Emotional modulation of experimental pain: a source imaging study of laser evoked potentials

Stančák, Andrej; Fallon, Nicholas

doi:10.3389/fnhum.2013.00552

Cited by 27 publications

(25 citation statements)

References 88 publications

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“…One potential explanation is that modulation occurs at the spinal level. Previous investigations have demonstrated increases in nociception during unpleasant auditory2258, visual1215232459, and olfactory conditioning60. Closely related to our observations, unpleasant visual stimuli have been shown to increase perception and the amplitude of electrical evoked pain related potentials23.…”

Section: Discussionsupporting

confidence: 89%

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Thermal grill conditioning: Effect on contact heat evoked potentials

Jutzeler

Warner

Wanek

et al. 2017

Sci Rep

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The ‘thermal grill illusion’ (TGI) is a unique cutaneous sensation of unpleasantness, induced through the application of interlacing warm and cool stimuli. While previous studies have investigated optimal parameters and subject characteristics to evoke the illusion, our aim was to examine the modulating effect as a conditioning stimulus. A total of 28 healthy control individuals underwent three testing sessions on separate days. Briefly, 15 contact heat stimuli were delivered to the right hand dorsum, while the left palmar side of the hand was being conditioned with either neutral (32 °C), cool (20 °C), warm (40 °C), or TGI (20/40 °C). Rating of perception (numeric rating scale: 0–10) and evoked potentials (i.e., N1 and N2P2 potentials) to noxious contact heat stimuli were assessed. While cool and warm conditioning decreased cortical responses to noxious heat, TGI conditioning increased evoked potential amplitude (N1 and N2P2). In line with other modalities of unpleasant conditioning (e.g., sound, visual, and olfactory stimulation), cortical and possibly sub-cortical modulation may underlie the facilitation of contact heat evoked potentials.

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Section: Discussionsupporting

confidence: 89%

“…Neuroimaging investigations have demonstrated activation in prominent brain areas, including the anterior cingulate cortex (ACC)11. Activation in the ACC during the TGI is notable because this area has been implicated in processing unpleasant visual, auditory, and olfactory stimuli12131415.…”

mentioning

confidence: 99%

Thermal grill conditioning: Effect on contact heat evoked potentials

Jutzeler

Warner

Wanek

et al. 2017

Sci Rep

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“…Source analysis of the alpha range that characterizes the “weightlessness” condition revealed significant cerebellar activation with respect to the “Earth” condition. Cerebellar involvement, documented by source reconstruction, has been reported in other electroencephalogram investigations5639. The fact that this cerebellar activation was not identified in the source analysis of the alpha-mu ERD with respect to the baseline (i.e.…”

Section: Discussionmentioning

confidence: 56%

“…Oscillations represent “universal codes” based on which communication is established in the central nervous system by local-global communication that takes into account pre-existent endogenous ongoing constraints1234. Brain dynamics may be non-invasively approached, including in the cerebellum, thanks to electroencephalography (EEG)56. EEG oscillations represent direct signals from the global electrical neural activity.…”

mentioning

confidence: 99%

“Cerebellar contribution to visuo-attentional alpha rhythm: insights from weightlessness”

Cebolla

Petieau

Dan

et al. 2016

Sci Rep

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Human brain adaptation in weightlessness follows the necessity to reshape the dynamic integration of the neural information acquired in the new environment. This basic aspect was here studied by the electroencephalogram (EEG) dynamics where oscillatory modulations were measured during a visuo-attentional state preceding a visuo-motor docking task. Astronauts in microgravity conducted the experiment in free-floating aboard the International Space Station, before the space flight and afterwards. We observed stronger power decrease (~ERD: event related desynchronization) of the ~10 Hz oscillation from the occipital-parietal (alpha ERD) to the central areas (mu ERD). Inverse source modelling of the stronger alpha ERD revealed a shift from the posterior cingulate cortex (BA31, from the default mode network) on Earth to the precentral cortex (BA4, primary motor cortex) in weightlessness. We also observed significant contribution of the vestibular network (BA40, BA32, and BA39) and cerebellum (lobule V, VI). We suggest that due to the high demands for the continuous readjustment of an appropriate body posture in free-floating, this visuo-attentional state required more contribution from the motor cortex. The cerebellum and the vestibular network involvement in weightlessness might support the correction signals processing necessary for postural stabilization, and the increased demand to integrate incongruent vestibular information.

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“…The evoked potentials are generated by components of both the ascending medial and lateral pain pathways (i.e., the anterior cingulate, insula, and somatosensory cortex ). The P2 is not only generated by the dorsal Anterior Cingulate Cortex (dACC) and insula but also by the pregenual Anterior Cingulate Cortex (ACC) , part of the descending antinociceptive system. Therefore, it could reflect the balance between ascending and descending pain processing pathways.…”

Section: Introductionmentioning

confidence: 99%