The good life begins at 50

May 18, 2010 By Leave a Comment

London, May 18 (ANI): Life may begin at 40, but the fun really starts at 50, that’s the conclusion of a new study.

According to the study, carried out at Stony Brook University, in New York, falling levels of stress and worry, a longer life and better health mean life begins at 50.

Instead of taking a backseat, older adults now pursue fulfillment in a more active and vigorous middle age, reports The Daily Express.

In the study, boffins found that older folks benefited from a “positivity effect” meaning they recalled fewer bad memories, had more emotional control and an ability to see things positively.

The US study of 340,000 people was published in Proceedings of the National Academy of Sciences.

The study found variables like having children or no job had no effect on age-related patterns of well being. (ANI)

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How kids understand the relationship between human and other animals

May 18, 2010 By Leave a Comment

Washington, May 18 (ANI): It has long been believed that as children begin reasoning about the biological world, they adopt an ‘anthropocentric’ stance, favouring humans over non-human animals when it comes to learning about properties of animals. Now, a new study from Northwestern University researchers has challenged this long-held assumption.

In two experiments, Patricia Herrmann, Sandra R. Waxman and Douglas L. Medin in the psychology department in the Weinberg College of Arts and Sciences examined the reasoning patterns of children as young as three years of age.

They found that although 5-year-olds adopted an anthropocentric perspective, 3-year-olds showed no hint of anthropocentrism.

This outcome suggests a new model of development: Human-centered reasoning is not an obligatory starting point for development, as researchers and educators had previously assumed.

Instead, it is an acquired perspective, one that emerges between three and five years of age in children raised in urban environments and one that likely reflects young children”s keen sensitivity to the perspectives that are presented to them, however informally, within their communities and in the media for young children.

The researchers say that perhaps most importantly, this new evidence has strong and direct implications for early science education.

“If young children”s fundamental perspectives on the biological world — and the place of humans within it — are sensitive to the experiences, beliefs and practices of their communities, then by the time they enter school, children from different backgrounds may harbour different perspectives,” said Waxman.

“If we are to design more effective science curricula, then it is incumbent upon us to understand the diverse perspectives that even the very youngest children bring with them as they enter their classrooms,” Waxman added.

The results have been published in the Proceedings of the National Academy of Sciences May 17. (ANI)

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Newborns learn while asleep

May 18, 2010 By Leave a Comment

Washington, May 18 (ANI): Sleeping newborn infants are better learners than previously thought, according to a University of Florida researcher.

The boffin’s study could lead to identifying those at risk for developmental disorders such as autism and dyslexia.

“We found a basic form of learning in sleeping newborns, a type of learning that may not be seen in sleeping adults,” said Dana Byrd, a research affiliate in psychology at UF who collaborated with a team of scientists.

The findings give valuable information about how it is that newborns are able to learn so quickly from the world, when they sleep for 16 to 18 hours a day, Byrd said. “Sleeping newborns are better learners, better ‘data sponges’ than we knew,” she said.

In order to understand how newborns learn while in their most frequent state, Byrd and her colleagues tested the learning abilities of sleeping newborns by repeating tones that were followed by a gentle puff of air to the eyelids. After about 20 minutes, 24 of the 26 babies squeezed their eyelids together when the tone was sounded without the puff of air.

The research team’s paper, published online this week in Proceedings of the National Academy of Sciences, describes the results of their experiment with the 1- or 2-day-old infants, comparing them with a control group using EEG and video recordings. The brain waves of the 24 infants were found to change, providing a neural measurement of memory updating.

“While past studies find this type of learning can occur in infants who are awake, this is the first study to document it in their most frequent state, while they are asleep,” Byrd said. “Since newborns sleep so much of the time, it is important that they not only take in information but use the information in such a way to respond appropriately.”

Not only did the newborns show they can learn to give this reflex in response to the simple tone, but they gave the response at the right time, she said.

Learned eyelid movement reflects the normal functioning of the circuitry in the cerebellum, a neural structure at the base of the brain.

