MIC chief Samy Vellu says he won’t retire before 2012

September 19, 2009 By Leave a Comment

Kuala Lumpur, Sep 19 (ANI): Rejecting former Malaysian Prime Minister Dr Mahathir Mohamad’s demand to immediately step down as the Malaysian Indian Congress Chief, S. Samy Vellu has said that he would stick to his original plan and resign in 2012.

“He (Prime Minister Najib Razak) is aware of my retirement plan. I will keep to my word to the prime minister and I will not change (my plan),” the New Strait Times Online quoted him, as saying.
Earlier, Dr Mohamad had warned that Samy Vellu would become a liability to the Barisan Nasional in the next general election since his leadership has failed.
Mohamad suggested that Samy Vellu should step down and take responsibility for the party’s failure in the last general election.
Reacting to Dr Mohamad’s statement, Samy Vellu said the former prime minister who is now calling him a liability had labelled him an asset “when we were winning.”
“His comments are like telling a young wife that she is beautiful and an asset, but when she becomes old, she is branded a liability,” he said.

“I am not at all surprised. But I think he refuses to understand that the BN losses in the last general election were not because of me. An experienced man (politician) like him should understand that,” he added.
MIC vice-president Dr S. Subramaniam said the leadership of any political party was decided by its members, and it should be respected by the other BN component parties.
“The members decide whether to give or withdraw the mandate and if a decision is made by the members, it should be respected by the other BN component parties.

It will be better if all BN leaders avoided commenting about other parties,” said Subramaniam. (ANI)

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HIV uses several routes to escape immune system pressure

September 19, 2009 By Leave a Comment

Washington, September 19 (ANI): Researchers at the Emory Vaccine Center have shown that HIV relies upon a number of strategies rather than use any preferred escape route to escape immune system pressure.

The human immune system has the ability to temporarily overpower HIV in early infection.

Studies conducted in the recent past have shown that most newly infected patients develop neutralizing antibodies. These are blood proteins that glob onto the virus and would allow patients to defend themselves – if they were facing only one target.

However, the problem occurs when HIV mutates, and disguises itself enough to get away from the antibodies. The virus eventually wears down the immune system into exhaustion.

The Emory team’s findings attain significance as they suggest that even if any scientist succeeds in identifying a vaccine component that can stimulate neutralizing antibodies, HIV’s capacity for rapid mutation could still be a confounding factor.

Dr. Cynthia Derdeyn, associate professor of pathology at Emory University School of Medicine, Emory Vaccine Center and Yerkes National Primate Research Center, says that a single type of neutralizing antibody may not be enough to contain HIV.

“These neutralizing antibodies work really well – they hit the virus fast and hard. But so far, every time we look, the virus escapes,” she says.

During the study, the researchers took blood samples from the participants a few weeks after infection occurred, and then later as two participants’ immune responses continued.

They isolated individual viruses over the first two years of HIV infection, and tested how well the patients’ own antibodies could neutralize them.

“In one patient where we had very early samples, there was evidence that neutralizing antibody came up within weeks, and that’s earlier than what was previously thought,” Derdeyn says.

In both patients, some viruses mutated part of their outer proteins so that after the mutation, an enzyme would be likely to attach a sugar molecule to it.

Though the sugar molecule interferes with antibody attack, this tactic, known as the “glycan shield”, was not observed in all cases.

Other viruses mutated the part of the outer protein that the neutralizing antibodies stick to directly. In both patients, many changes in the virus’ genetic code were necessary for escape.

“We need to understand early events in the immune response if we are going to figure out what a potential vaccine should have in it. What we can show is that even in one patient, several escape strategies are going on,” Derdeyn says.

According to her, that means that in order to be immune to HIV infection, someone may need to have several types of neutralizing antibodies ready to go.

Seeing how the virus mutates will allow researchers to choose the best parts to put in a vaccine, she says.

The results are online and scheduled for publication in the September issue of the journal Public Library of Science Pathogens.(ANI)

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Catalyst simulations for fuel cells may make clean cars a reality

September 19, 2009 By Leave a Comment

Washington, Sep 18 (ANI): University of Wisconsin-Madison researchers are working towards developing better catalyst for fuel cells in a bid to make clean cars a reality.

