2015
DOI: 10.1016/j.neulet.2015.01.029
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Transcutaneous spinal DC stimulation reduces pain sensitivity in humans

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Cited by 24 publications
(26 citation statements)
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References 38 publications
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“…Recent neurophysiological evidence has shown suppressive effects of anodal tsDCS on nociceptive signal processing. In addition to the modulating effects at an electrophysiological level, anodal tsDCS significantly decreased subjective pain reports to painful mechanical stimuli in humans and induced early and long-lasting depression of the transitory facilitation of wide dynamic range neuronal activity [24,25]. Nonetheless, we failed to detect significant differences between anodal and sham tsDCS.…”
Section: Discussioncontrasting
confidence: 58%
See 1 more Smart Citation
“…Recent neurophysiological evidence has shown suppressive effects of anodal tsDCS on nociceptive signal processing. In addition to the modulating effects at an electrophysiological level, anodal tsDCS significantly decreased subjective pain reports to painful mechanical stimuli in humans and induced early and long-lasting depression of the transitory facilitation of wide dynamic range neuronal activity [24,25]. Nonetheless, we failed to detect significant differences between anodal and sham tsDCS.…”
Section: Discussioncontrasting
confidence: 58%
“…This suggests that anodal spinal tsDCS may reduce painful reflexes and may be associated with analgesic effects. Furthermore, anodal tsDCS can suppress the pain sensitivity associated with nociceptive mechanical stimuli [24], and anodal tsDCS can modulate temporal summation of pain based on depression of the transitory facilitation of the activity of wide dynamic range neurons [25]. In brief, tsDCS modulates neuronal activity in lemniscal, spinothalamic, and segmental spinal circuits, suggesting glutamatergic, GABAergic, and glycinergic system involvement, and eventual effects on spinal plasticity [26,27].…”
Section: Introductionmentioning
confidence: 99%
“…No reduction was observed for the responses elicited by nociceptive stimulation of the face. The finding that tsDCS may modulate the transmission of nociceptive inputs conveyed by the spinothalamic pathway is also supported by the results of Meyer-Friessem et al (2015) showing that low-thoracic anodal tsDCS reduced the percept elicited by nociceptive mechanical pinprick stimuli delivered to the thigh. Alongside these reports suggesting an effect of tsDCS on the spinal transmission of nociceptive inputs, one study suggested that anodal tsDCS may also modulate the responses to non-nociceptive somatosensory stimuli conveyed by the dorsal column – medial lemniscus pathway (Cogiamanian et al , 2008).…”
Section: Introductionmentioning
confidence: 56%
“…Finally, studies have shown an effect of anodal low-thoracic tsDCS on nociceptive (Cogiamanian et al , 2011; Perrotta et al , 2016) and non-nociceptive (Winkler et al , 2010; Lim & Shin, 2011; Lamy et al , 2012; Donges et al , 2017) spinal reflexes. Because the first synaptic relay of non-nociceptive somatosensory inputs conveyed by the dorsal column – medial lemniscus pathway is at the level of the medulla oblonogata, the finding that low-thoracic anodal tsDCS may reduce both supraspinal responses to lower-limb nociceptive inputs conveyed by the spinothalamic tract (Truini et al , 2011; Meyer-Friessem et al , 2015) and supraspinal responses to lower-limb non-nociceptive inputs conveyed by the dorsal columns (Cogiamanian et al , 2008) has led researchers to conclude that the neuromodulatory effects of tsDCS result from a blocking of axonal conduction of action potentials, rather than an inhibitory effect on synaptic efficacy (Cogiamanian et al , 2008; Truini et al , 2011). Such an axonal conduction blockade would be analogous to the “anodal blockade” that can be induced by electrical stimulation of a peripheral nerve (Bhadra & Kilgore, 2004) and would affect indifferently the axons forming both the ascending spino-thalamic tracts and the dorsal column pathways.…”
Section: Introductionmentioning
confidence: 99%
“…In cat, rat and mouse models, tsDCS can modulate activity in sensory and motor pathways, and such changes have been observed both during and after tsDCS (Aguilar et al 2011;Ahmed, 2011Ahmed, , 2013aAhmed, ,b, 2014aAhmed & Wieraszko, 2012;Bolzoni & Jankowska, 2015;Song et al 2015). In humans, most studies have focused on the delivery of tsDCS at a thoracic level (T10-T12), observing modifications to ascending sensory pathways (Cogiamanian et al 2008;Truini et al 2011;Meyer-Frießem et al 2015) and spinal reflex pathways (Winkler et al 2010;Cogiamanian et al 2011;Lamy et al 2012;Hubli et al 2013;Lamy & Boakye, 2013;Heide et al 2014;Perrotta et al 2016). These studies in humans report modifications that occur after tsDCS offset; however, soleus H-reflex modulation was also reported to occur during tsDCS (Lamy et al 2012;Lamy & Boakye, 2013).…”
Section: Introductionmentioning
confidence: 99%