Tag: post traumatic stress disorder

Weekly Neuroscience Update

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A study published in Frontiers in Neuroscience takes a look inside the brains of professional comedians and compares them with less humorous humans. They attempt to home in on the seat of creative humour and ask what it can tell us about creativity.

A new study reports brain cells may preferentially activate a copy of one parent’s genes over the other in offspring.

Music, specifically infant directed song, could have evolved as a means to allow parents to let their children know their needs are being met, while freeing them up to perform other essential tasks, a new study theorizes.

Researchers report a new neuroimaging device can successfully measure brain synchronization during a conversation.

Specialized nerve cells, known as somatostatin-expressing (Sst) interneurons, in the outer part of the mammalian brain (or cerebral cortex) — play a key role in controlling how information flows in the brain when it is awake and alert. This is the finding of a study published online in Science March 2 by a team of neuroscientists at NYU Langone Medical Center and its Neuroscience Institute.

Amygdala reactivity may help predict who will have post-traumatic stress disorder symptoms in the year following a trauma, a recent study from Emory University  finds.

Recent research published in Frontiers in Public Health shows that the effects of vibrations produced by horses during horse-riding lead to the activation of the sympathetic nervous system, which improves learning in children.

A compound called P7C3 provides both protection for neurons following a stroke and improves physical and cognitive outcomes, a new study reports.

MIT researchers have devised a way to measure dopamine in the brain much more precisely than previously possible, which should allow scientists to gain insight into dopamine’s roles in learning, memory, and emotion.

A new study reports the ability to modulate brain activity when it comes to shutting off processes irrelevant to a task may be compromised in older people.

Concrete links between the symptoms of autism and synaesthesia have been discovered and clarified for the first time, according to new research by psychologists at the University of Sussex.

Researchers have identified a potential mechanism for the development of alcoholism.

Finally this week, researchers have discovered a genetic pathway that could lead to people developing anxiety and panic disorders.

Weekly Neuroscience Update

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researchers have developed a method to map the circuitry of the brain with a “Neuronal Positioning System” (NPS) similar to how a Global Positioning System (GPS) triangulates our location on the planet. Image credit: Dr. Shlomo Tsuriel and Dr. Alex Binshtok, Hebrew University of Jerusalem.

researchers have developed a method to map the circuitry of the brain with a “Neuronal Positioning System” (NPS) similar to how a Global Positioning System (GPS) triangulates our location on the planet. Image credit: Dr. Shlomo Tsuriel and Dr. Alex Binshtok, Hebrew University of Jerusalem.

In new research scientists have announced a “Neuronal Positioning System” (NPS) that maps the circuitry of the brain, similar to how a Global Positioning System (GPS) receiver triangulates one’s location on the planet.

EPFL scientists have developed a new method that can accurately simulate the chemical modification of the protein behind Parkinson’s disease. The technique, has opened a new way of understanding Parkinson’s, and can be expanded to other proteins and diseases as well.

Neuroscientists have found a way to activate opioid receptors with light.

New research shows that chemotherapy can lead to excessive mind wandering and an inability to concentrate. Dubbed ‘chemo-brain,’ the negative cognitive effects of the cancer treatment have long been suspected, but the study is the first to explain why patients have difficulty paying attention.

A study provides new evidence that book sharing in early childhood may promote brain development supporting reading readiness.

An international team of scientists has discovered what amounts to a molecular reset button for our internal body clock. Their findings reveal a potential target to treat a range of disorders, from sleep disturbances to other behavioral, cognitive, and metabolic abnormalities, commonly associated with jet lag, shift work and exposure to light at night, as well as with neuropsychiatric conditions such as depression and autism.

New findings provide potential explanations for the very high percentage of post-traumatic disorders in combat.

Scientists have discovered that neurons are risk takers: They use minor “DNA surgeries” to toggle their activity levels all day, every day. Since these activity levels are important in learning, memory and brain disorders, the researchers think their finding will shed light on a range of important questions.

Women may have a more difficult time than men in recovering from concussion, according to a new study published online in the journal Radiology.

Finally this week, researchers report a previously unappreciated phenomenon in which the location of injury to a neuron’s communication wire in the spinal cord — the axon — determines whether the neuron simply stabilizes or attempts to regenerate. The study, published by Neuron, demonstrates how advances in live-imaging techniques are revealing new insights into the body’s ability to respond to spinal cord injuries.

 

 

Weekly Neuroscience Update

This image from the study shows changes in degree of connectivity in the feedback group. Increases are shown in red/yellow and decreases in blue/purple. Decreases in connectivity are seen in limbic areas, and increases are seen in prefrontal regions. (Credit: D Scheinost et al./Yale University)

People provided with a real-time readout of activity in specific regions of their brains can learn to control that activity and lessen their anxiety, say Yale researchers.