If successful, the researchers could make a car that runs on hydrogen from solar power, and produces water instead of carbon emissions.

Materials science and engineering assistant professor Dane Morgan and Ph.D. student Edward (Ted) Holby have developed a computational model that could optimise an important component of fuel cells, making it possible for the technology to have a more widespread use.

The researchers investigated how particle size is related to the overall stability of a material, and showed with their model that increasing the particle size of a fuel cell catalyst decreases degradation and therefore increases the useful lifetime of a fuel cell.

Fuel cells are electrochemical devices that facilitate a reaction between hydrogen and oxygen, producing electrical power and forming water.

In the type of fuel cells Morgan is researching, called proton exchange membrane fuel cells (PEMFCs), hydrogen is split into a proton and electron at one side of the fuel cell (the anode).

The proton moves through the device while the electron is forced to travel in an external circuit, where it can perform useful work, while at the other side of the fuel cell (the cathode), the protons, electrons and oxygen combine to form water, which is the only waste product.

One of the many hurdles to producing efficient fuel cells for widespread use is the catalyst added to aid the reaction between protons, electrons and oxygen at the cathode.

Current fuel cells use platinum and platinum alloys as a catalyst. While platinum can withstand the corrosive fuel cell environment, it is expensive and not very abundant.

Thus, to maximize platinum use, researchers use catalysts made with platinum particles as small as two nanometers, which are approximately 10 atoms across.

These tiny structures have a large surface area on which the fuel cell reaction occurs.

However, platinum catalysts this small degrade very quickly, which means that the fuel cell doesn’t last long.

The researchers have found a possible solution to the rapid degradation problem-when it comes to catalyst particle size, sometimes smaller isn’t better.

In their modelling work, they showed that if the particle size of a platinum catalyst is increased to four or five nanometers, which is approximately 20 atoms across, the level of degradation significantly decreases.

This means the catalyst and the fuel cell as a whole can continue to function for much longer than if the particle size was only two or three nanometers.

“Fuel cells are just one of many energy technologies – solar, battery, etc. – with enormous potential to reduce our dependence on oil and our carbon emissions. Computer simulation offers a powerful tool to understand and develop new materials at the heart of these energy technologies,” said Morgan. (ANI)

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Ambika Soni reaffirms commitment to Public Service Broadcasting Trust

September 15, 2009 By Leave a Comment

New Delhi, Sept 15 (ANI): The Ministry of Information and Broadcasting has renewed its commitment of financial support to the Public Service Broadcasting Trust (PSBT), a Delhi-based NGO.

Under the plan scheme component for production of documentaries through NGOs, the Films Division would grant funds to the PSBT, which has been short-listed for production of documentaries for the current financial year.

In the past also, the Doordarshan and the PSBT have had a successful public-private partnership.

Over the past nine years, a large number of documentary films have been funded by the Doordarshan.

Among the National Non-Feature Film Awards-2007, at least four of such joint productions of the Prasar Bharati and the PSBT have won accolades.

Speaking on the occasion of ‘Commemorating 50 years of Public Television In India’, Minister for Information and Broadcasting Ambika Soni invited suggestions from the luminaries of PSBT Trustees for making the Public Service Broadcaster-Doordarshan more vibrant and interesting while retaining its commitment for healthy entertainment suitable for family viewing.

Soni also reiterated that her Ministry would continue to strive to encourage creative skills so long as they honour the sensibilities of all single television viewing families.

The Minister exhorted the young filmmakers – particularly those who are the beneficiaries of the PSBT-Ministry fellowships, to take up the challenge of making relevant programmes for particularly the marginalized strata of society.

“The Doordarshan is the only channel with the widest terrestrial reach which caters to the remotest and border areas often neglected by the commercial interests of other channels,” she added.

She also invited stalwarts like Shyam Benegal (a PSBT Trustee), who had made the memorable ‘Bharat ek khoj’ serial for Doordarshan in the past, to contribute meaningfully to Doordarshan again.

