Houston, We Have Another Problem: Study Shows that Space Travel is Harmful to the Brain

As if space travel was not already filled with enough dangers, a new study out today in the journal PLOS ONE shows that cosmic radiation – which would bombard astronauts on deep space missions to places like Mars – could accelerate the onset of Alzheimer’s disease. 

“Galactic cosmic radiation poses a significant threat to future astronauts,” said M. Kerry O’Banion, M.D., Ph.D., a professor in the University of Rochester Medical Center (URMC) Department of Neurobiology and Anatomy and the senior author of the study. “The possibility that radiation exposure in space may give rise to health problems such as cancer has long been recognized. However, this study shows for the first time that exposure to radiation levels equivalent to a mission to Mars could produce cognitive problems and speed up changes in the brain that are associated with Alzheimer’s disease.”

While space is full of radiation, the earth’s magnetic field generally protects the planet and people in low earth orbit from these particles. However, once astronauts leave orbit, they are exposed to constant shower of various radioactive particles. With appropriate warning, astronauts can be shielded from dangerous radiation associated with solar flares. But there are also other forms of cosmic radiation that, for all intents and purposes, cannot be effectively blocked.

Because this radiation exists in low levels, the longer an astronaut is in deep space, the greater the exposure. This is a concern for NASA as the agency is planning manned missions to a distant asteroid in 2021 and to Mars in 2035. The round trip to the red planet, in particular, could take as long as three years. 

For over 25 years, NASA has been funding research to determine the potential health risks of space travel in an effort to both develop countermeasures and determine whether or not the risks warranted sending men and women on extended missions in deep space.  

Since that time, several studies have demonstrated the potential cancer, cardiovascular, and musculoskeletal impact of galactic cosmic radiation. The study out today for the first time examines the potential impact of space radiation on neurodegeneration, in particular, the biological processes in the brain that contribute to the development of Alzheimer’s disease. O’Banion – whose research focuses on how radiation affects the central nervous system – and his team have been working with NASA for over eight years.

The researchers studied the impact of a particular form of radiation called high-mass, high-charged (HZE) particles. These particles – which are propelled through space at very high speeds by the force of exploding stars – come in many different forms. For this study the researcher chose iron particles. Unlikely hydrogen protons, which are produced by solar flares, the mass of HZE particles like iron, combined with their speed, enable them to penetrate solid objects such as the wall and protective shielding of a spacecraft. 

“Because iron particles pack a bigger wallop it is extremely difficult from an engineering perspective to effectively shield against them,” said O’Banion. “One would have to essentially wrap a spacecraft in a six-foot block of lead or concrete.”

Doctor Dolphin

Dolphin-assisted therapy for children with mental disabilities has made a splash in the West, and China is now riding the experimental tide. Shi Yingying and Erik Nilsson examine the impact these marine mammals have on the children they come into contact with.

Zheng Jun says 15 sessions with a pair of bottle-nosed dolphins at Hangzhou Polar Ocean Park have helped his 5-year-old autistic son become “aware” and “alert” enough to become his kindergarten’s class monitor. The father believes the dolphin-assisted therapy has been more effective than any other treatment. “Now, you can’t tell he’s different from his classmates,” he says. Zheng became a believer after he visited an Australian dolphin-swim program years ago. He says his son is elated when he splashes with the creatures in the park in Zhejiang province’s capital.

More than 80 parents of children with severe mental disabilities have booked all of next year’s spots in the program (sessions only run in the summer because the water temperatures are too cold for the kids in other seasons).

So, newcomers must wait until 2014, says Liu Quansheng, manager of the park’s owner, Zhejiang Aquarium Investment Group. Despite the demand, dolphin-assisted therapy has not been scientifically proven. Still, many experts and parents of special-needs children swear by it.

(Image: dolphin-therapy.org)

'Lady of the Cells' Dead at 103

Italy has lost a truly fascinating centenarian. Nobel Prize winner Rita Levi-Montalcini died at her home yesterday at age 103, leading Rome’s mayor to declare the scientist’s death a loss “for all of humanity.” It may not be much of an exaggeration: The so-called “Lady of the Cells” faced many obstacles, reports the AP: a father who believed women should not study (she ultimately obtained a degree in medicine and surgery), a Fascist regime (Levi-Montalcini lost her neurobiology job in 1938 when Jews were banned from major professions), and the Nazis, whose 1943 invasion of Italy forced her family to flee to Florence and live underground.

But the petite woman’s determination was formidable: In the face of the Fascist regime she studied chicken embryos in a makeshift lab in her bedroom. She chose not to marry or have a family—without hesitation or regret, she once said—fearing doing so would weaken her independence. She claimed to sleep no more than three hours a night, and worked well into her final years. That effort produced contributions that were just as formidable.

Levi-Montalcini shared the Nobel medicine prize in 1986 with American biochemist Stanley Cohen for their groundbreaking cellular research. Her research increased the understanding of many conditions, including tumors, developmental malformations, and senile dementia.

