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Wednesday, May 2, 2012

Devastating disease provides insight into development and death of motor neurons




Researchers at UCLA have been searching for the cause of a rare disease that virtually no one has ever heard: PCH1, or pontocerebellar hypoplasia type 1, which attacks the brain and the spine.
It's a particularly cruel disorder, occurring mostly in infants, who begin manifesting symptoms at or soon after birth, with poor muscle tone, difficulty feeding, growth retardation and global developmental delay.
Now, thanks to the cooperation of a California family stricken by the disorder and a state-of-the-art genomic sequencing lab at UCLA, Dr. Joanna Jen, a UCLA professor of neurology, and colleagues discovered a specific mutation of a gene that is responsible for PCH1 in this family, then confirmed mutations in the same gene in several other PCH1 families around the world.
The study appears in the April 29 in the online edition of the journal Nature Genetics.
The diagnosis of PCH1 is often delayed or never made because the combination of cerebellar and spinal motor-neuron degeneration is very rare and not commonly recognized. The discovery of the gene, EXOSC3 (exosome component 3), showed that it is critically important in the normal development and survival of neurons, especially in the cerebellum, and for motor neurons in the spine, which innervate or stimulate muscles.
Five years ago, Jen began working with a family living in Southern California with four boys who were neurologically afflicted. They were floppy at birth, suffered from progressive muscle wasting and were never able to stand, walk or speak. Today, they range in age from 9 to the teens, and none weighs more than 50 pounds.
The family was referred to Jen because of her special interest in rare neurological disorders. As Jen reviewed the medical history and examined the children to reach a clinical diagnosis, she began searching for the causative gene in collaboration with Dr. Stanley Nelson, a professor and vice chair of the UCLA Department of Human Genetics.
Nelson, who also directs the UCLA Clinical Genomics Center, and his graduate student Michael Yourshaw, used a new technique called exome sequencing. The exome is the part of the genome that directs those proteins that are actually expressed — that is, it provides the genetic blueprint for functional genes. Exome sequencing searches just the protein-coding regions in the genome to pinpoint disease-causing mutations. In this way, they were able to quickly survey some 22,000 protein-encoding genes to identify a defect in the EXOSC3 gene in this single California family.
To confirm their finding, Jen reached out to other neurologists around the world, eventually verifying the presence of the same defective gene in eight other families stricken with PCH1. And by using a model of the disease in zebrafish, Jijun Wan, a UCLA research scientist in neurology, found that preventing the EXOSC3 gene from expressing in zebrafish caused embryonic maldevelopment and poor movement reminiscent of human clinical features. These symptoms were largely reversed when the researchers injected normal EXOSC3, suggesting that it was indeed the mutations that disrupted normal function.
The EXOSC3 gene encodes a core component of the RNA exosome complex, which is essential for all organisms and which is emerging as the major cellular machinery in the processing of RNA to regulate gene expression, Jen said. There is increasing appreciation for the diversity of RNAs, she noted, as it is becoming clear that the majority of genomic information is transcribed into RNA.
"When we began this study, mutations in the RNA exosome had not been associated with any human disease," Jen said. "Relatively little is known about the human RNA exosome. It is surprising that a gene that is expressed in every cell should have such a selective detrimental impact on the cerebellar and spinal motor neurons.
There is increasing focus on RNA metabolism in motor neuron diseases such as amyotrophic lateral sclerosis (ALS), also known as Lou Gehrig's disease, and spinal muscular atrophy (SMA), the leading genetic cause of infant mortality, Jen said. The discovery of defects in the RNA exosome causing combined SMA and PCH further emphasizes the importance of the regulation of RNA metabolism.
"The discovery may lead to potential targets for treatment and in addition enhances our understanding of the biological function of the RNA exosome," said Jen. She is working with other neurologists to better define the clinical spectrum of EXOSC3-associated PCH1.
"It is remarkable that all of the affected children in this family have survived beyond infancy. We are grateful for the generosity of the family in sharing their experience and participating in research to improve the lives of other children who are similarly affected," said Jen.
Provided by University of California, Los Angeles
"Devastating disease provides insight into development and death of motor neurons." April 30th, 2012. http://medicalxpress.com/news/2012-04-devastating-disease-insight-death-motor.html
Posted by
Robert Karl Stonjek

