Category: Schizophrenia

Weekly Neuroscience Update

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This image shows an overview of the Rehabilitation Gaming System. Image credit: Rehabilitation Gaming System.

This image shows an overview of the Rehabilitation Gaming System. Image credit: Rehabilitation Gaming System.

Using virtual reality to increase a patient’s confidence in using their paralyzed arm may be critical for recovery, according to research published in the open-access Journal of  NeuroEngineering and Rehabilitation.

A pioneering study conducted by leading researchers at the University of Sheffield has revealed blood types play a role in the development of the nervous system and may cause a higher risk of developing cognitive decline. The findings  seem to indicate that people who have an ‘O’ blood type are more protected against the diseases in which volumetric reduction is seen in temporal and mediotemporal regions of the brain like with Alzheimer’s disease for instance.

A star-shaped brain cell called an astrocyte appears to help keep blood pressure and blood flow inside the brain on a healthy, even keel, scientists report.

Thanks to advances in brain imaging technology, we now know how specific concrete objects are coded in the brain, to the point where we can identify which object, such as a house or a banana, someone is thinking about from its brain activation signature.

A new study finds some people can be trained to learn absolute pitch.

Scientists have discovered a previously unknown link between the brain and the immune system that could help explain links between poor physical health and brain disorders including Alzheimer’s and depression.

A team of neuroscientists has determined how a pair of growth factor molecules contributes to long-term memory formation, a finding that appears in the journal Neuron.

Our understanding of how a key part of the human brain works may be wrong. That’s the conclusion of a team at Oxford University’s Centre for Human Brain Activity (OHBA), published in journal Trends in Cognitive Sciences. Until now, it was thought that working memory – the way in which we deal with and respond to immediate demands – was underpinned by stable brain patterns. The OHBA team discovered that instead, the areas of the brain responsible for working memory are changing all the time.

A new study finds people with higher levels of moral reasoning have greater gray matter volume in brain regions linked to social behaviour, decision-making and conflict processing, compared with those who have lower levels of moral reasoning.

Genes linked to creativity could increase the risk of developing schizophrenia and bipolar disorder, according to new research.

One of the major challenges of cocaine addiction is the high rate of relapse after periods of withdrawal and abstinence. But new research reveals that changes in our DNA during drug withdrawal may offer promising ways of developing more effective treatments for addiction.

According to a piece of research by the UPV/EHU-University of the Basque Country, the capacity to recall specific facts deteriorates with age, but other types of memory do not.

Finally, this week, a new study has found that the brain shrinks over the course of the day, ending up smaller in the evening – before returning to its full size the next morning.

Weekly Neuroscience Update

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A new study has found that while stereotypic shapes exist for this structure, individuals with a broader hippocampus tend to perform better on various tests that assess memory. The image is for illustrative purposes only. Image credit: Camillo Golgi.

A new study has found that while stereotypic shapes exist for this structure, individuals with a broader hippocampus tend to perform better on various tests that assess memory. The image is for illustrative purposes only. Image credit: Camillo Golgi.

New research challenges the long-held belief that a larger hippocampus is directly linked to improved memory function.

Premature birth can alter the connectivity between key areas of the brain, according to a new study led by King’s College London. The findings should help researchers to better understand why premature birth is linked to a greater risk of neurodevelopmental problems, including autistic spectrum disorders and attention deficit disorders.

Scientists have uncovered mathematical equations behind the way the brain forms – and even loses – memories.

New scanning methods which map the wiring of the brain could provide a valuable new tool to predict people at risk of schizophrenia, according to a new study.

People with depression may be more likely to develop Parkinson’s disease, according to a large study published in Neurology.

Medical researchers have known for several years that there is some sort of link between long-term depression and an increased risk of stroke. But now scientists are finding that even after such depression eases, the risk of stroke can remain high.

A new study from the University of Cambridge has identified one of the oldest fossil brains ever discovered – more than 500 million years old – and used it to help determine how heads first evolved in early animals.

