Weekly Neuroscience Update

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Oligodendrocytes are formed by a type of stem cell in the brain called oligodendrocyte progenitor cells (OPCs), and are responsible for re-wrapping, or remyelinating, the bare axons with myelin in response to injuries or diseases. This image is for illustrative purposes only and shows and artist’s representation of an oligodendrocyte. Credit Holly Fischer.

Oligodendrocytes are formed by a type of stem cell in the brain called oligodendrocyte progenitor cells (OPCs), and are responsible for re-wrapping, or remyelinating, the bare axons with myelin in response to injuries or diseases. This image is for illustrative purposes only and shows and artist’s representation of an oligodendrocyte. Credit Holly Fischer.

Like conducting an errant orchestra to play together, researchers are guiding processes that go awry in multiple sclerosis to repair themselves.

For the first time, scientists have discovered the exact mechanism rabies uses to efficiently enter the central nervous system, where it erupts in a toxic explosion of symptoms.

Neurons in human skin perform advanced calculations, previously believed that only the brain could perform.

Brain scans of college students have shed light on why people learn more effectively when their curiosity is piqued than when they are bored stiff. Researchers in the US found evidence that curiosity ramped up the activity of a brain chemical called dopamine, which in turn seemed to strengthen people’s memories.Students who took part in the study were better at remembering answers to trivia questions when they were curious, but their memories also improved for unrelated information they were shown at the same time.The findings suggest that while grades may have their place in motivating students, stimulating their natural curiosity could help them even more.

Researchers have discovered that T-cells – a type of white blood cell that learns to recognize and attack microbial pathogens – are activated by a pain receptor.

Quantitative tools dissect how two genes mutated in early-onset Parkinson’s disease collaborate in flagging damaged mitochondria.

A new study suggests a neural link between curiosity, motivation, and memory.

In a recent study published in the journal PLOS One, scientists uncovered a new pathway by which the brain uses an unusual steroid to control blood pressure. The study also suggests new approaches for treating high blood pressure and heart failure

Research using state-of-the-art eye-tracking technology has found that people suffering from chronic pain pay more frequent and longer attention to pain-related words than individuals who are pain-free.

The traditional view is that learning is based on the strengthening or weakening of the contacts between the nerve cells in the brain. However, this has been challenged by new research findings from Lund University in Sweden. These indicate that there is also a third mechanism – a kind of clock function that gives individual nerve cells the ability to time their reactions.

And finally this week, how your brain decides who to make friends with when you start university.

Your Brain On Improv

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What happens in the brain during musical improv? Researcher Charles Limb scanned the brains of jazz musicians to find out.

About Charles Limb

Dr. Charles Limb is an Associate Professor in the Johns Hopkins Department of Otolaryngology — Head and Neck Surgery, as well as faculty at the Peabody Conservatory of Music. He combines his two passions to study the way the brain creates and perceives music. He’s a hearing specialist and surgeon at Johns Hopkins who performs cochlear implantations. In his free time, he plays sax, piano and bass.

In search of a better understanding of how the mind processes complex auditory stimuli such as music, Dr. Limb has been working with Dr. Allen Braun to look at the brains of improvising musicians and study what parts of the brain are involved when a musician is really in the groove.

Weekly Neuroscience Update

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Earlier research showed that progranulin levels were elevated near plaques in the brains of patients with Alzheimer’s disease, but it was unknown whether this effect counteracted or exacerbated neurodegeneration. This image is for illustrative purposes only. Credit NIH.

Earlier research showed that progranulin levels were elevated near plaques in the brains of patients with Alzheimer’s disease, but it was unknown whether this effect counteracted or exacerbated neurodegeneration. This image is for illustrative purposes only. Credit NIH.

Low levels of the naturally occurring protein progranulin exacerbate cellular and cognitive dysfunction, while raising levels can prevent abnormalities in an Alzheimer model.

Teenagers who said they had a traumatic brain injury in their lifetime, especially girls, also reported significantly higher rates of harmful behavior, according to new research.

A new University of Iowa study further supports an inescapable message: caregivers have a profound influence – good or bad – on the emotional state of individuals with Alzheimer’s disease. Patients may not remember a recent visit by a loved one or having been neglected by staff at a nursing home, but those actions can have a lasting impact on how they feel. The findings of this study are published in the September 2014 issue of the journal Cognitive and Behavioral Neurology.

A new study reveals individual neurons in the human brain are triggered by the subject’s conscious perception, rather than by the visual stimulus.

A chemical in the brain plays a vital role in controlling the involuntary movements and vocal tics associated with Tourette Syndrome (TS), a new study has shown.

Researchers discover how the brain works during meditation.