This study’s method potentially offers a unique non-invasive tool for early identification of infants with atypical cerebellar structure, who are potentially at risk for a range of developmental disorders, including autism and dyslexia, she said.

The capacity of infants to learn during sleep contrasts with some researchers’ stance that learning new material does not take place in sleeping adults, Byrd said.

The immature nature of sleep patterns in infants could help explain why, she said.

“Newborn infants’ sleep patterns are quite different than those of older children or adults in that they show more active sleep where heart and breathing rates are very changeable,” she said. “It may be this sleep state is more amenable to experiencing the world in a way that facilitates learning.” (ANI)

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Witness brain scan doesn’t help

May 12, 2010 By Leave a Comment

London, May 12 (ANI): Monitoring brain activity of witnesses reveals no more than what they say they remember, a study has shown.

The study by Jesse Rissman and his team at Stanford University in California comes amid controversy over whether to admit functional MRI scans as evidence in US courts.

As part of their research, the team asked 16 volunteers to view 200 mugshots, reports New Scientist.

An hour later, they were again shown pictures of faces, some of which they had seen before and others that were new.

The researchers recorded fMRI scans of the volunteers” brains as they reported which faces they recognised.

While the brain scans matched the volunteers” decisions on whether the faces were familiar, they could not predict if the recollection was accurate.

The team also don”t know how easily a witness could cheat the system: remembering a recent event or fabricating a lie may look the same to the scanner.

The study has been published in the Journal Proceedings of the National Academy of Sciences. (ANI)

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Chemicals from seaweeds damage coral on contact

May 11, 2010 By Leave a Comment

Washington, May 11 (ANI): Researchers have offered first proof that several common species of seaweeds in both the Pacific and Caribbean Oceans can kill corals upon contact using chemical means.

While competition between seaweed and coral is just one of many factors affecting the decline of coral reefs worldwide, this chemical threat may provide a serious setback to efforts aimed at repopulating damaged reefs. Seaweeds are normally kept in check by herbivorous fish, but in many areas overfishing has reduced the populations of these plant-consumers, allowing seaweeds to overpopulate coral reefs.

A study documenting the chemical effects of seaweeds on corals was scheduled to be published May 10, 2010 in the early edition of the journal Proceedings of the National Academy of Sciences (PNAS).

“Between 40 and 70 percent of the seaweeds we studied killed corals,” said Mark Hay, a professor in the School of Biology at Georgia Tech. “We don”t know how significant this is compared to other problems affecting coral, but we know this is a growing problem. For reefs that have been battered by human use or overfishing, the presence of seaweeds may prevent natural recovery from happening at all.”

Coral reefs are declining worldwide, and scientists studying the problem had suspected that proliferation of seaweed was part of the cause – perhaps by crowding out the coral or by damaging it physically.

Using racks of coral being transplanted as part of repopulation efforts, Hay and graduate student Douglas Rasher compared the fate of corals from two different species when they were placed next to different types of seaweed common around Fijian reefs in the Pacific – and Panamanian reefs in Caribbean. They planted the seaweeds next to coral being transplanted – and also placed plastic plants next to some of the coral to simulate the effects of shading and mechanical damage. Other coral in the racks had neither seaweeds nor plastic plants near them.

The researchers revisited the coral two days, 10 days and 20 days later. In as little as two days, corals in contact with some seaweed species bleached and died in areas of direct contact. In other cases, the effects took a full 20 days to appear – or for some seaweed species, no damaging effects were noted during the 20-day period. Ultimately, as much as 70 percent of the seaweed species studied turned out to have harmful effects – but only when they were in direct contact with the coral.

To confirm that chemical factors were responsible, Hay and Rasher extracted chemicals from the seaweeds – and from only the surfaces of the seaweeds. They then applied both types of chemicals to corals by placing the chemicals into gel matrix bound to a strip of window screen, forming something similar to a gauze bandage and applying that directly to the corals. To a control group of corals, they applied the gel and screen without the seaweed chemicals.

The effects confirmed that chemicals from both the surface of certain seaweeds and extracts from those entire plants killed corals.

