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| Meditation and Pain Relief |
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| SciMed - Healthcare | |
| TS-Si News Service | |
| Tuesday, 12 April 2011 15:00 | |
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Winston-Salem, NC, USA. Meditation produces powerful pain-relieving effects in the
 brain, as found when healthy volunteers who had never meditated attended classes to learn a meditation technique known as focused attention.Focused attention is a form of mindfulness meditation where people are taught to attend to the breath and let go of distracting thoughts and emotions. "This is the first study to show that only a little over an hour of meditation training can dramatically reduce both the experience of pain and pain-related brain activation," said Fadel Zeidan, Ph.D., lead author of a study that appears in the Journal of Neuroscience. Zeidan is a post-doctoral research fellow at the Wake Forest Baptist Medical Center. Fadel Zeidan and his study team found meditation had a big effect on pain — about a 40 percent reduction in pain intensity and a 57 percent reduction in pain unpleasantness. Meditation produced a greater reduction in pain than even morphine or other pain-relieving drugs, which typically reduce pain ratings by about 25 percent."For the study, 15 healthy volunteers who had never meditated attended four, 20-minute classes to learn a meditation technique known as focused attention. Focused attention is a form of mindfulness meditation where people are taught to attend to the breath and let go of distracting thoughts and emotions. Both before and after meditation training, study participants' brain activity was examined using a special type of imaging — arterial spin labeling magnetic resonance imaging (ASL MRI) — that captures longer duration brain processes, such as meditation, better than a standard MRI scan of brain function.During these scans, a pain-inducing heat device was placed on the participants' right legs. This device heated a small area of their skin to 120° Fahrenheit, a temperature that most people find painful, over a 5-minute period.
The research also showed that meditation increased brain activity in areas including the anterior cingulate cortex, anterior insula and the orbito-frontal cortex. "These areas all shape how the brain builds an experience of pain from nerve signals that are coming in from the body," said Robert C. Coghill, Ph.D., senior author of the study and associate professor of neurobiology and anatomy at Wake Forest Baptist. "Consistent with this function, the more that these areas were activated by meditation the more that pain was reduced. One of the reasons that meditation may have been so effective in blocking pain was that it did not work at just one place in the brain, but instead reduced pain at multiple levels of processing." Zeidan and colleagues believe that meditation has great potential for clinical use because so little training was required to produce such dramatic pain-relieving effects. "This study shows that meditation produces real effects in the brain and can provide an effective way for people to substantially reduce their pain without medications," Zeidan said. FundingFunding for the study was provided by the Mind and Life Institute in Boulder, Colo., and the Center for Biomolecular Imaging at the Wake Forest Baptist Medical Center.
CitationBrain Mechanisms Supporting the Modulation of Pain by Mindfulness Meditation. Fadel Zeidan, Katherine T. Martucci, Robert A. Kraft, Nakia S. Gordon, John G. McHaffie, Robert C. Coghill. Journal of Neuroscience 2011; 31(14): 5540-5548. doi:10.1523/JNEUROSCI.5791-10.2011
Abstract The subjective experience of one's environment is constructed by interactions among sensory, cognitive, and affective processes. For centuries, meditation has been thought to influence such processes by enabling a nonevaluative representation of sensory events. To better understand how meditation influences the sensory experience, we used arterial spin labeling functional magnetic resonance imaging to assess the neural mechanisms by which mindfulness meditation influences pain in healthy human participants. After 4 d of mindfulness meditation training, meditating in the presence of noxious stimulation significantly reduced pain unpleasantness by 57% and pain intensity ratings by 40% when compared to rest. A two-factor repeated-measures ANOVA was used to identify interactions between meditation and pain-related brain activation. Meditation reduced pain-related activation of the contralateral primary somatosensory cortex. Multiple regression analysis was used to identify brain regions associated with individual differences in the magnitude of meditation-related pain reductions. Meditation-induced reductions in pain intensity ratings were associated with increased activity in the anterior cingulate cortex and anterior insula, areas involved in the cognitive regulation of nociceptive processing. Reductions in pain unpleasantness ratings were associated with orbitofrontal cortex activation, an area implicated in reframing the contextual evaluation of sensory events. Moreover, reductions in pain unpleasantness also were associated with thalamic deactivation, which may reflect a limbic gating mechanism involved in modifying interactions between afferent input and executive-order brain areas. Together, these data indicate that meditation engages multiple brain mechanisms that alter the construction of the subjectively available pain experience from afferent information.
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| Last Updated on Monday, 11 April 2011 11:04 |
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