E-ISSN 2636-865X
Research Article
Electrophysiological study of patients with spinocerebellar and Friedreich's ataxia
1 Department of Neurology, İstanbul University, İstanbul Faculty of Medicine, İstanbul, Turkey  
Neurol Sci Neurophysiol 2018; 35: 138-144
DOI: 10.5152/NSN.2018.11239
Key Words: Spinocerebellar ataxia, Friedreich’s ataxia, polyneuropathy, motor unit number estimation, peripheral nervous system


Objective: Spinocerebellar (SCA) and Friedreich’s ataxia (FRDA) patients were selected in order to undergo standardized protocol for the evaluation of bioelectrical activity of their nerves and muscles. We aimed to gather information on the severity and distribution of their peripheral nerve involvement.

: Eighteen genetically proven SCA and FRDA patients were examined during this study and a control group of 31 age-matched healthy individuals was formed. Both groups underwent conduction studies of sensory and motor nerves, F waves, needle EMG of proximal and distal muscles, and motor unit number estimations (MUNE) of selected muscles on upper and lower extremities.

: Amplitudes of all sensory nerves, as well median and peroneal motor amplitudes were low. Median, ulnar, tibial, and peroneal motor conduction velocities were significantly slowed. MUNE in abductor pollicis brevis and tibialis anterior muscles were significantly lower. Needle EMG testing of respective muscles showed neurogenic involvement in the third of the patients.

: Polyneuropathy is frequently detected in SCA and FRDA patients. The sensory nerves in lower extremities were predominantly involved; however motor dysfunction was also noted. MUNE can offer quantitative information on motor nerve fiber and motor neuron involvement. Nerve conduction studies and needle EMG demonstrate clinical or subclinical polyneuropathy in patients with SCA and FRDA ataxia. MUNE might present another parameter for peripheral involvement.

You may cite this article as
: Myftiu B, Baslo MB, Kocasoy Orhan E. Electrophysiological study of patients with spinocerebellar and Friedreich's ataxia. Neurol Sci Neurophysiol 2018; 35(3): 138-144.

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