“In all cases where the coral had been harmed, the chemistry appeared to be responsible for it,” said Hay. “The evolutionary reasons why the seaweeds have these compounds are not known. It may be that these compounds protect the seaweeds against microbial infection, or that they help compete with other seaweeds. But it”s clear now that they also harm the corals, either by killing them or suppressing their growth.” (ANI)

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Ancient leaves shed light on future climate

May 7, 2010 By Leave a Comment

Washington, May 7 (ANI): Scientists say that fossil plant remains from millions of years ago might shed light on future climate changes caused by rising levels of carbon dioxide.

“Carbon isotopes are really important for understanding the carbon cycle of the past, and we care about the carbon cycle of the past because it gives us clues about future climate change,” say Aaron Diefendorf, graduate student in geosciences at Penn State.

The researchers say that clues about how the environment responded to global warming events millions of years ago can be found in carbon isotope ratios from ancient fossil leaves, sediments and pollen.

However, environmental conditions also impact leaf carbon isotope ratios, a complexity Diefendorf and Mueller resolved with their study.

The researchers suggest the environmental relationships highlighted in their study can be used to modify existing climate records to produce a more accurate, robust account of past atmospheric conditions and how it correlates with temperature change.

The study appeared in a recent issue of the Proceedings of the National Academy of Sciences. (ANI)

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Early UVA light exposure ‘doesn’t cause melanoma’

May 5, 2010 By Leave a Comment

Washington, May 5 (ANI): Scientists from The University of Texas MD Anderson Cancer Center have found that early life exposure to ultraviolet A light does not cause melanoma.

The researchers, therefore, concluded that UVA exposure is unlikely to have contributed to the rise in the incidence of melanoma over the past 30 years

UVA is a carcinogen responsible for squamous cell carcinomas that also causes premature aging of the skin and suppresses the immune system. It”s also possible, the authors note, that long-term chronic exposure to UVA can hasten the progression to malignancy of melanocytes in the skin that are already on the path to becoming melanoma.

Study’s lead author David Mitchell, professor in M. D. Anderson”s Department of Carcinogenesis located at its Science Park – Research Division in Smithville, Texas, and colleagues tested the effects of UVA and ultraviolet B (UVB) light exposure in melanoma-prone fish hybrids that develop the disease spontaneously 15-20 percent of the time without exposure to UV light.

The scientists exposed a hybrid form of the genus Xiphophorus, more commonly known as platyfishes and swordtails, to either UVA or UVB daily between their fifth and 10th day of life. The fish were then scored for melanoma 14 months after exposure.

“We found that UVB exposure induced melanoma in 43 percent of the 194 treated fish, a much higher rate than the 18.5 percent incidence in the control group that received no UV exposure,” Mitchell said.

This was expected because UVB exposure at an early age is a well-established cause of melanoma.

Only 12.4 percent of 282 fish exposed to UVA developed the disease, which is not statistically different from the control group.

The study has been reported in the online early edition of the Proceedings of the National Academy of Sciences. (ANI)

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Purple periwinkles may help fight inflammatory diseases

May 4, 2010 By Leave a Comment

Washington, May 4 (ANI): Vinpocetine, a natural product derived from the periwinkle plant, can act as a novel anti-inflammatory agent that may one day be used for the treatment of chronic obstructive pulmonary disease, or COPD, as well as other inflammatory conditions, say scientists.

In the study published in the Proceedings of the National Academy of Sciences, researchers at the University of Rochester Medical Center were the first to find that vinpocetine acts as a potent anti-inflammatory agent when tested in a mouse model of lung inflammation, as well as several other types of human cells.

Results of the study show that vinpocetine greatly reduces inflammation, and, unlike steroids, does not cause severe side effects.

“What is extremely exciting and promising about these findings is vinpocetine”s excellent safety profile,” said Chen Yan, Ph.D., associate professor within the Aab Cardiovascular Research Institute at the Medical Center and a senior author of the study. “Previously, most drugs tested in this area have failed, not because of a lack of efficacy, but because of safety issues. We”re very encouraged by these results and believe vinpocetine has great potential for the treatment of COPD and other inflammatory diseases.”

