Your search keyword '"Ecsy K"' showing total 2 results

1. Cortical nociceptive processes are reduced by visual alpha-band entrainment in the human brain.

Author

Ecsy K, Brown CA, and Jones AKP

Subjects

Acute Pain, Adolescent, Adult, Awareness, Brain physiology, Brain Mapping, Electroencephalography, Female, Gyrus Cinguli physiology, Humans, Male, Pain, Parietal Lobe physiology, Young Adult, Alpha Rhythm physiology, Cerebral Cortex physiology, Nociception physiology, Pain Perception physiology, Photic Stimulation methods

Abstract

Background: Acute noxious stimuli induce a suppression of cortical alpha activity, yet little is known about whether increasing alpha activity affects the processing of noxious stimuli. We have previously shown that visual alpha stimulation reduces experimental pain. Here, we demonstrate that increasing alpha power causes a reciprocal suppression of acute nociceptive processing., Methods: We attempted to increase cortical alpha activity through visual entrainment at 8 Hz, 10 Hz and 12 Hz to investigate the influence on the electrophysiological pain response. Moderately painful laser-heat stimuli were delivered following 10 minutes of visual entrainment across the alpha range., Results: Alpha power increased significantly relative to the 1 Hz control condition following 8 Hz and 10 Hz visual stimulation. Significant reductions in the P2 peak amplitude of the laser-evoked potential were found following visual entrainment at 10 Hz; the frequency stimulation resulting in the largest reduction in pain perception. Source analysis revealed that, following the 10 Hz stimulation, sources of increased alpha power and decreased nociceptive processing overlapped in precuneus and posterior cingulate cortex, with further reductions in nociceptive processing in insula cortex., Conclusions: As far as we are aware, this is the first study to provide direct evidence that experimental induction of increased alpha power suppresses the cortical processing of acute pain., Significance: While it is known that visual stimulation can increase the brain's oscillatory alpha rhythms, here, we show that this increase in alpha power occurs alongside reduced cortical processing of nociception, as measured with EEG. This establishes an objective marker of alpha entrainment-based analgesia that may be useful in the development of neuromodulatory treatments for clinical pain., (© 2017 European Pain Federation - EFIC®.)

Published

2018

2. Alpha-range visual and auditory stimulation reduces the perception of pain.

Author

Ecsy K, Jones AK, and Brown CA

Subjects

Acoustic Stimulation adverse effects, Acoustic Stimulation instrumentation, Adult, Affect, Anxiety psychology, Female, Healthy Volunteers, Humans, Lasers, Male, Pain Measurement, Photic Stimulation adverse effects, Photic Stimulation instrumentation, Psychophysics, Sleep Stages, Young Adult, Acoustic Stimulation methods, Alpha Rhythm, Pain Perception, Photic Stimulation methods

Abstract

Background: Alpha power is believed to have an inverse relationship with the perception of pain. Increasing alpha power through an external stimulus may, therefore, induce an analgesic effect. Here, we attempt to modulate the perception of a moderately painful acute laser stimulus by separately entraining three frequencies across the alpha band: 8, 10 and 12 Hz., Methods: Participants were exposed to either visual or auditory stimulation at three frequencies in the alpha-band range and a control frequency. We collected verbal pain ratings of laser stimuli from participants following 10 minutes of flashing LED goggle stimulation and 10 minutes of binaural beat stimulation across the alpha range. Alterations in sleepiness, anxiety and negative mood were recorded following each auditory or visual alpha-rhythm stimulation session., Results: A significant reduction in pain ratings was found after both the visual and the auditory stimulation across all three frequencies compared with the control condition. In the visual group, a significantly larger reduction was recorded following the 10-Hz stimulation than succeeding the 8- and 12-Hz conditions., Conclusions: This study suggests that a short presentation of auditory and visual stimuli, oscillating in the alpha range, have an analgesic effect on acute laser pain, with the largest effect following the 10-Hz visual stimulation. Pain reductions following stimulation in the alpha range are independent of sleepiness, anxiety, and negative moods., Significance: This study provides new behavioural evidence showing that visual and auditory entrainment of frequencies in the alpha-wave range can influence the perception of acute pain in humans., (© 2016 European Pain Federation - EFIC®.)

Published

2017