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Phantom limb sensation explained

Date:
February 21, 2019
Source:
D'Or Institute for Research and Education
Summary:
After a limb amputation, brain areas responsible for movement and sensation alter their functional communication. This is the conclusion of a new study. The findings may help to understand why some patients report phantom sensations and others do not.
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After a limb amputation, brain areas responsible for movement and sensation alter their functional communication. This is the conclusion of a new study published today in Scientific Reports. According to the authors, from the D'Or Institute for Research and Education (IDOR) and Federal University of Rio de Janeiro (UFRJ), the findings may help to understand why some patients report phantom sensations and others do not.

Entitled "Lower limb amputees undergo long-distance plasticity in sensorimotor functional connectivity," the study represents a step forward a complete comprehension of a phenomenon called brain plasticity, which means the brain's ability to change itself in response to daily life situations. This ability is greater during the early stages of development but is still critical for learning, memory and behavior throughout our whole life. Investigating the underpinnings of brain plasticity is the key to develop new treatments against mental disorders.

In order to go deeper on that, neuroscientists from Brazil decided to investigate the brain after lower limb amputation. In a previous study from the group, a magnetic resonance imaging experiment revealed that the brain overreacts when the stump is touched. Also, they found that the corpus callosum -- brain structure that connects cortical areas responsible for movement and sensations -- loses its strength. These findings have raised curiosity about what would be the impact of an impaired corpus callosum on the cortical areas it connects.

Led by Fernanda Tovar-Moll, radiologist and president at IDOR, researchers investigated the differences in functional connectivity (i.e. the communication of brain areas) among motor and sensitive areas connected by the corpus callosum in nine lower limb amputees and nine healthy volunteers.

The results showed that authors' idea was correct: in response to the touch in the stump, sensitive and motor areas of patients' brains exhibited an abnormal pattern of communication among the right and left hemispheres, probably as a consequence of impaired corpus callosum. In addition, sensitive and motor areas of the same hemisphere showed increased functional communication in amputees.

"The brain changes in response to amputation have been investigated for years in those patients who report the phantom limb pain. However, our findings show that there is a functional imbalance even in the absence of pain, in patients reporting only phantom sensations," explains Ivanei Bramati, medical physicist and Ph.D. student at IDOR.

According to the authors, understanding the changes of neural networks in response to the amputation can pave the way for the development of new technologies and devices to treat this disorder and offer patients a better quality of life.


Story Source:

Materials provided by D'Or Institute for Research and Education. Note: Content may be edited for style and length.


Journal Reference:

  1. Ivanei E. Bramati, Erika C. Rodrigues, Elington L. Simões, Bruno Melo, Sebastian Höfle, Jorge Moll, Roberto Lent, Fernanda Tovar-Moll. Lower limb amputees undergo long-distance plasticity in sensorimotor functional connectivity. Scientific Reports, 2019; 9 (1) DOI: 10.1038/s41598-019-39696-z

Cite This Page:

D'Or Institute for Research and Education. "Phantom limb sensation explained." ScienceDaily. ScienceDaily, 21 February 2019. <www.sciencedaily.com/releases/2019/02/190221145630.htm>.
D'Or Institute for Research and Education. (2019, February 21). Phantom limb sensation explained. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2019/02/190221145630.htm
D'Or Institute for Research and Education. "Phantom limb sensation explained." ScienceDaily. www.sciencedaily.com/releases/2019/02/190221145630.htm (accessed December 21, 2024).

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