The purpose of this study is to determine whether real-time functional magnetic resonance imaging may be a viable treatment for chronic pain in the future.
Twenty-four healthy volunteers will undergo a series of four fMRI scanning sessions wherein thermal pain stimuli will be used to elicit activation of the pain neuro-matrix. All participants will undergo thermal pain threshold testing before and after fMRI scan. Participants will also rate the painfulness and unpleasantness of the thermal stimuli applied before fMRI and after fMRI. All participants will be given prompts to apply a set of cognitive pain-control strategies. Half of the participants will receive real-time fMRI feedback of activity in the Right Anterior Cingulate Cortex (rACC) and the other half will receive real-time fMRI feedback of activity in the Prefrontal Cortex (PFC). It is hypothesized that those receiving real-time feedback of brain activity thought to be involved with analgesic effects will demonstrate greater analgesia associated with the application of the cognitive control techniques after fMRI paradigm (decreased pain intensity and unpleasantness ratings and increased thermal pain thresholds) than those who are not given feedback before fMRI paradigm.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
OTHER
Masking
NONE
Enrollment
20
One of three Cognitive Pain Inhibition Strategies. The Participant will be instructed to attend away from the thermal stimulus (for example, to the other side of the body). Vividly imagine they are somewhere else, or engage in a high-demanding mental task such as counting backward by 7's or completing math problems to distract from the experience
One of three Cognitive Pain Inhibition Strategies. The Participant will be instructed to attempt to perceive the stimulus as a neutral sensory experience rather than pain. Attempt to perceive the stimulus as low intensity rather than high intensity.
Medical University of South Carolina
Charleston, South Carolina, United States
Average Unpleasantness
All participants will undergo thermal pain threshold testing directly before (Baseline) and after MRI. Participants will be asked to rate pain unpleasantness, on a scale of 0-10, before the fMRI Paradigm (Baseline) and directly after the fMRI paradigm (after MRI). 0="no unpleasantness" and 10="worst unpleasantness imaginable"
Time frame: Before and After fMRI Paradigm, an average of 2 hours
Average Pain Rating
All participants will undergo thermal pain threshold testing directly before (Baseline) and after MRI scan.Participants will be asked to rate painfulness of the thermal stimuli applied, on a scale of 0-10, before the fMRI Paradigm (Baseline) and directly after the fMRI paradigm (after MRI). 0="no pain" and 10="worst pain imaginable"
Time frame: Before and After fMRI Paradigm, an average of 2 hours
Ability to Distract
All participants will undergo thermal pain threshold testing before and after fMRI paradigm. Participants will rate the ability to distract themselves from the thermal stimuli, on a scale of 0-10, before fMRI paradigm (Baseline) and after fMRI paradigm, 0="not able to distract at all" and 10="completely able to distract". A Higher rating represents greater ability to distract from thermal pain stimuli.
Time frame: Before and After fMRI Paradigm, an average of 2 hours
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One of three Cognitive Pain Inhibition Strategies. The Participant will be instructed to attempt to take control of their perception of the painful experience.