Adoor Gopalkrishnan (Chairman PSBT)’s new film “Oru Pennum Randaanum”, funded by Doordarshan was screened on the occasion. (ANI)

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Scientists make first high-resolution 3D images of a polymer solar cell’s insides

September 14, 2009 By Leave a Comment

Washington, September 14 (ANI): Researchers from the Eindhoven University of Technology and the University of Ulm in Germany have made the first high-resolution 3D images of the inside of a polymer solar cell.

This gives them important new insights in the nanoscale structure of polymer solar cells and its effect on the performance.

The investigations shed new light on the operational principles of polymer solar cells.

These solar cells do not have the high efficiencies of their silicon counterparts yet. Polymer cells, however, can be printed in roll-to-roll processes, at very high speeds, which makes the technology potentially very cost-effective.

Added to that, polymer cells are flexible and lightweight, and therefore suitable to be used on vehicles or clothing or to be incorporated in the design of objects.

In these hybrid solar cells, a mixture of two different materials, a polymer and a metal oxide are used to create charges at their interface when the mixture is illuminated by the sun.

The degree of mixing of the two materials is essential for its efficiency.

Intimate mixing enhances the area of the interface where charges are formed but at the same time obstructs charge transport because it leads to long and winding roads for the charges to travel.

Larger domains do exactly the opposite.

The vastly different chemical nature of polymers and metal oxides generally makes it very difficult to control the nanoscale structure.

The Eindhoven researchers have been able to largely circumvent this problem by using a precursor compound that mixes with the polymer and is only converted into the metal oxide after it is incorporated in the photoactive layer.

This allows better mixing and enables extracting up to 50 percent of the absorbed photons as charges in an external circuit.

The importance of the degree of mixing was clearly demonstrated by visualization of the structure of these blends in three dimensions.

Traditionally such visualization has been extremely challenging, but by using 3D electron tomography, the team has been able to resolve the mixing with unprecedented detail on a nanoscale.

From these images, the researchers at the Institute of Stochastics in Ulm have been able to extract typical distances between the two components, relating to the efficiency of charge generation, and analyze the percolation pathways, that is, how much of each component is connected to the electrode.

These quantitative analyses of the structure matched perfectly with the observed performance of the solar cells in sunlight. (ANI)

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Master gene that switches on disease-fighting cells identified

September 14, 2009 By Leave a Comment

London, Sep 14 (ANI): British scientists have identified the master gene, called E4bp4, that causes blood stem cells to turn into disease-fighting ‘Natural Killer’ (NK) immune cells.

The discovery, by researchers at Imperial College London, UCL and the Medical Research Council’s National Institute for Medical Research, could one day help scientists boost the body’s production of these frontline tumour-killing cells, creating new ways to treat cancer.

By ‘knocking out’ E4bp4 in a mouse model, the researchers created the world’s first animal model entirely lacking NK cells, but with all other blood cells and immune cells intact.

The breakthrough model should help solve the mystery of the role that Natural Killer cells play in autoimmune diseases, such as diabetes and multiple sclerosis.

According to many scientists, these diseases are a result of malfunctioning NK cells that turn on the body and attack healthy cells, which cause disease instead of fighting it.

They believe that clarifying NK cells’ role could lead to new ways of treating these conditions.

Natural Killer cells – a type of white blood cell – are a major component of the human body’s innate, quick-response immune system, providing a fast frontline defence against tumours, viruses and bacterial infections.

The gene E4bp4 is the ‘master gene’ for NK cell production, which means it is the primary driver that causes blood stem cells in the bone marrow to differentiate into NK cells.

Led by Dr Hugh Brady, the researchers are hoping to progress with a drug treatment for cancer patients which reacts with the protein expressed by their E4bp4 gene, causing their bodies to produce a higher number of NK cells than normal, to increase the chances of successfully destroying tumours.

“If increased numbers of the patient’s own blood stem cells could be coerced into differentiating into NK cells, via drug treatment, we would be able to bolster the body’s cancer-fighting force, without having to deal with the problems of donor incompatibility,” Nature quoted Brady as saying.

The researchers proved the pivotal role E4bp4 plays in NK production when they knocked the gene out in a mouse model.

Without E4bp4 the mouse produced no NK cells whatsoever but other types of blood cell were unaffected.

