Friday, December 2, 2011

How phantom limbs form



NEUROSCIENCE RESEARCH AUSTRALIA   

kyoshino_-_arm
The state of nerves in the limb during the formation of the phantom is crucial in determining how it develops. 
Image: kyoshino/iStockphoto
New studies on how phantom limbs form show there is no default position that the phantom moves into after it forms.

"Our research suggests that the state of nerves in the limb at the time the phantom is forming is very important in determining how the phantom develops," says Prof Simon Gandevia from Neuroscience Research Australia (NeuRA).

Because distortions of body image, such as phantom limbs, are difficult to treat, a better understanding of the mechanisms behind their formation will help developing more effective treatments.

What is a phantom limb?
  • A person has a 'phantom limb' when they continue to perceive sensations in their limb even when the body part is no longer there, such as after amputation.
  • A phantom limb can also develop when the sensory system no longer functions properly, such as in a complete spinal cord injury or after administration of an anaesthetic.
  • People usually perceive their phantom limbs to be in distinct positions, and often experience pain in the limb – however, the cause of this is not well understood.
Prof Gandevia and colleague Dr Lee Walsh conducted a study in which they temporarily anaesthetised participants' hands to induce a phantom limb.

The team found that the state of the nerves – i.e. how much they were being stimulated – over the period when participants were losing sensation in their hand was key in determining the final perceived position of the phantom hand.

"This might also be true for phantom pain," says Prof Gandevia. "In other words, the amount and type of nerve stimulation around the time of amputation or injury could also be important in determining the type and degree of pain perceived in the phantom limb."

'Dynamic changes in the perceived posture of the hand during ischaemic anaesthesia of the arm' was published (1 Dec 2011) in The Journal of Physiology.
Editor's Note: Original news release can be found here.

No comments:

Post a Comment