Top

Published in:

01-04-2021 | Original article

Cardiovascular and sudomotor dysfunction in Hirayama disease

Authors: Animesh Das, Sunil Pradhan

Published in: Acta Neurologica Belgica | Issue 2/2021

Abstract

Hirayama disease is a disease of young males causing atrophy of small muscles of the affected hand and forearm. Localized autonomic dysfunction of the affected upper limb such as cold skin and excessive sweating has been described in some patients. In this study, we looked for local as well as systemic involvement of autonomic nervous system in patients with Hirayama disease. Forty-four patients with a median duration of illness of 3 years were included in the study. Assessment of symptom profile and evaluation of autonomic nervous system were done at the time of enrolment. The mean age at presentation was 21.9 (10–32) years, with a delay in seeking medical attention of around 3 (1–11) years. Localized clinical autonomic dysfunction was present in 39 (88.6%) patients, while objective generalized autonomic dysfunction was present in 33 (75%) patients. Cold skin and excessive sweating showed good correlation with the presence of objective autonomic dysfunction (P < 0.05). In three patients, sympathetic skin response (SSR) could not be recorded in one of the four limbs. Compared to controls, the SSR results in patients with Hirayama disease showed increased latency (1.64 ± 0.21 vs. 1.57 ± 0.14, P 0.04) and decreased amplitude in upper limbs (0.65 ± 0.19 vs. 0.86 ± 0.40, P 0.01). Hirayama disease has both localized and systemic dysautonomia. Careful longitudinal evaluation during the progressive phase of the disease may help in diagnosing subtle systemic autonomic dysfunction.

Gourie-Devi M, Suresh TG, Shankar SK (1984) Monomelic amyotrophy. Arch Neurol 41(4):388–394CrossRef

Biondi A, Dormont D, Weitzner I Jr, Bouche P, Chaine P, Bories JMR (1989) Imaging of the cervical cord in juvenile amyotrophy of distal upper extremity. AJNR Am J Neuroradiol 10(2):263–268PubMed

Pradhan S, Gupta RK (1997) Magnetic resonance imaging in juvenile asymmetric segmental spinal muscular atrophy. J Neurol Sci 146(2):133–138CrossRef

Hirayama K, Toyokura Y, Tsubaki T (1959) Juvenile muscular atrophy of unilateral upper extremity: a new clinical entity. Psychiatr Neurol Jpn 61:2190–2197

Pradhan S (2009) Bilaterally symmetric form of Hirayama disease. Neurology 72(24):2083–2089CrossRef

Kikuchi S, Tashiro K, Kitagawa M, Iwasaki Y, Abe H (1987) A mechanism of juvenile muscular atrophy localized in the hand and forearm (Hirayama’s disease) flexion myelopathy with tight dural canal in flexion. Rinsho Shinkeigaku 27(4):412–419PubMed

Sletten DM, Suarez GA, Low PA, Mandrekar J, Singer W (2012) COMPASS 31: a refined and abbreviated Composite Autonomic Symptom Score. In: Mayo Clinic Proceedings pp: 1196–1201.

Zygmunt A, Stanczyk J (2010) Methods of evaluation of autonomic nervous system function. AMS 6(1):11–18PubMed

Misra UK, Kalita J (2014) Clinical Neurophysiology, 3rd edition. Elsevier, India

10.

Gourie-Devi M, Nalini A (2001) Sympathetic skin response in monomelic amyotrophy. Acta Neurol Scand 104:162–166CrossRef

11.

Pierzchała K, Łabuz-Roszak B (2002) Wybrane metody oceny autonomicznego układu nerwowego. Wiadomości Lekarskie 55(5–6):325–331PubMed

12.

Rao UC, Bijlani V (1980) The intermediolateral gray columns in the spinal cord of Macaca mulatta. J Auton Nerv Syst 2(3):259–267CrossRef

13.

Jansen AS, Loewy AD (1997) Neurons lying in the white matter of the upper cervical spinal cord project to the intermediolateral cell column. Neuroscience 77(3):889–898CrossRef

14.

Raval M, Kumari R, Dung AAD, Guglani B, Gupta N, Gupta R (2010) MRI findings in Hirayama disease. Indian J Radiol Imaging 20(4):245–249CrossRef

15.

Hirayama K, Tomonaga M, Kitano K, Yamada T, Kojima S, Arai K (1987) Focal cervical poliopathy causing juvenile muscular atrophy of distal upper extremity: a pathological study. J Neurol Neurosurg Psychiatry 50:285–290CrossRef

16.

