Fickle finger's funny feel: digit illusion modifies touch perception.If your left index finger suddenly grew about an inch longer, you'd have good reason to freak out freak out Substance abuse A verb, popularized in the US in the '60s–to experience nightmarish hallucinations including by LSD or a similar drug. See 'Bad trip.', Flashback. . Your brain, however, within seconds would calmly adapt to this bizarre circumstance by altering its map of the body's surface, a new study suggests. The elongated e·lon·gate tr. & intr.v. e·lon·gat·ed, e·lon·gat·ing, e·lon·gates To make or grow longer. adj. or elongated 1. Made longer; extended. 2. Having more length than width; slender. finger's sense of touch would change, according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. an experiment led by neuroscientist Patrick Haggard of University College London “UCL” redirects here. For other uses, see UCL (disambiguation). University College London, commonly known as UCL, is the oldest multi-faculty constituent college of the University of London, one of the two original founding colleges, and the first British . The researchers' conclusion rests on observations of people who underwent arm manipulations that create illusions of finger growth or shrinkage. Even faced with abrupt increases in body size, the brain adjusts its representation of relevant body parts that it uses to interpret touch on the skin, Haggard and his team conclude in the July 26 Current Biology. Parts of the brain's outer layer, or cortex, primarily handle tactile information. The brain modifies its body map for the gradual expansions of skin surface as a child grows, Haggard's team proposes. However, the brain doesn't remap To map something for a second or subsequent time. Quite often, the words "remap" and "map" are used synonymously, even though they refer to an operation that is taking place for the first time. See map. after reductions of skin surface, which would be uncommon, as in amputations. This explains, at least in part, why the brain continues to cause sensations where a limb has been removed, according to the investigators. More typically, though, "the brain's map of the body changes minute by minute and constructs our conscious experience of the external world," Haggard says. The researchers studied 10 volunteers who were blindfolded blind·fold tr.v. blind·fold·ed, blind·fold·ing, blind·folds 1. To cover the eyes of with or as if with a bandage. 2. To prevent from seeing and especially from comprehending. n. 1. and had their right aims put in slings. They were then instructed to hold the tip of their left index finger with their fight index finger and thumb. At the same time, a device vibrated tendons of the biceps muscles, the triceps triceps, any muscle having three heads, or points of attachment, but especially the triceps brachii at the back of the upper arm. One head originates on the shoulder blade and two on the upper-arm bone, or humerus. muscles, or a tendon-free part of the right forearm. Volunteers reported that biceps vibrations elicited an illusion of the right arm extending outward slightly and, therefore, of an elongation of the left index finger. Triceps vibrations induced an illusion of the right arm flexing and shrinkage of the left index finger. Forearm vibrations yielded no bodily illusions. While undergoing vibrations, each participant was touched successively on the left index finger and the forehead with two small metal rods and asked to judge whether the distance between rods on the finger felt bigger or smaller than it did on the forehead. For each condition, finger and forehead rods were the same distance apart in 10 trials and different by 15 millimeters in another 10 trials. When the left index finger felt longer than it really was, participants consistently overestimated the distance between rods placed on that finger. Estimates were usually accurate when the finger felt shorter than it really was and when no illusion occurred. Vilayanur S. Ramachandran Vilayanur S. "Rama" Ramachandran (born 1951) is a neurologist best known for his work in the fields of behavioral neurology and psychophysics. He received a degree in medicine from Stanley Medical College in Madras, India, and later, a Ph.D. from the University of Cambridge. , a neuroscientist at the University of California, San Diego UCSD is consistently ranked among the top ten public universities for undergraduate education in the United States by U.S. News & World Report.[3] It is a Public Ivy. [1] For graduate studies, most of UCSD's Ph.D. , says that the results raise intriguing questions about the malleability of touch perception. For instance, he wonders whether, if two rods were placed on a finger as researchers somehow induced the illusion that the finger was expanding, the perceived distance between the rods would expand proportionately. |
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