A new study provides neurobiological evidence for dysfunction in the neural circuitry underlying emotion regulation in people with insomnia, which may have implications for the risk relationship between insomnia and depression.

Different brain areas are activated when we choose for ourselves to suppress an emotion, compared to situations where we are instructed to inhibit an emotion, according to a new study from the UCL Institute of Cognitive Neuroscience and Ghent University.

Migraines and depression can each cause a great deal of suffering, but new research indicates the combination of the two may be linked to something else entirely—a smaller brain.

The epigenetic modifications, which alter the way genes function without changing the underlying DNA sequence, can apparently be detected in the blood of pregnant women during any trimester, potentially providing a simple way to foretell depression in the weeks after giving birth, and an opportunity to intervene before symptoms become debilitating.

A three-year multinational study has tracked and detailed the progression of Huntington’s disease (HD), predicting clinical decline in people carrying the HD gene more than 10 years before the expected onset of symptoms.

Researchers have pinpointed a catalytic trigger for the onset of Alzheimer’s disease – when the fundamental structure of a protein molecule changes to cause a chain reaction that leads to the death of neurons in the brain.

Individuals who learn two languages at an early age seem to switch back and forth between separate “sound systems” for each language, according to new research conducted at the University of Arizona.

Chronic trauma can inflict lasting damage to brain regions associated with fear and anxiety. Previous imaging studies of people with post-traumatic stress disorder, or PTSD, have shown that these brain regions can over-or under-react in response to stressful tasks, such as recalling a traumatic event or reacting to a photo of a threatening face. Now, researchers at NYU School of Medicine have explored for the first time what happens in the brains of combat veterans with PTSD in the absence of external triggers.

And finally this week…

Listening to new music is rewarding for the brain, a study suggests. Using MRI scans, a Canadian team of scientists found that areas in the reward centre of the brain became active when people heard a song for the first time. The more the listener enjoyed what they were hearing, the stronger the connections were in the region of the brain called the nucleus accumbens. The study is published in the journal Science

Latest research on PTSD shows smaller brain area regulating fear response

CAT scans. Recent combat veterans who are diagnosed with post traumatic stress disorder have significantly smaller volume in an area of the brain critical for regulating fear and anxiety responses. (Credit: © svedoliver / Fotolia)

Recent combat veterans who are diagnosed with post traumatic stress disorder have significantly smaller volume in an area of the brain critical for regulating fear and anxiety responses, according to research led by scientists at Duke University and the Durham VA Medical Center.

The finding, published Nov. 5, 2012, in the journal Archives of General Psychiatry, for the first time provides clear evidence that smaller amygdala volume is associated with PTSD, regardless of the severity of trauma. But it’s not clear whether the physiological difference was caused by a traumatic event, or whether PTSD develops more readily in people who naturally have smaller amygdalas.

Read the full story here

Weekly Round Up

 

All in the mind: Repressing bad memories for long enough can lead to us forgetting them completely, researchers claim

Fear burns memories into our brain, according to new research by University of California, Berkeley and if those memories are causing you distress, a team of researchers from Lund University in Sweden may have the answer. People can train their minds to erase embarrassing moments from their mind, according to their research. Scientists used EEG scans to monitor the parts of the brain that became active when volunteers actively tried to forget something. They were also able to pinpoint the exact moment a memory is ‘forgotten’, and claim that long-term suppression of a memory is a sure-fire way of permanently erasing it. The researchers say that mastering the technique could be useful for people who suffer from depression or post traumatic stress disorder, where constantly dwelling on upsetting or traumatic memories has a devastating effect on mental health.

And on the subject of PTSD, researchers at the Max Planck Institute of Psychiatry in Munich, are looking into the link between post-traumatic stress disorder and shrinkage of the hippocampus structure in the brain. (The hippocampus, which is Greek for “seahorse,” is a paired structure tucked inside each temporal lobe and shaped like a pair of seahorses, thence its name).

When we find something funny, our brains as well as our faces “light up” and the funnier we find a joke, the more activity is seen in “reward centres” – specific neurons which create feelings of pleasure, recent research shows.

Another region of the brain which also ‘lights up’  is in the medial orbito-frontal cortex when we experience beauty in a piece of art or a musical excerpt, according to new research funded by the Wellcome Trust. The study, published July 6 in the open access journal PLoS One, suggests that the one characteristic that all works of art, whatever their nature, have in common is that they lead to activity in that same region of the brain, and goes some way to supporting the belief that beauty does indeed lie in the beholder.