Vinpocetine is a well-known natural product that was originally discovered nearly 30 years ago and is currently used as a dietary supplement for the prevention and treatment of cognitive disorders, such as stroke and memory loss, in Europe, Japan and China. (ANI)

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Our bodies make their own morphine

April 27, 2010 By Leave a Comment

Washington, Apr 27 (ANI): Human bodies may possess the biochemical machinery to produce a small but steady amount of natural morphine, according to a new study.

In the study, it was shown that mice produce the “incredible painkiller”, and that humans and other mammals possess the same chemical road map for making it, said study co-author Meinhart Zenk, who studies plant-based pharmaceuticals at the Donald Danforth Plant Science Center in St. Louis, Missouri.

To come up with finding, boffins injected mice with an extra dose of a natural brain chemical called tetrahydropapaveroline (THP), which humans and mice are known to produce, reports The National Geographic News.

And then, by using a tool called a mass spectrometer to analyze the mouse urine, the team was able to tell that THP underwent chemical changes in the body that created morphine.

The study has been published in the journal Proceedings of the National Academy of Sciences. (ANI)

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Two key brain regions work in tandem like integrated network

April 20, 2010 By Leave a Comment

Washington, Apr 20 (ANI): Two important areas in the central nervous system— basal ganglia and the cerebellum—are linked together to form an integrated functional network, say researchers at the University of Pittsburgh.

Each subcortical structure houses a unique learning mechanism.

It is believed that the basal ganglia circuits are involved in reward-driven learning and the gradual formation of habits.

On the other hand, cerebellar circuits are thought to contribute to more rapid and plastic learning in response to errors in performance.

“The basal ganglia and the cerebellum are two major subcortical structures that receive input from and send output to the cerebral cortex to influence movement and cognition,” explained senior author Dr. Peter L. Strick, professor of neurobiology and co-director of the Center for the Neural Basis of Cognition, Pitt School of Medicine.

“In the past, these two learning mechanisms were viewed as entirely separate, and we wondered how signals from the two were integrated. Using a unique method for revealing chains of synaptically linked neurons, we have demonstrated that the cerebellum and basal ganglia are actually interconnected and communicate with each other,” said Strick.

The finding not only has important implications for the normal control of movement and cognition, but it also helps to explain some puzzling findings from patients with basal ganglia disorders.

“Our findings provide a neural basis for these findings. In essence, the pathways that we have discovered may enable abnormal signals from the basal ganglia to disrupt cerebellar function. The alterations in cerebellar function are likely to contribute to the disabling symptoms of basal ganglia disorders. Thus, a new approach for treating these symptoms might be to attempt to normalize cerebellar activity,” said Strick.

The findings are available online this week in the Proceedings of the National Academy of Sciences. (ANI)

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Why some people are more susceptible to stress than others

March 31, 2010 By Leave a Comment

Washington, March 31 (ANI): Scientists have found new clues to why some people are more susceptible to stress than others.

In a study of mice, researchers at UT Southwestern Medical Center determined that weeks after experiencing a stressful event, animals that were more susceptible to stress exhibited enhanced neurogenesis – the birth of new nerve cells in the brain.

Specifically, the cells that these animals produced after a stressful event survived longer than new brain cells produced by mice that were more resilient.

In addition, when researchers prevented neurogenesis in both stress-susceptible and resilient mice, the animals previously susceptible to stress became more resilient.

“This work shows that there is a period of time during which it may be possible to alter memories relevant to a social situation by manipulating adult-generated nerve cells in the brain,” said Dr. Amelia Eisch, associate professor of psychiatry at UT Southwestern and senior author of the study.

“This could eventually lead to a better understanding of why, in humans, there is an enormous variety of responses to stressful situations,” Eisch added.

The study appears in the Proceedings of the National Academy of Sciences. (ANI)

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Power of plants harnessed to fight hemophilia

March 31, 2010 By Leave a Comment

Washington, Mar 31 (ANI): Researchers at the University of Florida and the University of Central Florida have modified plants to fight hemophilia, a disease linked with legends of European monarchs.

