Neuroscientists today can preserve small volumes (<1mm³) of animal brain tissue immediately after death with incredible precision — the features and structure of every synapse within these volumes is well-protected down to the nanometer scale, using an inexpensive, room-temperature process of chemical fixation and plastic embedding, or “plastination.” This image is an example of plastination and local circuit tracing, occurring in leading neuroscience labs around the world today. (Credit: Brain Preservation Foundation)

Chemical brain preservation: how to live ‘forever’ — a personal view

What the brain draws from: Art and neuroscience

The human brain is wired in such a way that we can make sense of lines, colors and patterns on a flat canvas. Artists throughout human history have figured out ways to create illusions such as depth and brightness that aren’t actually there but make works of art seem somehow more real.

And while individual tastes are varied and have cultural influences, the brain also seems to respond especially strongly to certain artistic conventions that mimic what we see in nature.

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15 Studied Effects of Classical Music on Your Brain

Classical music, whether you love it or hate it, has been a powerful cultural force for centuries. While it no longer dominates the music scene, the argument for continued appreciation of the genre goes far beyond pure aural aesthetics. Classical music has been lauded for its ability to do everything from improve intelligence to reduce stress, and despite some exaggeration of its benefits, science shows us that it actually does have a marked effect on the brain in a number of positive ways.

With September being Classical Music Month, there’s no better time to learn a bit more about some of the many ways classical music affects the brain. Over the past few decades, there have been numerous studies on the brain’s reaction to classical music, and we’ve shared the most relevant, interesting, and surprising here, some of which may motivate you to become a classical aficionado yourself.

Toys Cars Offer Mobility to Children with Disabilities

Children born with severe mobility impairments, such as those associated with cerebral palsy, are at increased risk for mobility-related developmental delays in cognition, language and socialization. Providing daily mobility between the ages of 1 and 5 is critical, given that significant learning, brain and behavioral development is dependent on mobility during this time.

The NSF-funded project, affectionately termed “Babies Driving Robots and Racecars,” began at the University of Delaware when Sunil Agrawal, a professor in the Department of Mechanical Engineering, approached Cole Galloway, a professor in the Department of Physical Therapy.

"Dr. Agrawal told me, ‘We have small robots, and you have small infants, do you think we can do something together?’" Galloway explained.

Galloway was hesitant at first; he could not envision babies and robots in the same room much less interacting with each other. However, after visiting the lab and seeing Agrawal’s robots in action, Galloway began to see the possibilities.

What is reality?

WHEN you woke up this morning, you found the world largely as you left it. You were still you; the room in which you awoke was the same one you went to sleep in. The outside world had not been rearranged. History was unchanged and the future remained unknowable. In other words, you woke up to reality. But what is reality? The more we probe it, the harder it becomes to comprehend. In the eight articles on this page we take a tour of our fundamental understanding of the world around us, starting with an attempt to define reality and ending with the idea that whatever reality is, it isn’t what it seems. Hold on to your hats.

Gene That Causes a Form of Deafness Discovered

Researchers at the University of Cincinnati and Cincinnati Children’s Hospital Medical Center have found a new genetic mutation responsible for deafness and hearing loss associated with Usher syndrome type 1.

These findings, published in the Sept. 30 advance online edition of the journal Nature Genetics, could help researchers develop new therapeutic targets for those at risk for this syndrome.

Partners in the study included the National Institute on Deafness and other Communication Disorders (NIDCD), Baylor College of Medicine and the University of Kentucky.

Usher syndrome is a genetic defect that causes deafness, night-blindness and a loss of peripheral vision through the progressive degeneration of the retina.

(Image credit: GETTY)

Pill for healthy ageing ‘available within a generation’

Dame Linda Partridge, a geneticist at University College London, claimed drugs will soon be available which can lower the risk of diseases like cancer and dementia by tackling the root cause – age itself.

Rather than promising immortality, taking the drugs from middle age or earlier could dramatically shorten the period of illness and frailty that we typically experience before we die.

Speaking at the EMBO life sciences meeting in Nice, France this week Dame Linda said several existing drugs have already been shown to have unexpected and welcome side effects, such as aspirin which reduces the risk of cancer.

Other therapies will be produced that mimic the effects of a severely restricted diet, which animal studies suggest can protect against a host of age-related conditions including heart disease and diabetes, she said.

Speaking after her keynote lecture, she told The Daily Telegraph: “One obvious approach in trying to deal with the very rapidly increasing incidence of age related diseases is to tackle the underlying aging process itself, because it is the major risk factor.

Benzodiazepine use and risk of dementia: prospective population based study

Objective To evaluate the association between use of benzodiazepines and incident dementia.

Design Prospective, population based study.

Setting PAQUID study, France.

Participants 1063 men and women (mean age 78.2 years) who were free of dementia and did not start taking benzodiazepines until at least the third year of follow-up.

Main outcome measures Incident dementia, confirmed by a neurologist.

Results During a 15 year follow-up, 253 incident cases of dementia were confirmed. New use of benzodiazepines was associated with an increased risk of dementia (multivariable adjusted hazard ratio 1.60, 95% confidence interval 1.08 to 2.38). Sensitivity analysis considering the existence of depressive symptoms showed a similar association (hazard ratio 1.62, 1.08 to 2.43). A secondary analysis pooled cohorts of participants who started benzodiazepines during follow-up and evaluated the association with incident dementia. The pooled hazard ratio across the five cohorts of new benzodiazepine users was 1.46 (1.10 to 1.94). Results of a complementary nested case-control study showed that ever use of benzodiazepines was associated with an approximately 50% increase in the risk of dementia (adjusted odds ratio 1.55, 1.24 to 1.95) compared with never users. The results were similar in past users (odds ratio 1.56, 1.23 to 1.98) and recent users (1.48, 0.83 to 2.63) but reached significance only for past users.

Conclusions In this prospective population based study, new use of benzodiazepines was associated with increased risk of dementia. The result was robust in pooled analyses across cohorts of new users of benzodiazepines throughout the study and in a complementary case-control study. Considering the extent to which benzodiazepines are prescribed and the number of potential adverse effects of this drug class in the general population, indiscriminate widespread use should be cautioned against.