First Sketches of the Popular Cartoon Characters









The Real Beauty of Kerala Resorts











Technology eases migraine pain in the deep brain



Migraine pain sits at the upper end of the typical pain scale – an angry-red section often labeled "severe." At this intensity, pain is debilitating. Yet many sufferers do not get relief from – or cannot tolerate – over-the-counter and commonly prescribed pain medications.
Recently, a team of researchers that includes Dr. Marom Bikson, associate professor of biomedical engineering in CCNY's Grove School of Engineering, has shown that a brain stimulation technology can prevent migraine attacks from occurring. Their technique, using transcranial direct current stimulation (tDCS), applies a mild electrical current to the brain from electrodes attached to the scalp.
"We developed this technology and methodology in order to get the currents deep into the brain," said Bikson. The researchers aimed to tap into the so-called pain network, among other areas, a collection of interconnected brain regions involved in perceiving and regulating pain.
Professor Bikson and his colleagues, including Dr. Alexandre DaSilva at the University of Michigan School of Dentistry and Dr. Felipe Fregni at Harvard Medical School, found that the technology seems to reverse ingrained changes in the brain caused by chronic migraine, such as greater sensitivity to headache triggers.
Repeated sessions reduced the duration of attacks and decreased the pain intensity of migraines that did occur on average about 37 percent. The improvements accumulated over four weeks of treatment and they persisted.
In pilot studies, the effects lasted for months. The only side effect subjects reported was a mild tingling sensation during treatment. Professor Bikson expects that a patient could use the system every day to ward off attacks, or periodically, like a booster.
The team's computational models show that tDCS delivers therapeutic current along the pain network through both upper (cortical) and deep brain structures. They will publish their results in the journal "Headache." It is currently available online.
Thirty-six million Americans suffer from migraine, according to the Migraine Research Foundation. Of these, 14 million of them experience chronic daily headaches. "The fact that people still suffer from migraines means that the existing treatments using electrical technology or chemistry are not working," said Professor Bikson.
Existing brain stimulation technologies can help relieve a migraine already underway. But those afflicted with chronic migraine pain may suffer 15 or more attacks a month, making treatment a constant battle.
The other techniques also have drawbacks – from heavy, unwieldy equipment to serious side effects, such as seizures. Some only stimulate the upper layers of the brain. Others reach deep brain regions, but require brain surgery to implant the electrodes.
The tDCS technology is safe, easy to use, and portable, Professor Bikson said. "You can walk around with it and keep it in your desk drawer or purse. This is definitely the first technology that operates on just a 9-volt battery and can be applied at home." He envisions future units as small as an iPod.
The next step will be to scale up clinical trials to a larger study population. A market-ready version of the tDCS is still years away.
"There's something about migraine pain that's particularly distressing," noted Professor Bikson. "If it's possible to help some people get just 30 percent better, that's a very meaningful improvement in quality of life."
More information: Headache, 18 April 2012. DOI: 10.1111/j.1526-4610.2012.02141.x 
Provided by City College of New York
"Technology eases migraine pain in the deep brain." May 1st, 2012. http://medicalxpress.com/news/2012-05-technology-eases-migraine-pain-deep.html
Posted by
Robert Karl Stonjek