Researchers have succeeded in reconstructing the neuronal networks that interconnect the elementary units of sensory cortex — cortical columns. The scientists say that this study marks a major step forward to advance the understanding of the organizational principles of the neocortex and sets the stage for future studies that will provide extraordinary insight into how sensory information is represented, processed and encoded within the cortical circuitry.

Smokers who are able to quit might actually be hard-wired for success, according to a study from Duke Medicine.

Scientists are attempting to mimic the memory and learning functions of neurons found in the human brain. To do so, they investigated the electronic equivalent of the synapse, the bridge, making it possible for neurons to communicate with each other.

Finally this week, in a study using functional magnetic resonance imaging, scientists found that our inherent risk-taking preferences affect how we view and act on information from other people.

Weekly Neuroscience Update

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Using a new technique that allows them to enlarge brain tissue, MIT scientists created these images of neurons in the hippocampus. Image credit: Fei Chen and Paul Tillberg

Using a new technique that allows them to enlarge brain tissue, MIT scientists created these images of neurons in the hippocampus. Image credit: Fei Chen and Paul Tillberg

A team of researchers has taken a novel approach to gaining high-resolution images; they have discovered a method that enlarges tissue samples by embedding them in a polymer that swells when water is added. This allows specimens to be physically magnified, and then imaged at a much higher resolution.

Scientists have captured the exact point and time when information is exchanged between brain cells, a breakthrough that could explain how and why neurological conditions like schizophrenia or epilepsy occur. And rather than being a single condition, new research published in the American Journal of Psychiatry suggests that schizophrenia may be a group of eight genetically different diseases – each with their own symptoms.

Research from the Center for Vital Longevity at The University of Texas at Dallas has shed new light on which cognitive processes tend to be preserved with age and which ones decline.

The brains of some Iraq and Afghanistan combat veterans who survived blasts from improvised explosive devices (IEDs) and died later of other causes show a distinctive honeycomb pattern of broken and swollen nerve fibers throughout critical brain regions, including those that control executive function. The pattern is different from brain damage caused by car crashes, drug overdoses or collision sports, and may be the never-before-reported signature of blast injuries suffered by soldiers as far back as World War I.

Our brains can be electrically “tuned” to enable us to find what we’re looking for, even in a crowded and distracting scene, new research indicates.

Finally this week, higher cognitive skills are found in the children of mothers who are consistently able to support the development of their baby’s sense of autonomy, according to a study led by researchers at the University of Montreal.

 

Weekly Neuroscience Update

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Electrical and computer engineering professor Barry Van Veen wears an electrode net used to monitor brain activity via EEG signals. His research with psychiatry professor and neuroscientist Giulio Tononi could help untangle what happens in the brain during sleep and dreaming. Credit Nick Berard.

Electrical and computer engineering professor Barry Van Veen wears an electrode net used to monitor brain activity via EEG signals. His research with psychiatry professor and neuroscientist Giulio Tononi could help untangle what happens in the brain during sleep and dreaming. Credit Nick Berard.

As real as that daydream may seem, its path through your brain runs opposite reality. Aiming to discern discrete neural circuits, researchers at the University of Wisconsin-Madison have tracked electrical activity in the brains of people who alternately imagined scenes or watched videos.

People with mentally taxing jobs, including lawyers and graphic designers, may end up having better memory in old age, research suggests.

Researchers at the RIKEN Brain Science Institute in Japan have identified a key neuronal pathway that makes learning to avoid unpleasant situations possible. Published online in the November 20 issue of Neuron, the work shows that avoidance learning requires neural activity in the habenula representing changes in future expectations.

Combining behavioral and physiologic measures depicts gradual process, may help diagnose sleep disorders. 

Neurophysicists have found that space-mapping neurons in the brain react differently to virtual reality than they do to real-world environments. Their findings could be significant for people who use virtual reality for gaming, military, commercial, scientific or other purposes.

New brain imaging technology is helping researchers to bridge the gap between art and science by mapping the different ways in which the brain responds to poetry and prose.

