Pain is a highly complex and subjective phenomenon which results from the dynamic integration of sensory and contextual (i.e. cognitive, emotional, and motivational) processes. Recent evidence suggests that neural oscillations and their synchronization between different brain areas might form the basis of these integrative functions. When investigating tonic experimental pain lasting for several minutes, for example, objective stimulus intensity is inversely related to alpha (8-13 Hz) and beta (13-30 Hz) oscillations in early somatosensory areas, while subjective pain intensity is positively associated with gamma (30-100 Hz) oscillations in prefrontal cortex. Yet, with a few exemptions, reported links between oscillatory brain activity and pain have mostly been established by correlative approaches which do not allow to infer causality. The current project aims at comprehensively investigating the causal role of neural oscillations for tonic experimental pain in healthy human subjects. To this end, transcranial alternating current stimulation (tACS) will be employed to modulate oscillatory brain activity in alpha and gamma frequency bands and investigate effects of this manipulation on pain perception and pain-related autonomic responses. Using an established tonic pain stimulation protocol and a double-blind, sham-controlled design, effects of tACS of somatosensory as well as prefrontal brain areas will be investigated. Results promise to elucidate the neural mechanisms underlying tonic experimental pain by testing the mechanistic role of neural oscillations in different aspects of pain processing. Furthermore, they might contribute to the development of urgently needed new treatment approaches for chronic pain using neuromodulatory methods.
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Changes in pain rating on visual analogue scale (VAS; 0: 'no pain' to 10: 'maximal tolerable pain') between sessions
Timeframe: During 10 min thermal stimulation in each of six interventions (10 Hz tACS/80 Hz tACS/sham stimulation of the somatosensory/prefrontal cortex), which are separated by at least 24 hrs.
Changes in skin conductance responses (µS) between sessions
Timeframe: During 10 min thermal stimulation in each of six interventions (10 Hz tACS/80 Hz tACS/sham stimulation of the somatosensory/prefrontal cortex), which are separated by at least 24 hrs.
Changes in heart rate (BPM, beats per minute) between sessions
Timeframe: During 10 min thermal stimulation in each of six interventions (10 Hz tACS/80 Hz tACS/sham stimulation of the somatosensory/prefrontal cortex), which are separated by at least 24 hrs.
Changes in oscillatory brain activity before and after tACS application within each session
Timeframe: Measured immediately before and after the tACS protocol in each of six interventions (10 Hz tACS/80 Hz tACS/sham stimulation of the somatosensory/prefrontal cortex), which are separated by at least 24 hrs.