Key lessons from history on alcohol taxes



Steep rises in taxes on alcohol do not necessarily reduce consumption, according to research funded by the Economic and Social Research Council (ESRC) into the history of intoxicants in 16th and 17th England.
Dr Philip Withington at the University of Cambridge has found that affluence rather than poverty has tended to drive consumption levels, especially among the middle classes and higher,even though legislation and enforcement is often focused on the poorer parts of the population.
"If alcohol consumption is traditionally an index of affluence, then minimum pricing will not do much to the consumption of affluent groups: rather it affects the less affluent." He said the decision in March 2012 by the Coalition Government to set a minimum price of 40p on a unit of alcohol to reduce consumption was a reverse of the principle behind traditional price fixing, which had been to protect consumers from sharp rises and guarantee the availability of necessities like beer.
Dr Withington argues that it was in the 16th and 17th centuries that a recognizably modern politics of alcohol and tobacco emerged. He said that there were tensions within society in both eras that made it hard to produce effective regimes for alcohol. These included: growing commercial interests, such as beer brewers and tobacco merchants, at loggerheads with powerful reformatory bodies like the Society for the Reformation of Manners; a state dependent on the revenue from intoxicants but also determined to regulate its consumption; and a vibrant public debate over the issues but an industry resilient to government and public pressure.
"It would be nice if all members in the current debate could recognise that the structure of the politics of intoxication today is very similar to that which had emerged by 1700s'," he said. "There is unlikely, therefore, to be a final solution anytime soon." Dr Withington argues that intoxicants - including traditional alcohols and 'new' commodities such as tobacco and opium helped fuel the transition from medieval to modern society.
However, he also points out some major differences between the current situation and the past. The first is that greater gender equality means that woman drinkers have increased the number of consumers. The second is the role of the medical professions who have replaced moralists as the main drivers of reform.
Dr Withington says that while he has the utmost respect for the statistical analysis upon which the recent policy initiative rests, the Government should also take into account the historical and cultural factors which shape the consumption behaviour of different groups. They should also recognize the complexity of the issue and avoid moral panics.
"Policy makers need to be clear about what they are addressing because intoxicants are embedded in many aspects of modern life, and they can become a scapegoat for real fears about crime and disorder, medical infrastructures and costs, as well as unregulated youths" he says.
Provided by Economic & Social Research Council
"Key lessons from history on alcohol taxes." May 1st, 2012. http://phys.org/news/2012-05-key-lessons-history-alcohol-taxes.html
Posted by
Robert Karl Stonjek

Barrow researchers unravel illusion




Barrow Neurological Institute researchers Jorge Otero-Millan, Stephen Macknik, and Susana Martinez-Conde share the recent cover of the Journal of Neuroscience in a compelling study into why illusions trick our brains. Barrow is part of St. Joseph's Hospital and Medical Center in Phoenix.
The study, led by Martinez-Conde's laboratory, explores the neural bases of illusory motion in Akiyoshi Kitaoka's striking visual illusion, known as the "Rotating Snakes." Kitaoka is a Japanese psychology professor who specializes in visual illusions of geometric shapes and motion illusions.
The study shows that tiny eye movements and blinking can make a geometric drawing of "snakes" appear to dance. The results help explain the mystery of how the Rotating Snakes illusion tricks the brain.
"Visual illusions demonstrate the ways in which the brain creates a mental representation that differs from the physical world," says Martinez-Conde. "By studying illusions, we can learn the mechanisms by which the brain constructs our conscious experience of the world."
Earlier studies of the "Rotating Snakes" indicated the perception of motion was triggered by the eyes moving slowly across the illusion. But by tracking eye movements in eight volunteers, the vision neuroscientists found a different explanation: fast eye movements called "saccades," some of which are microscopic and undetectable by the viewer, drive the illusory motion.
Participants lifted a button when the snakes seemed to swirl and pressed down the button when the snakes appeared still. Right before the snakes appeared to move, participants tended to produce blinks, saccades and/or microsaccades, and right before the snakes stopped, participants' eyes tended to remain stable, Otero-Millan, Macknik, and Martinez-Conde report in the April 25th Journal of Neuroscience cover story.
"Studying the mismatch between perception and reality may lead to a deeper understanding of the mind," says Martinez-Conde. "The findings from our recent study may help us to understand the neural bases of motion perception, both in the normal brain, and in patients with brain lesions that affect the perception of motion. This research could aid in the design of neural prosthetics for patients with brain damage."
Provided by St. Joseph's Hospital and Medical Center
"Barrow researchers unravel illusion." May 1st, 2012. http://medicalxpress.com/news/2012-05-barrow-unravel-illusion.html
Posted by
Robert Karl Stonjek