“Now finally, with our discovery of the NK cell master gene and subsequent creation of our mouse model, we will be able to find out if the progression of these diseases is impeded or aided by the removal of NK cells from the equation. This will solve the often-debated question of whether NK cells are always the ‘good guys’, or if in certain circumstances they cause more harm than good,” said Brady.

The study has been published in Nature Immunology. (ANI)

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Scientists develop ‘electronic nose’ that can sniff out toxins by changing colors

September 14, 2009 By Leave a Comment

Washington, September 14 (ANI): A team of scientists has developed a sensor that works as an ‘electronic nose’ in sniffing out some known poisonous gases and toxins, simply by changing colors.

Support for the development and application of this electronic nose comes from the National Institute of Environmental Health Sciences, part of the National Institutes of Health.

Once fully developed, the sensor could be useful in detecting high exposures to toxic industrial chemicals that pose serious health risks in the workplace or through accidental exposure.

While physicists have radiation badges to protect them in the workplace, chemists and workers who handle chemicals do not have equivalent devices to monitor their exposure to potentially toxic chemicals.

The investigators hope to be able to market the wearable sensor within a few years.

“The project fits into the overall goal of a component of the GEI Exposure Biology Program that the NIEHS has the lead on, which is to develop technologies to monitor and better understand how environmental exposures affect disease risk,” said NIEHS Director Linda Birnbaum.

“This paper brings us one step closer to having a small wearable sensor that can detect multiple airborne toxins,” she added.

Kenneth S. Suslick, the M.T. Schmidt Professor of Chemistry at the University of Illinois at Urbana-Champaign, and his colleagues have created what they refer to as an optoelectronic nose, an artificial nose for the detection of toxic industrial chemicals (TICs) that is simple, fast, inexpensive, and works by visualizing colors.

“We have a disposable 36-dye sensor array that changes colors when exposed to different chemicals. The pattern of the color change is a unique molecular fingerprint for any toxic gas and also tells us its concentration,” said Suslick.

“By comparing that pattern to a library of color fingerprints, we can identify and quantify the TICs in a matter of seconds,” he added.

The power of this sensor to identify so many volatile toxins stems from the increased range of interactions that are used to discriminate the response of the array.

To test the application of their color sensor array, the researchers chose 19 representative examples of toxic industrial chemicals.

Chemicals such as ammonia, chlorine, nitric acid and sulfur dioxide at concentrations known to be immediately dangerous to life or health were included.

The arrays were exposed to the chemicals for two minutes.

Most of the chemicals were identified from the array color change in a number of seconds and almost 90 percent of them were detected within two minutes. (ANI)

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Noted Squash coach Satinder Bajwa trains poor children

September 12, 2009 By Leave a Comment

Chandigarh, Sep.11 (ANI): Satinder Bajwa, an expatriate Punjabi, who is a squash coach, has set up an academy for the underprivileged children in Chandigarh to draw them to Squash.

These underprivileged children never thought about playing Squash. But, at the newly founded Squash Academy called ‘Mind, Body and Game – Connection’, they learn how to play it.

Satinder Bajwa, who has been the manager and mentor of eight times World Squash Champion Jansher Khan, has commenced this social business venture to promote the game here.

The Academy will nurture 30 children of ‘Khelshala’, a charitable trust, which serves underprivileged children through sports.

“Everybody wants to help his or her origins or the country that needs help. I am not a wealthy guy but I have something to give to kids in terms of a sport, so I thought how I give back to my country and I do a non-profit programme in the USA called Kids Squash and I thought may be its needed here in India and may be we can help kids through giving them something that they can use to help themselves,” said Satinder Bajwa, Founder of the MBG Ceonnection Academy in Chandigarh.

“You can give somebody money, money runs out but you give them something like this, may be if they are good at I, they can become very good, may be if they are good students, may be I can get them into some international university and few years down the roads, we might see some results which may enable people to help themselves,” said Bajwa.
He says the objective of the Squash Academy is to highlight that through exercise and play one can achieve a healthy body and mind for a fuller life experience.

The Academy will offer members a comprehensive set of world-class facilities including top of the line gym equipment and two squash courts, Bajwa adds.

Bajwa, who immigrated to the USA, is presently the chief coach of Squash at Harvard University. He felt the need to giver back to his homeland something valuable.