As methods of imaging the brain improve, neuroscientists and educators can now identify changes in children’s brains as they learn, and start to develop ways of personalizing instruction for kids who are falling behind.

Scientists have identified a weak spot in the human brain for Alzheimer’s disease and schizophrenia, revealing a connection between the two diseases.

A team of scientists has found a simple method to convert human skin cells into the specialized neurons that detect pain, itch, touch and other bodily sensations. These neurons are also affected by spinal cord injury and involved in Friedreich’s ataxia, a devastating and currently incurable neurodegenerative disease that largely strikes children.

Berkeley lab reports proper copper levels are essential to spontaneous neural activity.

Researchers are using an enhanced MRI approach to visualize brain injury in the blood brain barrier in order to identify significant changes to the blood-brain barrier in professional football players following a concussion.

A new study reports that older learners retained the mental flexibility needed to learn a visual perception task but were not as good as younger people at filtering out irrelevant information.

Finally this week, in the largest study of the genetics of memory ever undertaken, an international researcher team have discovered two common genetic variants that are believed to be associated with memory performance. The findings, which appear in the journal Biological Psychiatry, are a significant step towards better understanding how memory loss is inherited.

 

Weekly Neuroscience Update

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The team used diffusion tensor imaging (DTI, also called diffusion MRI) to look at five white-matter tracts in the brains of the 24 participants. This method analyzes water diffusion into tissues. For white matter, less water diffusion means the tissue is more fibrous and compact, both desirable traits. This image shows an MRI of white matter in the human brain. The image is for illustrative purposes only, and is not connected to the research. Credit Kubicki et al.

A new study of 9 and 10-year-olds finds that those who are more aerobically fit have more fibrous and compact white-matter tracts in the brain than their peers who are less fit. “White matter” describes the bundles of axons that carry nerve signals from one brain region to another. More compact white matter is associated with faster and more efficient nerve activity. The team reports its findings in the open-access journal Frontiers in Human Neuroscience.

In a new study published in The Journal of Neuroscience, researchers report that the amygdala — a part of the brain associated with decision making, memory and emotion — plays a part in telling us who to trust almost instantly.

The latest research on sports concussions in teens has been the focus of recent study.

Depression is known to be a common symptom of Parkinson’s disease, but remains untreated for many patients, according to a new study.

Following another person’s gaze can reveal a wealth of information critical to social interactions and also to safety. Gaze following typically emerges in infancy, and new research looking at preterm infants suggests that its visual experience, not maturational age, that underlies this critical ability.

fMRI scans reveal brain differences in risk-taking teens

Children and adolescents with autism have a surplus of synapses in the brain, and this excess is due to a slowdown in a normal brain “pruning” process during development, according to a study by neuroscientists at Columbia University Medical Center (CUMC).

While much attention has focused on the link between violent video game playing and aggression among youths, a new study finds significantly increased signs of depression among preteens with high daily exposure to violent video games.

An imaging study of chronic users of codeine-containing cough syrups (CCS) has found deficits in specific regions of brain white matter and associates these changes with increased impulsivity in CCS users.

New treatments for multiple sclerosis (MS) using common anti-psychotic agents have been discovered by Victoria University of Wellington researchers.

People with schizophrenia struggle to turn goals into actions because brain structures governing desire and emotion are less active and fail to pass goal-directed messages to cortical regions affecting human decision-making, new research reveals.

Weekly Neuroscience Update

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Granule cells connect with other cells via long projections (dendrites). The actual junctions (synapses) are located on thorn-like protuberances called “spines”. Spines are shown in green in the computer reconstruction Credit DZNE/Michaela Müller.

Granule cells connect with other cells via long projections (dendrites). The actual junctions (synapses) are located on thorn-like protuberances called “spines”. Spines are shown in green in the computer reconstruction Credit DZNE/Michaela Müller.

New findings on the link between nerve cells at the interface to the hippocampus may have an influence on learning and memory.

People choosing between two or more equally positive outcomes experience paradoxical feelings of pleasure and anxiety, feelings associated with activity in different regions of the brain, according to research at the Princeton Neuroscience Institute at Princeton University.