Finally, this week, teenagers who regularly do not get enough sleep are more likely to struggle academically, the results of a new study show. Swedish researchers looked at over 20,000 teenagers aged between 12 and 19 and found that those who regularly slept for less than seven hours per night were more likely to fail in school. Details of these findings are published in the journal, Sleep Medicine.

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New genes identified with key role in the development of severe childhood epilepsies.

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In the largest collaborative study so far, an international team of researchers from the European EuroEPINOMICS consortium, including scientists from VIB and Antwerp University identified novel causes for severe childhood epilepsies. The researchers analyzed the genetic information of 356 patients and their parents. In their analysis, the research teams looked for genes that had acquired new mutations in the children with severe epilepsies when compared to the DNA of the parents.  The results of the opensource study were published in the American Journal of Human Genetics.

In total, they identified 429 new mutations and in 12% of children, these mutations were considered unequivocally causative for the patient’s epilepsy. In addition to several known genes for childhood epilepsies, the research team found strong evidence for additional novel genes, many of which are involved in the function of the synapse, the main structure in the nervous system that allows for communication…

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Bodily Map Of Emotions

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Yellow shows regions of increased sensation while blue areas represent decreased feeling in these composite images. Image courtesy of Lauri Nummenmaa, Enrico Glerean, Riitta Hari, and Jari Hietanen.

Yellow shows regions of increased sensation while blue areas represent decreased feeling in these composite images. Image courtesy of Lauri Nummenmaa, Enrico Glerean, Riitta Hari, and Jari Hietanen.

More than 700 participants in Finland, Sweden and Taiwan participated in experiments aimed at mapping their bodily sensations in connection with specific emotions. Participants viewed emotion-laden words, videos, facial expressions and stories. They then self-reported areas of their bodies that felt different than before they’d viewed the material. By coloring in two computer-generated silhouettes — one to note areas of increased bodily sensation and the second to mark areas of decreased sensation — participants were able to provide researchers with a broad base of data showing both positive and negative bodily responses to different emotions.

Researchers found statistically discrete areas for each emotion tested, such as happiness, contempt and love, that were consistent regardless of respondents’ nationality. Afterward, researchers applied controls to reduce the risk that participants may have been biased by sensation-specific phrases common to many languages (such as the English “cold feet” as a metaphor for fear, reluctance or hesitation). The results are published in the Proceedings of the National Academy of Sciences.

Mixed Feelings: Paul Bach-y-Rita and Neuroplasticity

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A short 10 minute story by Wired Science called ‘Mixed Feelings’ showcasing the work of the late Paul Bach-y-Rita, an American neuroscientist whose most notable work was in the field of neuroplasticity.   Bach-y-Rita’s revolutionary work sought to rewire the brain so that one sense could potentially compensate for another that was damaged or absent; working to help the blind to acquire a certain form of ‘sight’ using the sense of touch, and also helping ‘wobblers’, people with damaged vestibular function, so their brains might create a new mode for having balance.

Weekly Neuroscience Update

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The study by Kep Kee Loh and Dr Ryota Kanai found that grey-matter density in the highlighted region of the brain (anterior cingulate cortex) was negatively associated with the amount of media multitasking activity. Credit Kep Kee Loh & Ryota Kanai.

The study by Kep Kee Loh and Dr Ryota Kanai found that grey-matter density in the highlighted region of the brain (anterior cingulate cortex) was negatively associated with the amount of media multitasking activity. Credit Kep Kee Loh & Ryota Kanai.

Simultaneously using mobile phones, laptops and other media devices could be changing the structure of our brains, according to new University of Sussex research.

Breathing meditation is a powerful ally for military veterans recovering from post-traumatic stress disorder (PTSD), according to research recently published in the Journal of Traumatic Stress.

Areas of the brain that respond to reward and pleasure are linked to the ability of a drug known as butorphanol to relieve itch, according to new research.

An international research team has identified gene mutations causing severe, difficult-to-treat forms of childhood epilepsy.

A chemical in the brain plays a vital role in controlling the involuntary movements and vocal tics associated with Tourette Syndrome (TS), a new study has shown.

Finally this week, the traditional understanding in neuroscience is that tactile sensations from the skin are only assembled to form a complete experience in the cerebral cortex, the most advanced part of the brain. However, this is challenged by new research findings from Lund University in Sweden that suggest both that other levels in the brain play a greater role than previously thought, and that a larger proportion of the brain’s different structures are involved in the perception of touch.

 

 

Saving Brains, A Grand Challenge

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Food for thought about investing in the future of our children, in this video by Dr. Mike Evans, founder of the Health Design Lab at the Li Ka Shing Knowledge Institute, an Associate Professor of Family Medicine and Public Health at the University of Toronto, and a staff physician at St. Michael’s Hospital.