Rein for Pain Lays Mainly in the Brain, Stanford Researchers Find.STANFORD, Calif. -- Chronic pain sufferers may be able to reduce pain levels by studying their own live brain images, researchers at the Stanford University School of Medicine Stanford University School of Medicine is affiliated with Stanford University and is located at Stanford University Medical Center in Stanford, California, adjacent to Palo Alto and Menlo Park. report in a new study. With training and the use of high-tech imaging equipment, subjects were able to influence their pain by controlling activity in one of the pain centers of the brain through the use of mental exercises and by visualizing their own brain activity in real time. Compare it to exercising your muscles in a top-of-the-line weight room. After repeated practice, you get better at it. The scientists are hopeful the new technique may have potential for future use as long-term treatment for chronic pain patients -- possibly even without all the high-tech equipment. They caution that significantly more work is needed before it can be thought of as a clinical treatment. "We believe these subjects and patients really learned to control their brain and, through that, their pain," said Sean Mackey, MD, PhD, assistant professor of anesthesia and co-author of the study to be published in the Dec. 12 online issue of the Proceedings of the National Academy of Sciences The Proceedings of the National Academy of Sciences of the United States of America, usually referred to as PNAS, is the official journal of the United States National Academy of Sciences. . The study posed two questions: "Can healthy subjects and patients with chronic pain learn to control activity in specific regions of their brain? And, in doing so, does this lead to an improved control of their pain?" The answer to both was a resounding re·sound v. re·sound·ed, re·sound·ing, re·sounds v.intr. 1. To be filled with sound; reverberate: The schoolyard resounded with the laughter of children. 2. "Yes." A second, larger study is under way to test the potential for long-term use in future therapy. "Pain has a huge impact on individual patients, their families and society," said Mackey, who is also associate director of Stanford's pain management division. A recent national survey showed that more than half of all Americans suffer from chronic pain. "I got incredibly jazzed by the results (of the imaging study)," Mackey added. "We could change people's lives. However, significantly more science and testing must be done before this can be considered a treatment for chronic pain." Using new technology called real-time functional magnetic resonance imaging functional magnetic resonance imaging n. Abbr. fMRI Magnetic resonance imaging that provides three-dimensional images of the brain based on changes in blood flow and that can be correlated with brain functions. , or rtfMRI, scientists placed subjects inside an MRI 1. (application) MRI - Magnetic Resonance Imaging. 2. MRI - Measurement Requirements and Interface. scanner where they were able to watch their brain activity on a moment-by-moment basis. The subjects were then shown "live" action images of their rostral rostral /ros·tral/ (ros´tral) 1. pertaining to or resembling a rostrum; having a rostrum or beak. 2. situated toward a rostrum or toward the beak (oral and nasal region), which may mean superior (in relationships anterior cingulate cortex The Anterior cingulate cortex (ACC) is the frontal part of the cingulate cortex, which resembles a "collar" form around the corpus callosum, the fibrous bundle that relays neural signals between the right and left cerebral hemispheres of the brain. , an area of the brain responsible for processing pain. Subjects were given various mental strategies to try to change their brain activity. "As an example, we asked them to think about changing the meaning of the pain," Mackey said. "Instead of thinking of it as a terrible experience, to think of it as something relatively pleasant. Then the patients were turned loose. Over time, subjects showed an increased ability to change their brain and by doing so to modulate their pain." How did they do it exactly? "We really don't know Don't know (DK, DKed) "Don't know the trade." A Street expression used whenever one party lacks knowledge of a trade or receives conflicting instructions from the other party. , but then we really don't know how anyone controls their brain to perform an action," Mackey said. Laura Tibbitt, 31, one of the subjects in the study who suffers from chronic back pain caused by a horseback riding horseback riding: see equestrianism. accident seven years ago, said she used different thoughts to decrease the pain while watching her "brain on pain." "I'd think of little people on my back digging out the pain, or I'd think of snowflakes snowflakes small patches of gray or white hair acquired after birth. Skin color is unchanged. See also achromotrichia, vitiligo. ," she said. "The goal was to exercise your brain, to retrain re·train tr. & intr.v. re·trained, re·train·ing, re·trains To train or undergo training again. re·train your brain. Sometimes I felt like I had made a change in my brain. The pain was never completely gone, but it was better." Mackey said extensive controls were used in the study to make sure the results reflected a direct correlation Noun 1. direct correlation - a correlation in which large values of one variable are associated with large values of the other and small with small; the correlation coefficient is between 0 and +1 positive correlation between brain imaging and pain control. "One of the questions that always comes up is, 'Did we just design the world's most expensive placebo?'" Mackey said. Researchers used multiple control groups to ensure against this: The first remained outside the MRI machine; the second received no imaging feedback; the third was shown different areas of the brain that don't process pain, and members of the fourth group were shown someone else's brain activity. None of these control subjects showed an ability to control pain levels. "Real-time functional neuroimaging is a wonderful tool for investigating the neurosystems in the brain responsible for the perception and processing of pain," Mackey said. "It allows us to do that in ways that we've never been able to before." The study, which included 36 healthy subjects and eight subjects with chronic pain, was co-sponsored by researcher Christopher deCharms and his Bay Area company, Omneuron Inc. It was co-funded by the National Institutes of Health and Stanford University. Mackey and his Stanford collaborators have no financial ties to the company. Other Stanford researchers involved in the study include Fumiko Maeda, MD, PhD, research associate; Gary Glover, PhD, professor of radiology, and John Pauly, PhD, associate professor of electrical engineering. Former Stanford collaborators include David Ludlow, Deepak Soneji and John Gabrieli. Stanford University Medical Center Stanford University Medical Center (Stanford Hospital & Clinics) is one of four hospitals affiliated with Stanford University and Stanford University School of Medicine, along with the Lucile Packard Children's Hospital, the Veteran's Administration Hospital in Palo Alto, and Santa integrates research, medical education and patient care at its three institutions -- Stanford University School of Medicine, Stanford Hospital & Clinics and Lucile Packard Children's Hospital Lucile Packard Children's Hospital (LPCH) is a hospital located on the Stanford University campus in Palo Alto, California. It is staffed by over 650 physicians and 4,750 staff and volunteers. at Stanford. For more information, please visit the Web site of the medical center's Office of Communication & Public Affairs at http://mednews.stanford.edu. |
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