Latest findings on how stress hormones promote the brain’s building of negative memories.

Researchers have studied the changes in the brain that are associated with impulsiveness, a personality trait that causes difficulties in inhibiting a response in the face of a stimulus and leads to unplanned actions without considering the negative consequences. These patterns can serve as an indicator for predicting the risk of behavioural problems.

People taking dopamine for Parkinson’s disease sometimes begin to generate a lot of artwork. New research differentiates their expressiveness from obsessive or impulsive tendencies.

Researchers have uncovered more than 100 genetic markers linked to developing schizophrenia.

A type of immune cell widely believed to exacerbate chronic adult brain diseases, such as Alzheimer’s disease and multiple sclerosis (MS), can actually protect the brain from traumatic brain injury (TBI) and may slow the progression of neurodegenerative diseases, according to research published in the online journal Nature Communications.

Weekly Neuroscience Update

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By using a novel technique to test brain waves, researchers are discovering how the brain processes external stimuli that do and don’t reach our awareness. Credit Beckman Institute.

By using a novel technique to test brain waves, researchers are discovering how the brain processes external stimuli that do and don’t reach our awareness. Credit Beckman Institute.

Researchers at the Beckman Institute are using a novel technique to test brain waves to see how the brain processes external stimuli that do and don’t reach our awareness. A group of international scientists has for the first time identified genetic mutations that suggest that schizophrenia and autism share underlying mechanisms. The research could help with future understanding of both conditions and may contribute to the development of treatments. Two psychologists have made a discovery that could revolutionize doctors’ perception and treatment of attention-deficit disorders. A newly identified disorder affecting the human nervous system is caused by a mutation in a gene never before implicated in human disease, according to two studies published in the journal Cell. By performing DNA sequencing of children affected by neurological problems, two research teams independently discovered that a disease marked by reduced brain size, as well as sensory and motor defects, is caused by a mutation in a gene called CLP1. Insights into this rare disorder may have important implications for the treatment of common disorders.

Scientists at the Salk Institute have created a new model of memory that explains how neurons retain select memories a few hours after an event. This new framework provides a more complete picture of how memory works, which can inform research into disorders liked Parkinson’s, Alzheimer’s, post-traumatic stress and learning disabilities.

Stanford scientists have developed faster, more energy-efficient microchips based on the human brain – 9,000 times faster and using significantly less power than a typical PC. This offers greater possibilities for advances in robotics and a new way of understanding the brain. For instance, a chip as fast and efficient as the human brain could drive prosthetic limbs with the speed and complexity of our own actions.

Finally this week, laughter triggers brain waves similar to those associated with meditation, according to a small new studyThe study included 31 people whose brain waves were monitored while they watched humorous, spiritual or distressing video clips. While watching the humorous videos, the volunteers’ brains had high levels of gamma waves, which are the same ones produced during meditation, researchers found.

 

Inside The Developing Brain: Clues To Schizophrenia and Autism

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Images of the developing fetal brain show connections among brain regions. Allen Institute for Brain Science and Bruce Fischl, Massachusetts General Hospital

Images of the developing fetal brain show connections among brain regions.
Allen Institute for Brain Science and Bruce Fischl, Massachusetts General Hospital

A high-resolution map of the human brain in utero is providing hints about the origins of brain disorders including schizophrenia and autism.

The map shows where genes are turned on and off throughout the entire brain at about the midpoint of pregnancy, a time when critical structures are taking shape. The human brain is often called the most complex object in the universe. Yet its basic architecture is created in just nine months, when it grows from a single cell to more than 80 billion cells organized in a way that will eventually let us think and feel and remember.

Having a map like this is important because many psychiatric and behavioral problems appear to begin before birth, even though they may not manifest until teenage years or even the early 20s.

The resulting map, which is available to anyone who wants to use it, has already led to at least two important findings. The first is that many genes that are associated with brain disorders are turned on early in development, which suggests that these disorders may have their origin from these very early time points.