The standard treatment for the disease is infusion with an expensively produced protein that helps the blood to clot. But in some patients the immune system fights the therapy, and in a subset of those, it sets off an allergic reaction that can result in death.

Now boffins at the universities have come up with a way that potentially could help patients develop tolerance to the therapeutic protein before they are in need of treatment.

They genetically modified plants to encapsulate the tolerance-inducing protein within cell walls so that when ingested, it can travel unscathed through the stomach and be released into the small intestines where the immune system can act on it.

The low-cost plant-based system, now being tested in mice, eventually could help improve the lives of many people who have hemophilia and dramatically reduce related health-care costs. The approach also has the potential for use with other conditions such as food allergies and autoimmune diseases.

“We”re hoping that our research will, in the future, result in better and more cost-effective therapies,” said Roland Herzog, Ph.D., an associate professor of pediatrics, molecular genetics and microbiology in the UF College of Medicine and a member of the UF Genetics Institute, who was one of the study”s leaders.

The findings have been published in the Proceedings of the National Academy of Sciences.

Hemophilia is characterized by defects in the gene that produces a protein required for blood to clot. People with hemophilia can suffer from spontaneous internal bleeding or severe bleeding resulting from minor injuries. Males get the disease, which is linked to the X chromosome, while females are “carriers” who rarely exhibit symptoms. The two forms of the disease — hemophilia A and B — are associated with the absence of proteins called factor VIII and factor IX, respectively. (ANI)

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How the brain constructs morality

March 30, 2010 By Leave a Comment

Washington, Mar 30 (ANI): MIT neuroscientists have influenced people”s moral judgments by disrupting specific brain region, a development that helps reveal how the brain constructs morality.

To make moral judgments about other people, we often need to infer their intentions – an ability known as “theory of mind.”

Previous studies have shown that a brain region known as the right temporo-parietal junction (TPJ) is highly active when we think about other people”s intentions, thoughts and beliefs. In the new study, the researchers disrupted activity in the right TPJ by inducing a current in the brain using a magnetic field applied to the scalp. They found that the subjects” ability to make moral judgments that require an understanding of other people”s intentions was impaired.

The researchers, led by Rebecca Saxe, MIT assistant professor of brain and cognitive sciences, report their findings in the Proceedings of the National Academy of Sciences the week of March 29.

The study offers “striking evidence” that the right TPJ, located at the brain”s surface above and behind the right ear, is critical for making moral judgments, says Liane Young, lead author of the paper. It”s also startling, since under normal circumstances people are very confident and consistent in these kinds of moral judgments, says Young, a postdoctoral associate in MIT”s Department of Brain and Cognitive Sciences.

“You think of morality as being a really high-level behavior,” she says. “To be able to apply (a magnetic field) to a specific brain region and change people”s moral judgments is really astonishing.”

To reach the conclusion, the researchers used a non-invasive technique known as transcranial magnetic stimulation (TMS) to selectively interfere with brain activity in the right TPJ. A magnetic field applied to a small area of the skull creates weak electric currents that impede nearby brain cells” ability to fire normally, but the effect is only temporary.

In one experiment, volunteers were exposed to TMS for 25 minutes before taking a test in which they read a series of scenarios and made moral judgments of characters” actions on a scale of 1 (absolutely forbidden) to 7 (absolutely permissible).

In a second experiment, TMS was applied in 500-milisecond bursts at the moment when the subject was asked to make a moral judgment. For example, subjects were asked to judge how permissible it is for someone to let his girlfriend walk across a bridge he knows to be unsafe, even if she ends up making it across safely. In such cases, a judgment based solely on the outcome would hold the perpetrator morally blameless, even though it appears he intended to do harm.

In both experiments, the researchers found that when the right TPJ was disrupted, subjects were more likely to judge failed attempts to harm as morally permissible. Therefore, the researchers believe that TMS interfered with subjects” ability to interpret others” intentions, forcing them to rely more on outcome information to make their judgments. (ANI)

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How bats avoid collisions

March 30, 2010 By Leave a Comment

Washington, March 30 (ANI): A study led by Brown University researchers has discovered how bats avoid collisions.