Misra UK, Kalita J (1995) Central motor conduction in Hirayama disease. Electroencephalogr Clin Neurophysiol 97:73–76CrossRef

17.

Pandey S, Jain S (2016) Bilateral familial Hirayama disease in a father and daughter. Ann Indian Acad Neurol 19(2):264–266CrossRef

18.

Andreadou E, Christodoulou K, Manta P, Karandreas N, Loukaidis P, Sfagos C, Vassilopoulos D (2009) Familial asymmetric distal upper limb amyotrophy (Hirayama disease): report of a Greek family. Neurologist 15(3):156–160CrossRef

19.

Atchayaram N, Vasudev MK, Goel G (2009) Familial monomelic amyotrophy (Hirayama disease): two brothers with classical flexion induced dynamic changes of the cervical dural sac. Neurol India 57:810–812CrossRef

20.

Robberecht W, Aguirre T, Van den Bosch L, Theys P, Nees H, Cassiman JJ, Matthijs G (1997) Familial juvenile focal amyotrophy of the upper extremity (Hirayama disease) Superoxide dismutase 1 genotype and activity. Arch Neurol 54(1):46–50CrossRef

21.

Kira J, Ochi H (2001) Juvenile muscular atrophy of the distal upper limb (Hirayama disease) associated with atopy. J Neurol Neurosurg Psychiatry 70:798–801CrossRef

22.

Chen TH, Hung CH, Hsieh TJ, Lu SR, Yang SN, Jong YJ (2010) Symmetric atrophy of bilateral distal upper extremities and hyperIgEaemia in a male adolescent with Hirayama disease. J Child Neurol 25:371–374CrossRef

23.

Willeit J, Kiechl S, Kiechl-Kohlendorfer U, Golaszewski S, Peer S, Poewe W (2001) Juvenile asymmetric segmental spinal muscular atrophy (Hirayama’s disease): three cases without evidence of “flexion myelopathy”. Acta Neurol Scand 104(5):320–322CrossRef

24.

Pavlovic S, Stevic Z, Milovanovic B, Milicic B, Rakocevic-Stojanovic V, Lavrnic D, Apostolski S (2010) Impairment of cardiac autonomic control in patients with amyotrophic lateral sclerosis. Amyotroph Lateral Scler 11:272–276CrossRef

25.

Shimizu T, Kawata A, Kato S, Hayashi M, Takamoto K, Hayashi H, Hirai S, Yamaguchi S, Komori T, Oda M (2000) Autonomic failure in ALS with a novel SOD1 gene mutation. Neurology 54:1534–1537CrossRef

26.

Asai H, Hirano M, Udaka F, Shimada K, Oda M, Kubori T, Nishinaka K, Tsujimura T, Izumi Y, Konishi N, Matsumoto S, Kameyama M, Ueno S (2007) Sympathetic disturbances increase risk of sudden cardiac arrest in sporadic ALS. J Neurol Sci 254:78–83CrossRef

27.

Sato K, Namba R, Hayabara T, Kashihara K, Morimoto K (1995) Autonomic nervous disorder in motor neuron disease: a study of advanced stage patients. Intern Med 34(10):972–975CrossRef

Title: Cardiovascular and sudomotor dysfunction in Hirayama disease
Authors: Animesh Das
Sunil Pradhan
Publication date: 01-04-2021
Publisher: Springer International Publishing
Published in: Acta Neurologica Belgica / Issue 2/2021
Print ISSN: 0300-9009
Electronic ISSN: 2240-2993
DOI: https://doi.org/10.1007/s13760-019-01253-w

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Cardiovascular and sudomotor dysfunction in Hirayama disease

Abstract

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Please log in to get access to this content

Other articles of this Issue 2/2021

Alpha 1-antichymotrypsin may be a biomarker for the progression of amnestic mild cognitive impairment

Epidemiological and clinical characteristics of primary headaches in adolescent population: is there a relationship with the way of life?

Eliminating vascular interference from the Spot Sign contributes to predicting hematoma expansion in individuals with spontaneous cerebral hemorrhages

Acute brachial plexitis caused by human granulocytic anaplasmosis

A case of Cerebrotendinous Xanthomatosis with spinal cord involvement and without tendon xanthomas: identification of a new mutation of the CYP27A1 gene

Ventriculoatrial shunt as a feasible regimen for certain patients of hydrocephalus: clinical features and surgical management