Published in the journal Psychological Science, the research shows that viewing your hand reduces the pain experienced when a hot object touches the skin. Furthermore, the level of pain depends on how large the hand looked -- the larger the hand the greater the effect of pain reduction.
Flavia Mancini, the first author of the study, said "The image that the brain forms of our own body has a strong effect on the experienced level of pain. Moreover, the way the body is represented influences the level of pain experienced."
During the experiment, 18 participants had a heat probe placed on their left hand. The probe temperature was gradually increased, and participants stopped the heat by pressing a foot pedal as soon as they began to feel pain. The scientists used a set of mirrors to manipulate what the participants saw during the experiment. Participants always looked towards their left hand, but they either saw their own hand, or a wooden object appearing at the hand's location.
The team found that simply viewing the hand reduced pain levels: the pain threshold was about 3°C higher when looking at the hand, compared to when looking at another object.
Next, the team used concave and convex mirrors to show the hand as either enlarged or reduced in size. When the hand was seen as enlarged, participants tolerated even greater levels of heat from the probe before reporting pain. When the hand was seen as smaller than its true size, participants reported pain at lower temperatures than when viewing the hand at its normal size.
This suggests that the experience of pain arises in parts of the brain that represent the size of the body. The scientists' 'visual trick' may have influenced the brain's spatial maps of the skin. The results suggest that the processing of pain is closely linked to these brain maps of the skin.
Professor Patrick Haggard said: "Many psychological therapies for pain focus on the painful stimulus, for example by changing expectations, or by teaching distraction techniques. However, thinking beyond the stimulus that causes pain, to the body itself, may have novel therapeutic implications. For example, when a child goes to the doctor for a blood test, we tell them it will hurt less if they don't look at the needle. Our results suggest that they should look at their arm, but they should try to avoid seeing the needle, if that is possible!"
For more info- http://www.sciencedaily.com/releases/2011/02/110210094913.htm
Flavia Mancini, the first author of the study, said "The image that the brain forms of our own body has a strong effect on the experienced level of pain. Moreover, the way the body is represented influences the level of pain experienced."
During the experiment, 18 participants had a heat probe placed on their left hand. The probe temperature was gradually increased, and participants stopped the heat by pressing a foot pedal as soon as they began to feel pain. The scientists used a set of mirrors to manipulate what the participants saw during the experiment. Participants always looked towards their left hand, but they either saw their own hand, or a wooden object appearing at the hand's location.
The team found that simply viewing the hand reduced pain levels: the pain threshold was about 3°C higher when looking at the hand, compared to when looking at another object.
Next, the team used concave and convex mirrors to show the hand as either enlarged or reduced in size. When the hand was seen as enlarged, participants tolerated even greater levels of heat from the probe before reporting pain. When the hand was seen as smaller than its true size, participants reported pain at lower temperatures than when viewing the hand at its normal size.
This suggests that the experience of pain arises in parts of the brain that represent the size of the body. The scientists' 'visual trick' may have influenced the brain's spatial maps of the skin. The results suggest that the processing of pain is closely linked to these brain maps of the skin.
Professor Patrick Haggard said: "Many psychological therapies for pain focus on the painful stimulus, for example by changing expectations, or by teaching distraction techniques. However, thinking beyond the stimulus that causes pain, to the body itself, may have novel therapeutic implications. For example, when a child goes to the doctor for a blood test, we tell them it will hurt less if they don't look at the needle. Our results suggest that they should look at their arm, but they should try to avoid seeing the needle, if that is possible!"
For more info- http://www.sciencedaily.com/releases/2011/02/110210094913.htm