Many people in Punjab believe that Squash is a sport that has a future.

“The game is very nice. There is no age limit to play this game. Its very enjoyable and there are no chances of injuries,” said Manjit Singh, a trainee.

“We were little apprehensive in the first couple of days how may kids would be interested but we have had an amazing turnout and its been tones and tones of response from the kids and everyday more and more kids wanna come and play and its wonderful to see excitement and eagerness of all the kids ibn the village to come and play,” said Elizabeth Chaplin, a trainer in Massachusetts, US.

The MBG – Connection and Khelshala are a lifetime dream of Bajwa who also funded ‘kids squash’, a U.S.-based non-profit organization that promotes well-being through sports for children of all backgrounds.

Khelshala will also have an educational component as well as it will aim to leverage sports to help kids attain scholarships to private schools. By Sunil Sharma (ANI)

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Nicotine plays “tricks” on the brain

September 10, 2009 By Leave a Comment

Washington, Sept 10 (ANI): Nicotine, the addictive component in cigarettes, “tricks” the brain into creating memory associations between environmental cues and smoking behavior, say researchers at Baylor College of Medicine.

The study has been published in the journal Neuron.

“Our brains normally make these associations between things that support our existence and environmental cues so that we conduct behaviors leading to successful lives. The brain sends a reward signal when we act in a way that contributes to our well being,” said Dr. John A. Dani, professor of neuroscience at BCM and co-author of the study.

“However, nicotine commandeers this subconscious learning process in the brain so we begin to behave as though smoking is a positive action,” the expert added.

Dani said that environmental events linked with smoking can become cues that prompt the smoking urge. Those cues could include alcohol, a meal with friends, or even the drive home from work.

To understand why the associations are so strong, Dani and Dr. Jianrong Tang, instructor of neuroscience at BCM and co-author of the report, decided to record brain activity of mice as they were exposed to nicotine, the addictive component of tobacco.

The mice were allowed to roam through an apparatus with two separate compartments. In one compartment, they received nicotine. In the other, they got a benign saline solution. Later, the researchers recorded how long the mice spent in each compartment. They also recorded brain activity within the hippocampus, an area of the brain that creates new memories.

“The brain activity change was just amazing. Compared to injections of saline, nicotine strengthened neuronal connections – sometimes up to 200 percent. This strengthening of connections underlies new memory formation,” Dani said.

Consequently, mice learned to spent more time in the compartment where the nicotine was administered compared to the one where saline was given to them.

“We found that nicotine could strengthen neuronal synaptic connections only when the so called reward centers sent a dopamine signal. That was a critical process in creating the memory associations even with bad behavior like smoking,” the expert said. (ANI)

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How addictive drugs influence learning and memory

September 10, 2009 By Leave a Comment

Washington, Sep 10 (ANI): In a new study on mice, researchers have found why and how the use of addictive drugs take control of reward signals and influence neural processes associated with learning and memory.

The study could help explain how drug-associated memories, such as the place of drug use, drive and perpetuate the addiction.

It is known that the neurochemical dopamine, a key player in the brain’s reward system, is involved in the process of addiction.

Research has indicated that dopamine participates in neural processes associated with learning, such as the strengthening of neuronal connections, called synaptic potentiation.

Evidence has also implicated the hippocampus, a deep-brain structure that is critical for formation of new memories, in the development of drug addiction.

“Although addictive drugs like nicotine have been shown to influence the induction of synaptic potentiation, there has been little or no research in freely moving animals that monitors ongoing induction of synaptic potentiation by a biologically relevant drug dose,” explains senior author Dr. John Dani from the Department of Neuroscience at the Baylor College of Medicine in Houston, Texas.

The researchers recorded from the brains of freely moving mice while applying physiologically relevant concentrations of nicotine, the addictive component in tobacco.

The researchers found that nicotine induced synaptic potentiation correlated with the mice learning to prefer a place associated with the nicotine dose.

Importantly, these effects required a local dopamine signal within the hippocampus.

The finding reinforces the view that dopamine enables memory for specific events.

Overall, the results point to some intriguing possibilities about how drug-associated memories might contribute to behaviors associated with addiction.