For the study, James Simmons, a professor of neuroscience at Brown University, and his colleagues at Brown and in Japan, conducted a series of innovative experiments designed to mimic a thick forest.

Their research has appeared in the Proceedings of the National Academy of Sciences early edition.

According to the researchers, echolocating bats minimize sound wave interference by tweaking the frequencies of the sounds they emit – their broadcasts – to detect and maneuver around obstacles.

They also found that bats make mental templates of each broadcast and the echo it creates, to differentiate one broadcast/echo set from another.

The research may lead to the design of better sonar and radar systems by capitalizing on the bats” natural ability to ferret out duplicative echoes in environments that otherwise could produce “phantom” objects.

The scientists created a 13-row long by 11-row wide U-shaped grid of ceiling-to-floor chain links to test big brown bats” ability to locate obstacles at various distances in their flight path and to make nearly instantaneous adjustments.

They used a miniature radio microphone created by their Japanese colleagues and attached it to the bats” heads to record their sounds (which are made in pairs).

Other microphones placed in the room recorded the echoes produced from the bats” broadcasts, giving the researchers a comprehensive, accurate recording of the bats” echo-processing methods.

The scientists also filmed the bats with high-resolution video cameras.

The team noticed almost immediately that the bats were confronted with overlapping echoes to their rapid firing of broadcasts. That could create confusion where obstacles were located and even produce objects that weren”t really there.

Mary Bates, a fourth-year graduate student at Brown and a contributing author on the paper, said: “When there are a lot of obstacles in the environment, a bat needs to emit sounds quickly.

“It can”t wait for another sound to return before updating its image” (of the scene in which it”s flying).

An echo from the bat”s first broadcast could masquerade as the echo from a subsequent broadcast.

The bat overcomes this potentially confusing cascade of signals by making a template, or mental fingerprint, of each broadcast and corresponding echo, the team learned. That way, the bat needs only to slightly alter the frequency of its broadcast to create a broadcast/echo template that doesn”t match the original.

The team found that bats change the frequency of their broadcasts by no more than 6 kilohertz. That”s a good thing, as bats” frequency range covers only roughly 20 to 100 kilohertz.

Simmons said: “They”ve evolved this, so they can fly in clutter.

“Otherwise, they”d bump into trees and branches.” (ANI)

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Recognising sensual sounds is culture specific

March 19, 2010 By Leave a Comment

Washington, Mar 19 (ANI): When it comes to recognising positive emotions like sensual pleasure, relief and achievement, there exists a strong cultural divide, according to researchers at University College London”s psychology department.

The scientists studied a range of non-verbal emotional vocalizations, such as screams and laughs, in two very different cultural groups.

They compared the responses of Westerners to those of the remote and culturally isolated semi-nomadic Himba people of Namibia.

And it was found that both groups recognised vocalizations expressing the six basic emotions – anger, disgust, fear, joy, sadness, and surprise.

This indicated that they, like facial expressions, are universally evolved functions.

However, when an additional set of positive emotions was introduced – achievement, sensual pleasure and relief – they were only reliably recognized by the Western subjects.

These newly discovered cultural variations suggested that the vocalization of some positive emotions might be learned socially, rather than representing products of evolution.

Describing the experiment as ”fascinating” in her review, F1000 Faculty Member Argye Hills, of Johns Hopkins Medical Institute, said that the study “highlights the importance of considering a range of positive emotions in cross-cultural research.”

The study has been published in Proceedings of the National Academy of Sciences of the USA. (ANI)

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Glaucoma starts in the brain, not the eye

March 17, 2010 By Leave a Comment

Washington, Mar 17 (ANI): Blindness from glaucoma starts with an injury in the brain, not the eye, researchers have claimed.

According to a team, headed by David Calkins, director of research at Vanderbilt University”s Eye Institute, the disease – the leading cause of irreversible blindness – shows up first in the brain, not the eye.

