Tag: stroke

Weekly Neuroscience Update

Advertisers and public health officials may be able to access hidden wisdom in the brain to more effectively sell their products and promote health and safety, UCLA neuroscientists report in the first study to use brain data to predict how large populations will respond to advertisements.

A team led by psychology professor Ian Spence at the University of Toronto reveals that playing an action videogame, even for a relatively short time, causes differences in brain activity and improvements in visual attention.

A miniature atom-based magnetic sensor developed by the National Institute of Standards and Technology (NIST) has passed an important research milestone by successfully measuring human brain activity. Experiments reported this week inBiomedical Optics Express verify the sensor’s potential for biomedical applications such as studying mental processes and advancing the understanding of neurological diseases.

A key protein, which may be activated to protect nerve cells from damage during heart failure or epileptic seizure, has been found to regulate the transfer of information between nerve cells in the brain. The discovery, made by neuroscientists at the University of Bristol and published in Nature Neuroscience and PNAS, could lead to novel new therapies for stroke and epilepsy.

Practices like physical exercise, certain forms of psychological counseling and meditation can all change brains for the better, and these changes can be measured with the tools of modern neuroscience, according to a review article now online at Nature Neuroscience.

A computer game designed to lift teenagers out of depression is as effective as one-on-one counselling, New Zealand doctors reported on Thursday in the British Medical Journal (BMJ).

Weekly Round-Up

Researchers believe they found a link between the volume of one’s cerebellum and general intelligence. The cerebellum is involved in the coordination of voluntary motor movement, balance and equilibrium and muscle tone. It is located just above the brain stem and toward the back of the brain.

A small but promising study suggests that magnetic stimulation of the brain could aid the recovery of some stroke patients.

Treatment that increases brain levels of an important regulatory enzyme may slow the loss of brain cells that characterizes Huntington’s disease (HD) and other neurodegenerative disorders.

How much do babies remember about the world around them? New research reveals that even though infants can’t remember the details of an object that has been hidden from view, their brains have built-in “pointers” that help them retain the idea that the object still exists even though they can’t see it anymore.

Neuroscience research involving epileptic patients with brain electrodes surgically implanted in their medial temporal lobes shows that patients learned to consciously control individual neurons deep in the brain with thoughts.

Loyola University Medical Center researchers are reporting what could become the first reliable method to predict whether an antidepressant will work on a depressed patient.

How we perceive motion is a significantly more complex process than previously thought, researchers at New York University’s Center for Neural Science, Stanford University and the University of Washington have found. Their results, which appear in the journalCurrent Biology, show that the relationship between the brain and visual perception varies, depending on the type of motion we are viewing.

After birth, the developing brain is largely shaped by experiences in the environment. However, neurobiologists at Yale and elsewhere have also shown that for many functions the successful wiring of neural circuits depends upon spontaneous activity in the brain that arises before birth independent of external influences.

Weekly Round Up

Image Source: The Dana Foundation

Our senses of sight and hearing work closely together, perhaps more than people realize, a new UCLA psychology study shows.

A team of neurobiologists  has shown for the first time that cortex, the largest area of the brain that is typically associated with higher functions such as perception and cognition, is also a prominent site of emotional learning.

Tiny electric currents applied across regions of the brain can improve hand movements in recovering stroke patients for a short period, an Oxford University study has demonstrated.

For the first time, scientists have proven that cannabis harms the brain. But the same study challenges previously-held assumptions about use of the drug, showing that some brain irregularities predate drug use.

How might keeping patients awake during surgery lead to the more successful removal of brain tumours? James Keidel, in his shortlisted entry for the 2011 Wellcome Trust Science Writing Prize, explains.

Researchers from the University of Bristol have discovered that a chemical compound in the brain can weaken the synaptic connections between neurons in a region of the brain important for the formation of long-term memories. The findings, published in the Journal of Neuroscience, may also provide a potential explanation for the loss of memory associated with Alzheimer’s.

Weekly Round Up

 

 

Is the internet changing the way we think?

In this week’s round-up of the latest discoveries in the field of neuroscience – the evolutionary nature of the brain, how blind people see with their ears, the neuroscience of humour, and how the internet is changing the way we think.

Interesting post on the evolutionary nature of the brain here

Scientists say they have discovered a “maintenance” protein that helps keep nerve fibres that transmit messages in the brain operating smoothly. The University of Edinburgh team says the finding could improve understanding of disorders such as epilepsy, dementia, MS and stroke.

Neuropsychologist, Dr. Olivier Collignon has proved that some blind people can “see” with their ears.  He compared the brain activity of people who can see and people who were born blind, and discovered that the part of the brain that normally works with our eyes to process vision and space perception can actually rewire itself to process sound information instead.

A growing body of scientific evidence indicates that we have much more control over our minds, personalities and personal illnesses than was ever believed to exist before, and it is all occurring at the same time that a flood of other research is exposing the benefits of humor on brain functioning. Nichole Force has written  a post in Psych Central on Humor, Neuroplasticity and the Power To Change Your Mind.

And finally, is the internet changing the way we think? American writer Nicholas Carr believes so and his claims that the internet is not only shaping our lives but physically altering our brains has sparked a debate in the Guardian.

New drop-in centre for patients with neurological disorders

TV3 presenter Sinead Desmond, pictured at the launch of a patient drop-in centre by the Dublin Neurological Institute this week

TV3 presenter Sinead Desmond spoke this week of her near-fatal brain haemorrhage nearly three years ago. At the launch of Ireland’s first drop-in centre for people with neurological disorders, she spoke of her gratitude at emerging  unscathed with no brain damage from the experience.

“I have been blessed with a 100pc recovery,” she said. “I met people since who had similar brain haemorrhages and suffered from brain injuries. The recovery can be tough.”

The new centre is housed within the Dublin Neurological Institute at the Mater Hospital in Eccles Street. People with neurological conditions, which include epilepsy, stroke, acquired brain injury, multiple sclerosis, dementia and motor neurone disease, can call in without having to be referred by a GP. They will be able to speak to a specialist nurse, and get free medical information and support.

National Brain Awareness Week runs until Sunday.

Neuroscience research may help brain injury recovery

New research shows that the way the brain first captures and encodes a situation or event is quite different from how it processes subsequent similar events.

I was interested to read a special report from the Center for Neuro Skills which describes the latest developments into how the brain registers new memory and equally importantly, how it strengthens older memories.

It has been known for years that the so-called NMDA receptor – a  lock on the skin of the nerve cell which is ‘opened’ by a special key – the neurotransmitter glutamate – is involved in new learning and memory.

However this research shows that the way the brain first captures and encodes a situation or event is quite different from how it processes subsequent similar events,  and suggests a whole new NMDA-independent system involving the so-called AMPA receptor – a less powerful type of NMDA receptor –  involved in strengthening older memories.
Why is this so important?   

Well, this new system is known to be critically involved in Alzheimer’s disease and other kinds of brain deficit memory impairment including stroke and head injury.

In fact, you may be interested to know that several drug companies have developed drugs that open the AMPA receptors called ampakines – a class of compounds known to enhance attention span and alertness, and facilitate learning and memory.

Unlike earlier stimulants such as caffeine, methylphenidate (Ritalin), and the amphetamines, ampakines do not seem to have unpleasant, long-lasting side effects such as sleeplessness.

These new memory enhancing drugs will be coming to a pharmacy near you within the next few years!

Don’t forget!