Roboticist creates Hugvie - Huggable vibrating pillow smartphone accessory



(Phys.org) -- Japanese robot designer Hiroshi Ishiguro is fast becoming a sort of roboticist for the people, in Japan anyway. Instead of terminator style robots meant to do a lot of serious work or to serve on the battlefield, his robots are soft and cushy, cute and perhaps a little smooshy. He’s also created a robot in his own image. Now he’s introducing something he calls the Hugvie, a robot that looks sort of like a generic mono-legged human baby, or perhaps a doll with no eyes, fingers or toes. It serves as the medium through which people converse in a new way using a smartphone. While holding, or pressing the Hugvie against the face, it vibrates slightly at the same frequency as the voice on the other end, adding another degree of intimacy to the conversation. At least that’s the idea.
In reality, it’s a stuffed pillow with a little pocket for holding a cell phone. When in use, a hidden gadget listens in and converts the sounds it hears to vibrations which it sends through the pillow to the person holding it.
Ishiguro, an Osaka University professor, and inventor of the Telenoid R1, which has been described as an animated outsized fetus that talks, spoke at a press conference in Tokyo recently, to announce the debut of Hugvie. He said that the robot actually has two vibrators inside of it and that together they are meant to mimic the sound of the human heartbeat. He added that the vibrations can be customized to allow for softer or stronger pulses as they respond to the volume and strength of the voice on the other end of the line. He added that his team has already tested the Hugvie in several environments and that people, especially senior citizens, tend to hug the little pillow bot when speaking with someone close to them.
This video is not supported by your browser at this time.
The idea behind the Hugvie is to add another dimension to the experience of speaking on the phone with someone in intimate ways; taking pillow talk to the next level if you will, providing that feeling of being there with that other person who really isn’t. The vibrations are meant to reproduce the sensations people would experience were they able to talk to one another with their faces, throats or chests touching, as people often do when lying down with one another while conversing.
Currently, the Hugvie is only available (in a variety of colors) to customers in Japan, but if interest spreads, as with any other consumer product, it will almost certainly be made available to customers elsewhere.
Via: DigInfo TV
© 2012 Phys.Org
"Roboticist creates Hugvie - Huggable vibrating pillow smartphone accessory." May 1st, 2012. http://phys.org/news/2012-05-roboticist-hugvie-huggable-vibrating.html
Posted by
Robert Karl Stonjek

Job || Multiple Roles || DEWA UAE


ABCDEFGHIJKLMNOPQRSTUVWXYZ
Sl.NoRef.NoJob TitleLast Date
1TP/TMD/67/12ASST. MANAGER - TR..27-AUG-2012
2TP/TMD/68/12ASST. MANAGER - TR..31-AUG-2012
3TP/TPD/18/12ASSISTANT MANAGER ..27-AUG-2012
4TP/TPD/57/12ASST Mgr¿ TRANSMIS..28-AUG-2012
5TP/TPD/22/12ASSISTANT MANAGER ..28-AUG-2012
6TP/SND/03/12Assistant Manager ..31-DEC-2012
7TP/TOD/27/12Assistant Manager ..31-DEC-2012
8TP/SND/12/12Asst. Engineer - S..31-DEC-2012
9TP/TPD/24/12Assistant Manager ..31-DEC-2012
10GEN/MMD/G/50/12Assistant Mechanic..30-JUN-2012
11GEN/MMD/S/81/12Assistant Mechanic..30-JUN-2012
12GEN/MMD/D/65/12Assistant Mechanic..30-JUN-2012
13GEN/EMD/01/12Assistant Electric..30-JUN-2012
14GEN/EMD/12/12AC Mechanic30-JUN-2012
15GEN/I&C/18/12Assistant Technician30-JUN-2012
16TP/SND/51/12Assistant Manager ..31-AUG-2012


Check this link for more details and all jobs.

