| Alzheimer's disease (100) |  |
| Brain damage (21) | |
| Brain disorder (23) | |
| Brain injury (51) | |
| Cerebral palsy (21) | |
| Epilepsy (122) | |
| Meningitis (38) | |
| Neuropathy (13) | |
| Paralysis (139) | |
| Parkinson's disease (78) | |
| Tinnitus (15) | |
| Alzheimer's disease (100) | |
| Brain damage (21) | |
| Brain disorder (23) | |
| Brain injury (51) | |
| Cerebral palsy (21) | |
| Epilepsy (122) | |
| Meningitis (38) | |
| Neuropathy (13) | |
| Paralysis (139) | |
| Parkinson's disease (78) | |
| Tinnitus (15) | |
and provides a new way to study both the normal brain and brain disorders such as epilepsy and autism.
#Genetic Brain disorders Converge at the Synapse Several genetic disorders cause intellectual disability and autism. Historically, these genetic brain diseases were viewed as untreatable.
The new approach, described May 18 in Nature Methods, could also help neuroscientists learn more about the biological basis of brain disorders. e don really know
for any brain disorder, the exact set of cells involved, Boyden says. he ability to survey activity throughout a nervous system may help pinpoint the cells
or networks that are involved with a brain disorder, leading to new ideas for therapies. Boyden team developed the brain-mapping method with researchers in the lab of Alipasha Vaziri of the University of Vienna and the Research Institute of Molecular Pathology in Vienna.
#New findings reveal genetic brain disorders converge at the synapse Picower Institute for Learning and Memory January 12,
#See-through one-atom-thick carbon electrodes powerful tool to study brain disorders Researchers from the Perelman School of medicine and School of engineering at the University of Pennsylvania and The Children's Hospital of Philadelphia have used graphene
Understanding how cells release those signals in less than one-thousandth of a second could help launch a new wave of research on drugs for treating brain disorders.
Breakthrough could lead to better treatment for brain disorders Scientists have created super-intelligent mice by altering a single gene.
and fibres will prove to be a valuable research tool for non-animal testing of new drugs and investigating brain disorders such as Alzheimer's.
#Another Fatal Brain Disease May Come from the Spread of'Prion'Proteins A rare and fatal brain disorder called multiple system atrophy (MSA) may be caused by a newly discovered prion, a protein similar to the ones
but brain disorders like schizophrenia, and degenerative brain disease. ACES Director and research author Professor Gordon Wallace said that the breakthrough is significant progress in the quest to create a bench-top brain that will enable important insights into brain function,
And age-related inflammation of the brain is implicated in many brain disorders. To tackle both problems in one go,
#Electronic micropump to deliver treatments deep within the brain Drugs constitute the most widely used approach for treating brain disorders.
but brain disorders like schizophrenia, and degenerative brain disease. Researchers have completed now 3-D printing a six-layered structure similar to brain tissue, in
but brain disorders like schizophrenia, and degenerative brain disease. ACES Director and research author Professor Gordon Wallace said that the breakthrough is significant progress in the quest to create a bench-top brain that will enable important insights into brain function,
Drugs constitute the most widely used approach for treating brain disorders. However, many promising drugs failed during clinical testing for several reasons:
and given its connection to other brain regions it could lend insight into the relationship between olfactory loss and many brain disorders.
Researchers are finally beginning to gain some scientific understanding of many common brain disorders, including schizophrenia.
touted the results as a turning point in how we view brain disorders. ive years ago, we didn know a single gene related to these psychiatric diseases,
Alzheimer's is one of the common brain disorders that affects nearly 35 million people worldwide. By 2050, experts said,
as well as other brain disorders, can offer new insights.''This study speaks to the importance of using human cells to bring a better understanding of the pathophysiology of autism and, with that, possibly better treatments. e
brain disorders, blindness and muscular dystrophy. MITOCHONDRIAL DNA is separate from DNA found in the cell nucleus and does not affect human characteristics such as hair or eye color, appearance or personality traits."
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