Neurological Sciences and Neurophysiology

ORIGINAL ARTICLE
Year
: 2022  |  Volume : 39  |  Issue : 2  |  Page : 68--73

Weak transcranial direct current effect on i waves: A single motor unit recording study of healthy controls


Asli Akyol Gurses1, Hurrem Evren Boran1, Doga Vuralli2, Bulent Cengiz1 
1 Department of Neurology, Division of Clinical Neurophysiology, Gazi University Faculty of Medicine, Ankara, Turkey
2 Department of Neurology, Division of Algology, Gazi University Faculty of Medicine, Ankara, Turkey

Correspondence Address:
Asli Akyol Gurses
Department of Neurology, Division of Clinical Neurophysiology, Faculty of Medicine, Gazi University, Besevler 06500, Ankara
Turkey

Background: A single transcranial magnetic pulse over the motor cortex is known to generate repetitive descending activity along the corticospinal tract. With respect to the origin; the earliest volley is named direct wave and the subsequent activity forms indirect (I) waves. I waves are assumed to originate from corticocortical afferents; they can be modulated by several methods and are practical parameters for evaluating motor cortex excitability. Weak transcranial direct current stimulation (tDCS), which has been widely used in human studies since the early 2000s, is a noninvasive and painless modulatory method for studying cortical excitability. We aimed to investigate the modulatory effects of anodal and cathodal tDCS on I waves of healthy controls, as a component of the motor evoked potential response generator. Materials and Methods: Twelve healthy volunteers were enrolled in the study. One mA tDCS was applied for 10 min and; single motor unit (SMU) recording technique was used for the identification of I waves. Two conditions were analyzed for each SMU in both anodal and cathodal current polarities; before tDCS and after tDCS. Separate peristimulus time histograms were constituted for each condition. Total peak duration, early peak latency, early peak duration, and early peak discharge rate were calculated. Results: Total peak duration, early peak latency, and early peak duration did not differ between pre- and post-tDCS conditions in either polarity. However, I1 peak discharge rate was found to be significantly decreased after cathodal tDCS (P: 0.017) and increased after anodal tDCS (P: 0.003). Conclusion: Our results confirm polarity-specific effects of tDCS of the primary motor cortex on I waves. According to our knowledge, this is the first study evaluating modulatory effects of tDCS on I waves using SMU recording technique.


How to cite this article:
Gurses AA, Boran HE, Vuralli D, Cengiz B. Weak transcranial direct current effect on i waves: A single motor unit recording study of healthy controls.Neurol Sci Neurophysiol 2022;39:68-73


How to cite this URL:
Gurses AA, Boran HE, Vuralli D, Cengiz B. Weak transcranial direct current effect on i waves: A single motor unit recording study of healthy controls. Neurol Sci Neurophysiol [serial online] 2022 [cited 2022 Sep 27 ];39:68-73
Available from: http://www.nsnjournal.org/article.asp?issn=2636-865X;year=2022;volume=39;issue=2;spage=68;epage=73;aulast=Gurses;type=0