(Image: AP Photo/Riccardo De Luca)

Are Babies Born Good?

Arber Tasimi is a 23-year-old researcher at Yale University’s Infant Cognition Center, where he studies the moral inclinations of babies—how the littlest children understand right and wrong, before language and culture exert their deep influence.“What are we at our core, before anything, before everything?” he asks. His experiments draw on the work of Jean Piaget, Noam Chomsky, his own undergraduate thesis at the University of Pennsylvania and what happened to him in New Haven, Connecticut, one Friday night last February.

It was about 9:45 p.m., and Tasimi and a friend were strolling home from dinner at Buffalo Wild Wings. Just a few hundred feet from his apartment building, he passed a group of young men in jeans and hoodies. Tasimi barely noticed them, until one landed a punch to the back of his head.

There was no time to run. The teenagers, ignoring his friend, wordlessly surrounded Tasimi, who had crumpled to the brick sidewalk. “It was seven guys versus one aspiring PhD,” he remembers. “I started counting punches, one, two, three, four, five, six, seven. Somewhere along the way, a knife came out.” The blade slashed through his winter coat, just missing his skin.

At last the attackers ran, leaving Tasimi prone and weeping on the sidewalk, his left arm broken. Police later said he was likely the random victim of a gang initiation.

After surgeons inserted a metal rod in his arm, Tasimi moved back home with his parents in Waterbury, Conn­­ecticut, about 35 minutes from New Haven, and became a creature much like the babies whose social lives he studies. He couldn’t shower on his own. His mom washed him and tied his shoes. His sister cut his meat.

Spring came. One beautiful afternoon, the temperature soared into the 70s and Tasimi, whose purple and yellow bruises were still healing, worked up the courage to stroll outside by himself for the first time. He went for a walk on a nearby jogging trail. He tried not to notice the two teenagers who seemed to be following him. “Stop ca­tastrophizing,” he told himself again and again, up until the moment the boys demanded his headphones.

The mugging wasn’t violent but it broke his spirit. Now the whole world seemed menacing. When he at last resumed his morality studies at the Infant Cognition Center, he parked his car on the street, feeding the meter every few hours rather than risking a shadowy parking garage.

“I’ve never been this low in life,” he told me when we first met at the baby lab a few weeks after the second crime. “You can’t help wonder: Are we a failed species?”

At times, he said, “only my research gives me hope.”

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The Role of Medial Prefrontal Cortex in Memory and Decision Making

Some have claimed that the medial prefrontal cortex (mPFC) mediates decision making. Others suggest mPFC is selectively involved in the retrieval of remote long-term memory. Yet others suggests mPFC supports memory and consolidation on time scales ranging from seconds to days. How can all these roles be reconciled? We propose that the function of the mPFC is to learn associations between context, locations, events, and corresponding adaptive responses, particularly emotional responses. Thus, the ubiquitous involvement of mPFC in both memory and decision making may be due to the fact that almost all such tasks entail the ability to recall the best action or emotional response to specific events in a particular place and time. An interaction between multiple memory systems may explain the changing importance of mPFC to different types of memories over time. In particular, mPFC likely relies on the hippocampus to support rapid learning and memory consolidation.

Alzheimer’s Muddles Memory of How Things Work

Which is bigger, a key or an ant? That question might be easy for you to answer quickly, but it could be a little more confusing for a person with Alzheimer’s.

The most obvious trait of the mind-ruining disease is memory loss, with patients forgetting once-familiar people, places and experiences. New research shows how this mental deterioration extends to semantic memory, which has more to do with remembering facts and concepts and underlies a basic understanding of how things works.

For their study, researchers recruited 70 cognitively healthy people, 27 patients with Alzheimer’s 25 patients with mild cognitive impairment (MCI), often considered a precursor to dementia. All were tested on their ability to make size judgments about two pictures shown to them — the premise being that the bigger the difference in size between two objects, the faster a person would be able to answer the question.

"If you ask someone what is bigger, a key or an ant, they would be slower in their response than if you asked them what is bigger, a key or a house," researcher Terry Goldberg, of the Hofstra North Shore-LIJ School of Medicine, said in a statement.

This held true in the experiments, but the MCI and Alzheimer’s patients had much more trouble when asked to respond to a task with small size differences.

The experiment was then tweaked so that the participants were shown pictures of a small ant and a big house or a big ant and a small house. The MCI and Alzheimer’s patients did not have a problem making judgments about the small ant and big house, but had trouble with the more incongruent set. They were confused about which object was actually larger when shown a big ant and a small house, and were more likely to answer incorrectly or take longer to arrive at a response, the researchers said.

Goldberg said the findings indicate “that something is slowing down the patient and it is not episodic memory but semantic memory.”

The team will continue to study these patients over time to see if these semantic problems get worse as the disease advances.