And the map tells researchers who study these disorders where in the brain they should be looking for signs of trouble. For example, the map shows that genes associated with autism appear to be acting on a specific type of brain cell in a part of the brain called the neocortex. That suggests we should be looking at this particular type of cell in the neocortex, and furthermore that we should probably be looking very early in the prenatal stages for the origin of autism.

Source: NPR

Weekly Neuroscience Update

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Functional magnetic resonance imaging (fMRI) and other brain imaging technologies allow for the study of differences in brain activity in people diagnosed with schizophrenia. The image shows two levels of the brain, with areas that were more active in healthy controls than in schizophrenia patients shown in orange, during an fMRI study of working memory. Credit: Kim J, Matthews NL, Park S./PLoS One.

Functional magnetic resonance imaging (fMRI) and other brain imaging technologies allow for the study of differences in brain activity in people diagnosed with schizophrenia. The image shows two levels of the brain, with areas that were more active in healthy controls than in schizophrenia patients shown in orange, during an fMRI study of working memory. Credit: Kim J, Matthews NL, Park S./PLoS One.

Researchers from the Broad Institute and several partnering institutions have taken a closer look at the human genome to learn more about the genetic underpinnings of schizophrenia. In two studies published in Nature, scientists analyzed the exomes, or protein-coding regions, of people with schizophrenia and their healthy counterparts, pinpointing the sites of mutations and identifying patterns that reveal clues about the biology underlying the disorder.

A new brain region that appears to help humans identify whether they have made bad decisions has been discovered by researchers.

New research finds that the brains of autistic children generate more information at rest – a 42% increase on average. The study offers a scientific explanation for the most typical characteristic of autism – withdrawal into one’s own inner world. The excess production of information may explain a child’s detachment from their environment.

The brain appears to synchronize the activity of different brain regions to make it possible for a person to pay attention or concentrate on a task, scientists have learned.

Researchers at the Albert Einstein College of Medicine are investigating the effects of repeated combat-related blast exposures on the brains of veterans. Mild traumatic brain injuries can cause problems with cognition, concentration, memory and emotional control. Scientists are using advanced MRI technology and psychological tests to investigate the structural and biological impact of repeated head injury and to assess how these injuries affect cognitive functions. Final results of the study have not yet been published, but researchers hope it will lead to more scientifically valid diagnostic techniques that could potentially allow for detection of both the underlying brain injury and its severity.

Weekly Neuroscience Update

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This cross-section of the hippocampus shows island cells (green) projecting to the CA1 region of the hippocampus. (Credit: Takashi Kitamura)

This cross-section of the hippocampus shows island cells (green) projecting to the CA1 region of the hippocampus. (Credit: Takashi Kitamura)

Neuroscientists have discovered how two neural circuits in the brain work together to control the formation of time-linked memories. This is a critical ability that helps the brain to determine when it needs to take action to defend against a potential threat.

Survivors of traumatic brain injuries (TBI) are three times more likely to die prematurely, often from suicide or fatal injuries, according to a study from Oxford University.

An international team of researchers has found that the cause of schizophrenia is even more complex than already believed, with rare gene mutations contributing to the disorder. In two studies published in the journal Nature, they show that schizophrenia arises from the combined effects of many genes.

Scientists have found that, to allow us to concentrate, we synchronize different regions of our brains in a process that the researchers describe as “roughly akin to tuning multiple walkie-talkies to the same frequency.”

Researchers have identified a protein in the brain that plays a critical role in the memory loss seen in Alzheimer’s patients, according to a study to be published in the journal Nature Neuroscience.

Using a simple study of eye movements, scientists report evidence that people who are less patient tend to move their eyes with greater speed. The findings, the researchers say, suggest that the weight people give to the passage of time may be a trait consistently used throughout their brains, affecting the speed with which they make movements, as well as the way they make certain decisions.

Researchers have found that epileptic activity can spread through a part of the brain in a new way, suggesting a possible novel target for seizure-blocking medicines.