New study shows "undecideds" not impartial




As the U.S. presidential election approaches, political analysts are paying a lot of attention to the undecided. New research by a team of psychologists from Canada, Italy and Switzerland shows that undecideds are not impartial, but instead reveal a preference for information that confirms their gut reactions.
"Many people who are undecided about a political issue or competing candidates have at least some kind of gut reaction toward the available options," explains Bertram Gawronski, Canada Research Chair in Social Psychology at Western University. "Because it feels uncomfortable being exposed to information that questions one’s thoughts and preferences, undecideds search for information that confirms their gut reactions and avoid information that could question them."
The article "Selective Exposure in Decided and Undecided Individuals: Differential Relations to Automatic Associations and Conscious Beliefs," authored by Gawronski, Silvia Galdi, Luciano Arcuri, and Malte Friese, is published in the May issue of the journal Personality and Social Psychology Bulletin (http://psp.sagepub.com/content/38/5/559.abstract).
According to Gawronski, selective exposure to supportive information can determine future decisions at a time when people still feel that they have not made up their mind.
"People use whatever information they have to make a decision and they tend to believe that their decision is objective and unbiased. But they often don't realize that they have selectively exposed themselves to information that simply supports their gut response," says Gawronski.
To investigate information preferences in undecideds, Gawronski and his collaborators asked their participants about their personal views on a controversial political issue and then identified their spontaneous gut reactions, or "automatic associations," by means of a computer task that measured how quickly they responded to positive and negative words and pictures related to the political issue. Afterwards, the participants were given the opportunity to read several newspaper articles whose headlines indicated either a favorable or unfavorable view on the same issue. Although many participants told the researchers that they were undecided, they chose to read only those articles that were consistent with their gut reactions measured by the computer task.
The results provide further insights into earlier findings by the same research team, showing that future political choices of undecideds can be predicted by measuring their automatic associations. The findings suggested a new way for pollsters to determine how undecideds will vote, even before the voters know themselves. The new findings indicate that undecided voters selectively search for information that confirms their automatic associations, which ultimately determines their future voting decision.
According to Gawronski, the results also challenge a common view on how people make decisions.
"It is pretty rare that people take a neutral look at the available information and then make up their mind. In many cases, we already have a preference and then just try to find arguments that justify our preference," offers Gawronski.
Provided by University of Western Ontario
"New study shows "undecideds" not impartial." May 1st, 2012. http://phys.org/news/2012-05-undecideds-impartial.html
Comment:
It's bad enough that Libet discovered that we make decisions a half second before we become consciously aware of them...now we find that it could be days or weeks before we catch up with what the subconscious executive has already decided...I feel used :)
Posted by
Robert Karl Stonjek

