Conditioned pain modulation of pressure pain is associated with reduced activation in the parietal operculum and posterior insula

Abstract

AbstractConditioned pain modulation (CPM) is the phenomenon of pain inhibiting further pain. CPM is impaired in patients suffering from various chronic pain conditions and may resemble a pro-nociceptive profile. A possible neural mechanism for CPM is descending control from cortical regions via brainstem that modulates neural activity at the level of the dorsal horn of the spinal cord where noxious input first arrives. We studied the involvement of the descending pain modulatory pathway by simultaneous functional imaging of the brain, brainstem, rostral medulla, and cervical spinal cord during CPM with pressure cuff algometry in 42 healthy human participants. Subjective CPM as measured by decreased pain ratings developed over the experiment with application of repeated short test stimuli for long conditioning pain compared with non-painful conditioning. Test stimuli paired with painful conditioning were associated with decreased BOLD fMRI activity in the parietal operculum (secondary somatosensory cortex) and posterior insula, as well as increased responses in bilateral primary somatosensory cortices. Subjective CPM reflected in pain ratings was associated with decreased test stimulus responses in somatosensory and pain-responsive brain regions such as the anterior and posterior insula and the parietal operculum. Conditioning pain and test pain were associated with increased neural activity in stimulus-ipsilateral spinal cord dorsal horn at segment C6 and C4, respectively. No evidence for neural correlates of CPM or associations with subjective CPM was observed in the spinal cord. Functional connectivity between the brain and spinal cord was altered during both conditioning and test pain but did not depend on conditioning intensity. Taken together, we observed neural activity associated with both negative (CPM) and positive modulation of pain in different somatosensory and pain-associated brain regions, and an association of these and other neural responses with subjective CPM. While we found that painful stimuli altered the connectivity along the descending pain modulatory pathway, we did not find evidence for a modulation by conditioning intensity nor neural correlates of CPM in the spinal cord.