Posts tagged brain
Articles and news from the latest research reports.
The patient, known only as TN, was left blind after damage to the visual (striate) cortex in both hemispheres of the brain following consecutive strokes. His eyes are normal but his brain cannot process the information they send in, rendering him totally blind.
Researchers say TN’s successful performance was an example of the phenomenon “blindsight,” and say it suggests that some small amount of information is being transmitted from his undamaged eyes to a more primitive part of his brain, which operates beneath the level of consciousness.
See video
(Credit: audiodude)
Brain at rest by Martijn Steenwijk (Winner Art of Neuroscience 2012)
Unique Cell Type Implicated in Multiple Sclerosis
The new study, published in Science Translational Medicine, shows that one effect of daclizumab is to thin the ranks of lymphoid tissue inducer (LTi) cells. These cells are known to promote the development of lymph nodes and related tissues during fetal life, but their role during adulthood has been unclear. The new study marks the first time that LTi cells have been implicated in any human autoimmune disorder.
"While further study is required to confirm the role of LTi cells in autoimmunity, our results point to the cells as a promising target for the development of new drugs to treat autoimmune disorders," said Bibiana Bielekova, M.D., an investigator at NIH’s National Institute of Neurological Disorders and Stroke (NINDS).
Scientists Turn Fly Neurons Into Gorgeous Art
Using technology affectionately dubbed “Brainbow,” scientists can color-code individual neurons inside the tiny brain of a fruit fly.
Fruit Flies On Methamphetamine Die Largely as a Result of Anorexia
The abuse of methamphetamine can have significant harmful side effects in humans. It burdens the body with toxic metabolic byproducts and weakens the heart, muscles and bones. It alters energy metabolism in the brain and kills brain cells.
Previous studies have shown that the fruit fly Drosophila melanogaster is a good model organism for studying the effects of methamphetamine on the body and brain. Researchers have found that meth exposure has similar toxicological effects in fruit flies and in humans and other mammals.
Coffee May Help Some Parkinson’s Disease Movement Symptoms, Research Suggests
"Studies have shown that people who use caffeine are less likely to develop Parkinson’s disease, but this is one of the first studies in humans to show that caffeine can help with movement symptoms for people who already have the disease," said study author Ronald Postuma, MD, MSc, with McGill University in Montreal and the Research Institute of the McGill University Health Center. Postuma is also a member of the American Academy of Neurology.
Predicting recovery after stroke
August 1, 2012
(Medical Xpress) — In work that may revolutionise rehabilitation for stroke patients, researchers from The University of Auckland and the Auckland District Health Board have shown it is possible to predict an individual’s potential for recovery of hand and arm function after a stroke.
The new approach can be used to personalise rehabilitation so that patients and therapists set realistic goals for recovery. It may also improve outcomes of trials that evaluate new therapies, by identifying patients who are most likely to respond to specific treatments.
“One in six people worldwide will have a stroke in their lifetime,” says principal investigator Professor Winston Byblow. “After stroke, impairment of the arm and hand is very common and has a major impact on independence and quality of life.
“Until now it has only been possible to group patients together according to their broad similarity to others who have already gone through upper limb rehabilitation, but this information cannot inform an individual patient’s rehabilitation plan. We have developed the first clinical algorithm to actually predict the individual patient’s potential for recovery based on information gathered before rehabilitation begins.”
The lead author of the study, Dr Cathy Stinear explains: “The algorithm begins with a bedside test within three days of stroke. The test takes only a few minutes and requires no special equipment. This is sufficient to provide a prediction for many patients, but for others an additional test is required to measure the integrity of neural pathways from the brain to the arm. If this test gives no definitive result, an MRI assessment can be performed to better determine whether the pathways in the stroke-damaged side of the brain remain viable.”
The research team have trialled the process in patients and followed their recovery. “When the tests are combined in our stepwise algorithm they accurately predict each patient’s recovery at 12 weeks, which is around the time that therapy normally ends,” says Dr Stinear.
Neurologist Professor Alan Barber, a member of the research team and Head of the Auckland Hospital Stroke Service, says that the findings are very significant. “This is the first study to predict an individual’s potential for motor recovery using measures obtained from that patient in the initial days after stroke. This information can be used to tailor rehabilitation before it begins.”
The team is now involved in a three-year trial of the algorithm within the hospital. The results will show whether the algorithm leads to improved outcomes for patients and increases the efficiency of rehabilitation services.
Provided by University of Auckland
Source: medicalxpress.com
Artificial Butter Flavoring Ingredient Linked to Key Alzheimer’s Disease Process
A new study raises concern about chronic exposure of workers in industry to a food flavoring ingredient used to produce the distinctive buttery flavor and aroma of microwave popcorn, margarines, snack foods, candy, baked goods, pet foods and other products. It found evidence that the ingredient, diacetyl (DA), intensifies the damaging effects of an abnormal brain protein linked to Alzheimer’s disease. The study appears in ACS’ journal Chemical Research in Toxicology.
Alzheimer’s villain cures multiple sclerosis in mice
A notorious biochemical villain has just revealed its heroic side. Beta-amyloid, a misfolded protein fragment blamed for killing brain cells in Alzheimer’s disease, has reversed the symptoms of mice suffering from the rodent equivalent of multiple sclerosis (MS).
MS occurs when the immune system mistakenly attacks the fatty myelin sheaths around nerve fibres that serve as electrical insulation. Without this insulation, nervous impulses falter, leading to physical and cognitive problems. Myelin increases the speed at which electrical impulses travel around the body.
As it is destroyed, nerve communication falters, leading to physical and cognitive problems. Lawrence Steinman of Stanford University in California had expected amyloid-beta to exacerbate this damage, given that it is toxic to neurons and builds up where myelin sheaths are being destroyed.
How the Brain and Nerve Cells Change During Alzheimer’s Disease
One of the hallmarks of Alzheimer’s disease is the accumulation of amyloid plaques between nerve cells (neurons) in the brain. Beta amyloid is a fragment of a protein snipped from another protein called amyloid precursor protein (APP). In a healthy brain, these protein fragments would break down and be eliminated. In Alzheimer’s disease, the fragments accumulate to form hard, insoluble plaques.
Neurofibrillary tangles are insoluble twisted fibers found inside the brain’s nerve cells. They primarily consist of a protein called tau, which forms part of a structure called a microtubule. The microtubule helps transport nutrients and other important substances from one part of the nerve cell to another. Axons are long threadlike extensions that conduct nerve impulses away from the nerve cell; dendrites are short branched threadlike extensions that conduct nerve impulses towards the nerve cell body. In Alzheimer’s disease the tau protein is abnormal and the microtubule structures collapse.
As Alzheimer’s disease spreads through the cerebral cortex (the outer layer of the brain), judgment worsens, emotional outbursts may occur and language is impaired. Memory worsens and may become almost non-existent. On average, those with Alzheimer’s live for 8 to 10 years after diagnosis, but this terminal disease can last for as long as 20 years.