Computer use and exercise combo may reduce the odds of having memory loss


You think your computer has a lot of memory … if you keep using your computer you may, too.
Combining mentally stimulating activities, such as using a computer, with moderate exercise decreases your odds of having memory loss more than computer use or exercise alone, a Mayo Clinic study shows. Previous studies have shown that exercising your body and your mind will help your memory but the new study, published in the May 2012 issue of Mayo Clinic Proceedings, reports a synergistic interaction between computer activities and moderate exercise in "protecting" the brain function in people better than 70 years old.
Researchers studies 926 people in Olmsted County, Minn., ages 70 to 93, who completed self-reported questionnaires on physical exercise, and computer use within one year prior of the date of interview. Moderate physical exercise was defined as brisk walking, hiking, aerobics, strength training, golfing without a golf cart, swimming, doubles tennis, yoga, martial arts, using exercise machines and weightlifting. Mentally stimulating activities included reading, crafts, computer use, playing games, playing music, group and social and artistic activities and watching less television. Of those activities the study singled out computer use because of its popularity, said study author Yonas E. Geda, M.D., MSc, a physician scientist with Mayo Clinic in Arizona.
"The aging of baby boomers is projected to lead to dramatic increases in the prevalence of dementia," Dr. Geda said. "As frequent computer use has becoming increasingly common among all age groups, it is important to examine how it relates to aging and dementia. Our study further adds to this discussion."
The study examined exercise, computer use and the relationship to neurological risks such as mild cognitive impairment, Dr. Geda says. Mild cognitive impairment is the intermediate stage between normal memory loss that comes with aging and early Alzheimer's disease. Of the study participants who did not exercise and did not use a computer, 20.1 percent were cognitively normal and 37.6 percent showed signs of mild cognitive impairment. Of the participants who both exercise and use a computer, 36 percent were cognitively normal and 18.3 percent showed signs of MCI.
Dr. Geda expects that this study will lead to more research on this topic.
Provided by Mayo Clinic
"Computer use and exercise combo may reduce the odds of having memory loss." May 1st, 2012. http://medicalxpress.com/news/2012-05-combo-odds-memory-loss.html
Posted by
Robert Karl Stonjek

ஆன்மிக சிந்தனைகள் »ராமானுஜர்....பிறரை அவமதிக்காதீர்!


 



* ஒருவனுடைய பிறப்பை பற்றியோ அல்லது செயல்களைப் பற்றியோ எண்ணாமல் அவனுடைய கொள்கைகளைப் பின்பற்றி பணிவிடை செய்வது சிறந்தது. கடவுளுக்கு எதை நீ அர்ப்பணிக்கிறாயோ அது மிகவும் புனிதமானது. நீ கடவுளிடம் சரணாகதி அடையும் போது உன் பாவங்கள் நீங்குகின்றன. மற்றவர்களை அவமதிப்பது மிக கொடிய செயலாகும்.


* பக்தர்களை எப்போதும் புகழ்ந்து பணிவிடை செய்து கொண்டே இருக்க வேண்டும். பக்தி மார்க்கத்தை தவிர வேறு எதையும் ஏற்றுக் கொள்ளக் கூடாது. புனிதமான ஆழ்வார்களின் திவ்ய பாசுரங்களை நாள் தோறும் படிப்பது நல்லது.


* இழிசெயல் புரிபவர்கள், ஏளனம் செய்பவர்கள், இறையடியார்களை நிந்திப்பவர்கள், புலித்தோல் போர்த்திய கபடதாரிகள், குருவை திட்டும் கயவர்கள் ஆகியோரை கண்ணால் கூட பார்க்கக் கூடாது.


* இறைவனுக்கு அர்ப்பணிக்காத உணவு, உடை, பூக்கள், சந்தனம், வெற்றிலை பாக்கு, பானம் எதையும் ஏற்றுக்கொள்ளக் கூடாது. எப்பொருளையும் மானசீகமாக கடவுளுக்கு சமர்ப்பித்து விட்டு எடுத்துக் கொள்வது நல்லது. நற்பிறப்பாளர், உயர்ந்த வாழ்க்கையுடையவர் ஆகியோரிடமிருந்து பெறும் உணவு மட்டுமே உண்பதற்கு தகுந்ததாகும்.


* ஒரு கடவுளை வணங்குவது நல்லது. பல தெய்வங்களை வணங்குதல் கூடாது. அது கடவுளை அவமதிப்பதாகும். நீ விரும்பும் கடவுளின் மீது உன் மனதை செலுத்துவது நல்லது.


* நற்குணமுடையவர்கள், அறிவாளிகள், தர்மசிந்தனையுடையவர்கள் ஆகியோர்களை கண்டால் பணிந்து வணங்கவேண்டும். இன்பம், துன்பம் இரண்டையும் சமமாக பாவிக்க வேண்டும். தொண்டு செய்வதன் மூலமே கடவுளை அடைய முடியும் என்பதை எப்போதும் நினைவில் கொள்ள வேண்டும்.


- ராமானுஜர்