The researchers made the discovery after injecting glaucoma-afflicted rodents with a special fluorescent dye that illuminated sections of the middle of the brain where the optic nerve forms its first connections, reports Discovery News.

After analyses, boffins found that the disease’s first signs were not in the retina. Instead, it turned that out the earliest damage was at the other end of the optic nerve, in the mid-brain, which lost its ability to receive information from optic nerve fibers.

The optic nerve is a cable that connects the retina, the light-sensitive tissue lining the inner surface of the eye, with the brain.

“It”s a very interesting study,” Darrell WuDunn, residency program director of the Department of Ophthalmology at Indiana University School of Medicine, told Discovery News. “It does have potentially profound implications for treatment, and even diagnosis, of glaucoma, if it holds true for humans.”

“This study shows that the deficits start in the brain, not the eye,” WuDunn said.

The research was published in the March 1 issue of the Proceedings of the National Academy of Sciences. (ANI)

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Why family history ups Alzheimer”s risk – especially from the maternal side

March 16, 2010 By Leave a Comment

Washington, March 16 (ANI): Previous studies have shown that the incidence of Alzheimer”s is higher among those whose parents were diagnosed with the memory-robbing disease. Now, scientists have found the likely basis for this heightened familial risk—especially from the maternal side.

With the help of a new version of a brain scanning technique, an international collaboration led by NYU Langone Medical Center researchers discovered a far greater number of protein clumps linked to the disease among healthy adult children of parents with Alzheimer”s compared to counterparts with no family history of dementia.

The average increase in these clumps, called amyloid-beta plaques, was particularly striking among study volunteers whose mothers had been diagnosed with the disease. The plaques appeared throughout most regions of the brain.

The study examined 42 healthy individuals, including 14 whose mothers had Alzheimer”s, 14 whose fathers had Alzheimer”s, and 14 counterparts with no family history of the disease.

On average, the first group of volunteers showed a 15 percent higher burden of amyloid-beta deposits than those with a paternal family history, and a 20 percent higher burden of the protein clumps than those with no familial risk factors.

The new findings may help explain why a family history is such a big risk factor for the brain disease—individuals with an affected parent have a four- to ten-fold greater risk than those with no family history.

The study has been published in the March 15, 2010, online early edition of Proceedings of the National Academy of Sciences. (ANI)

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Babies are born to dance

March 16, 2010 By Leave a Comment

Washington, Mar 16 (ANI): Infants respond to the rhythm and tempo of music and find it more engaging than speech, boffins have found.

The finding suggests that babies may be born with a predisposition to move rhythmically in response to music.

The research was conducted by Dr Marcel Zentner, from the University of York”s Department of Psychology, and Dr Tuomas Eerola, from the Finnish Centre of Excellence in Interdisciplinary Music Research at the University of Jyvaskyla.

Dr Zentner said: “Our research suggests that it is the beat rather than other features of the music, such as the melody, that produces the response in infants.

“We also found that the better the children were able to synchronize their movements with the music the more they smiled.

“It remains to be understood why humans have developed this particular predisposition. One possibility is that it was a target of natural selection for music or that it has evolved for some other function that just happens to be relevant for music processing.”

In the study, Infants listened to a variety of audio stimuli including classical music, rhythmic beats and speech. Their spontaneous movements were recorded by video and 3D motion-capture technology and compared across the different stimuli.

Professional ballet dancers were also used to analyse the extent to which the babies matched their movement to the music.

The study has been published in the journal Proceedings of the National Academy of Sciences Online Early Edition. (ANI)

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Gene switch discovery may help humans regrow body parts

March 16, 2010 By Leave a Comment

London, Mar 16 (ANI): Scientists have discovered a gene which they claim could help make regrowing amputated limbs, broken backs and even damaged brains a reality.

The gene p21, researchers claim, appears to block the healing power enjoyed by some creatures including amphibians but lost through evolution to all other animals.

By turning off p21, the process can be miraculously switched back on, the academics from The Wistar Institute in Philadelphia said.

