Epub 2010 Aug 8 doi: 10.1007/s00586-010-1544-1. PMID: 20694735Free PMC Article
Finsterer J
J Neurol Sci 2010 Nov 15;298(1-2):1-10. Epub 2010 Sep 16 doi: 10.1016/j.jns.2010.08.025. PMID: 20846673

Clinical prediction guides

Jiménez-Jiménez J, Navarrete I, Azorín I, Martí P, Vílchez R, Muelas N, Cabello-Murgui J, Millet E, Vázquez-Costa JF, Vílchez JJ, Sevilla T, Sivera R
Eur J Neurol 2024 Oct;31(10):e16416. Epub 2024 Jul 25 doi: 10.1111/ene.16416. PMID: 39051710Free PMC Article
Cignetti NE, Cox RS, Baute V, McGhee MB, van Alfen N, Strakowski JA, Boon AJ, Norbury JW, Cartwright MS
Muscle Nerve 2023 Jan;67(1):3-11. Epub 2022 Aug 30 doi: 10.1002/mus.27705. PMID: 36040106Free PMC Article
Hamada Y, Kanbayashi T, Takahashi K, Kamiya H, Kobayashi S, Sonoo M
Muscle Nerve 2022 Mar;65(3):311-316. Epub 2022 Jan 8 doi: 10.1002/mus.27480. PMID: 34952966
Baxter C, Miller TA, Ross DC, Doherty C
J Hand Surg Am 2018 Jul;43(7):684.e1-684.e4. Epub 2018 Feb 17 doi: 10.1016/j.jhsa.2017.12.020. PMID: 29459170
de Carvalho M, Swash M
J Neurol Sci 2007 Dec 15;263(1-2):26-34. Epub 2007 Jul 3 doi: 10.1016/j.jns.2007.05.021. PMID: 17610902

Recent systematic reviews

Artiaco S, Fusini F, Pennacchio G, Colzani G, Battiston B, Bianchi P
Eur J Orthop Surg Traumatol 2020 Oct;30(7):1251-1255. Epub 2020 May 15 doi: 10.1007/s00590-020-02697-0. PMID: 32415433
Luo W, Li Y, Xu Q, Gu R, Zhao J
Eur Spine J 2019 Oct;28(10):2293-2301. Epub 2019 Apr 29 doi: 10.1007/s00586-019-05990-7. PMID: 31037421

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