Neurons and other nervous system
11/17/07
Brain Compensatory Mechanisms Enhance The Recovery From Spinal Cord Injury
Brain compensatory mechanisms contribute to recovery from spinal cord injury. The basis of neurorehabilitation relies on the concept that training recruits remaining intact neuronal systems to compensate for partial injury to the spinal cord or brain.
Imaging Neural Progenitor Cells In The Living Human Brain
For the first time, investigators have identified a way to detect neural progenitor cells, which can develop into neurons and other nervous system cells, in the living human brain using a type of imaging called magnetic resonance spectroscopy. The finding may lead to improved diagnosis and treatment for depression, Parkinson's disease, brain tumors, and a host of other disorders.
(pharmareleas.blogspot.com)
Brain compensatory mechanisms contribute to recovery from spinal cord injury. The basis of neurorehabilitation relies on the concept that training recruits remaining intact neuronal systems to compensate for partial injury to the spinal cord or brain.
Imaging Neural Progenitor Cells In The Living Human Brain
For the first time, investigators have identified a way to detect neural progenitor cells, which can develop into neurons and other nervous system cells, in the living human brain using a type of imaging called magnetic resonance spectroscopy. The finding may lead to improved diagnosis and treatment for depression, Parkinson's disease, brain tumors, and a host of other disorders.
(pharmareleas.blogspot.com)
Labels: genetic, spinal cord, treatment disorders