In their study, they found that mice lacking the p21 gene gain the ability to regenerate lost or damaged tissue.

Unlike mammals, which heal wounds by forming a scar, these mice begin by forming a blastema, a structure associated with rapid cell growth.

As per the researchers, the loss of p21 causes the cells of these mice to behave more like regenerating embryonic stem cells rather than adult mammalian cells. This means they act as if they creating rather thane mending the body.

Their findings, published in the Proceedings of the National Academy of Sciences, provide solid evidence to link tissue regeneration to the control of cell division, reports The Telegraph.

Professor Ellen Heber-Katz, the lead scientist, said: “Much like a newt that has lost a limb, these mice will replace missing or damaged tissue with healthy tissue that lacks any sign of scarring.

“While we are just beginning to understand the repercussions of these findings, perhaps, one day we”ll be able to accelerate healing in humans by temporarily inactivating the p21 gene.

“In normal cells, p21 acts like a brake to block cell cycle progression in the event of DNA damage, preventing the cells from dividing and potentially becoming cancerous.

“We propose that any future therapy would involve turning off p21 transiently during the healing process and only locally at the wound site. This might be done through locally applied drugs. This should minimise any side effects.” (ANI)

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Had flu? You may have H1N1 protection

November 19, 2009 By Leave a Comment

People who have had repeated flu infections — or repeated flu vaccines — may have some protection against the new pandemic swine influenza, U.S. researchers said on Monday.

They found evidence that the human immune system can recognize bits of the new H1N1 virus that are similar to older, distantly related H1N1 strains.

“What we have found is that the swine flu has similarities to the seasonal flu, which appear to provide some level of pre-existing immunity. This suggests that it could make the disease less severe in the general population than originally feared,” said Alessandro Sette, director of the Center for Infectious Disease at California’s La Jolla Institute.

The study, published in the Proceedings of the National Academy of Sciences, may also help explain why many older people are less likely to have severe disease, said Allison Deckhut-Augustine of the National Institute of Allergy and Infectious Diseases.

“Adults may have some pre-existing immunity for H1N1,” Deckhut-Augustine said in a telephone interview.

That does not mean older people are protected from infection, and Deckhut-Augustine stressed that people should still be vaccinated against H1N1.

Swine flu has infected millions of people globally and killed an estimated 3,900 in the United States alone, according to the U.S. Centers for Disease Control and Prevention. Drug makers are struggling to make vaccines and governments are working to vaccinate their populations.

Bjoern Peters and colleagues at the La Jolla Institute looked at flu epitopes — molecular markers or structures that the immune system recognizes — dating back 20 years.

“We found that the immune system’s T-cells can recognize a significant percent of the markers in swine flu,” Peters said in a statement.

DUAL PROTECTION

The human immune system has two kinds of protection. Antibody response can prevent infection, while T-cells fight infection once it has occurred.

Peters and colleagues found T-cell protection but not antibody response.

“This T-cell response decreases severity of disease but doesn’t prevent infection,” said Deckhut-Augustine, whose agency helped pay for the study and maintains the public database that Peters used.

The effect could be cumulative, Peters said, which could explain why people over 50 seem to be less likely to get noticeable H1N1 infections.

“This may also suggest why children are more susceptible to severe infection and why they might need two boosts,” Deckhut-Augustine said. “They haven’t been around as long and they haven’t been exposed to different strains of H1N1 as long as adults.”

Influenza is a very mutation-prone virus and from year to year the circulating strains drift, or change slightly. This is why new vaccines must be formulated each year and why people can catch flu again and again.

The new H1N1 was a never-before-seen combination of swine flu viruses, with a sprinkling of human and avian flu virus genetic sequences. But its long-ago ancestor was an H1N1 virus first seen in the 1918 influenza pandemic that killed upwards of 50 million people.

The researchers found that the new H1N1 swine flu shared 49 percent of its epitopes with older, seasonal H1N1 strains.

Using blood from healthy donors, they found that T-cells could recognize about 17 percent of these markers.

(Editing by Eric Beech)

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