Emotion
January 1, 2010
D. Perlman, Tim V. Salomons, Richard J. Davidson et al.
203 citations
Pain can be regulated through different cognitive mechanisms. Two meditation practices were compared during noxious heat: Focused Attention, which may regulate negative affect via sensory gating, and Open Monitoring, which may regulate negative affect through nonjudgmental awareness. Long-term meditators, compared to novices, reported significantly less unpleasantness, but not intensity, of pain while practicing Open Monitoring. No significant effects were found for Focused Attention. This finding highlights a possible regulatory mechanism underlying meditation-based clinical interventions such as Mindfulness-Based Stress Reduction.
American Journal of Psychiatry
July 28, 2022
Joseph Wielgosz, Tammi R. A. Kral, D. Perlman et al.
21 citations
Mindfulness-based stress reduction (MBSR) reduced neural pain responses in healthy adults compared to an active control program. In a randomized trial with 115 participants, MBSR produced a moderate decrease in the neurologic pain signature (NPS) relative to a health enhancement program (Cohen's d=-0.43) and from before to after the intervention (d=-0.47). Subjective pain unpleasantness also decreased modestly in both MBSR and the active control compared to a waiting list. Long-term meditators reported lower pain than nonmeditators but showed no difference in neural pain signatures. Among long-term meditators, cumulative practice during intensive retreats, but not daily practice, was linked to reduced stimulus-independent pain processing (r=-0.65).
Frontiers in Psychology
January 28, 2021
Dylan Thomas Lott, Tenzin Yeshi, N. Norchung et al.
18 citations
Recent EEG studies on the early postmortem interval suggest the persistence of electrophysiological coherence and connectivity in the brain of animals and humans, reinforcing the need for further investigation of brain activity during the dying process. Under the direction of the Center for Healthy Minds at the University of Wisconsin-Madison, research was conducted in India on a postmortem meditative state (tukdam) cultivated by some Tibetan Buddhist practitioners, in which decomposition is putatively delayed. For healthy baseline and postmortem subjects, resting state EEG, mismatch negativity, and auditory brainstem response data were collected. Living subjects displayed well-defined MMN and ABR responses, but no recognizable EEG waveforms were discernable in any of the tukdam cases.