“An animal’s memories or feelings about the environment are updated when the dopamine signal labels a particular event as important, new, and salient. Normally these memories help us to perform successful behaviors, but in our study, those memories were linked to the addictive drug.

When specific environmental events occur, such as the place or people associated with drug use, they are capable of cuing drug-associated memories or feelings that motivate continued drug use or relapse,” concluded Dani.

The study has been published in the latest issue of the journal Neuron. (ANI)

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Brain’s face processing ability does reduce with age

September 10, 2009 By Leave a Comment

Washington, September 9 (ANI): A British study suggests that the ability to identify a face, when it is shown for only a fraction of a second, reduces as people age.

Lead researcher Guillaume Rousselet, from the University of Glasgow, came to this conclusion after analysing electric activity from the brains of young and old people as they watched pictures of faces with cloud-like noise.

He said: “Very few studies have attempted to measure the effect of ageing on the time-course of visual processing in response to complex stimuli like faces. We found that, as well as a general reduction in speed in the elderly, one particular component of the response to a face, the N170, is less sensitive to faces in the elderly.”

The N170 occurs 170 milliseconds after a stimulus is presented.

The researchers revealed that it was more closely associated with the appearance of a face among the young subjects.

However, in older subjects, the researcher said that it occurred also in response to noise, perhaps implying reduced ability to differentiate faces from noise.

Revealing the findings of the study, Rousselet said: “Our data support the common belief that as we get older we get slower. Beyond this general conclusion, our research provides new tools to quantify by how much the brain slows down in the particular context of face perception. Now, we need to identify the reasons for the speed reduction and for the heterogeneity of the effects – indeed, why the brains of some older subjects seem to tick as fast as the brains of some young subjects is, at this point, a complete mystery.”

The study has been published in the journal BMC Neuroscience. (ANI)

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High quality video, telephone conferencing may be round the corner

September 6, 2009 By Leave a Comment

Washington, September 6 (ANI): German researchers are sure that compression technologies can put an end to the poor images and sound quality that are often encountered by people during video and telephone conferencing sessions.

At this year’s IFA international consumer electronics exhibition in Berlin, researchers from four Fraunhofer Institutes will demonstrate the power and flexibility of these new technologies by holding games sessions in which players compete against each other via the Internet.

To ensure high and consistent quality of sound, the researchers have developed the Audio Communication Engine, which consists of reciprocally-tuned components that vastly improve the sound quality and clarity of video and telephone conferences compared with present systems.

The key component in providing excellent sound is the MPEG Enhanced Low Delay AAC audio codec, which ensures low-delay hi-fi quality even at low bit-rates.

An echo control eliminates troublesome echo so that users do not have to wear a headset, and can move around the room freely.

Sophisticated signal processing, which extends from enhancement of the microphone signals through to multi-channel loudspeaker reproduction, removes the barrier of distance between friends without incurring great installation expense.

The researchers say that they have already started working on actual implementation by designing the technology for integration in TV sets, set-top boxes and hi-fi systems.

They claim that visitors to the IFA international consumer electronics exhibition will be able to experience the system’s superb picture and sound quality, and even play games such as Memory, Battleships and Sorry. (ANI)

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Indian students demand welfare measures from Oz Govt

September 6, 2009 By Leave a Comment

Sydney, Sep. 6 (ANI): The Federation of Indian Students of Australia (FISA) on Sunday urged the Australian Government to take steps for the welfare of students who are stranded after the closure of private colleges.

The FISA blamed Deputy Prime Minister Julia Gillard for failing to stop “the spin on the state of affairs” within her portfolio of Education.

“It is unfortunate that someone in the position of Deputy Prime Minister will lie in public. Her actions are causing great despair amongst students and eliminating their faith in the institutional robustness of Australian governance,” Hardeep Kaur student of an affected college (Sterling College) and a FISA Representative, said.

The FISA is providing support to students of the collapsed Australian educational institute that has left hundreds of students stranded.

According to the organization representing Indian students, the Australian Council of Private Education and Training (ACPET) and the NSW government authorities had repeatedly assured the students of organising alternate arrangement within 28 days, but nothing had happened.

Kaur said ACPET CEO Andrew Smith had told them that the case of 300 Community Welfare students of Sterling College is now being dealt by the Education Services for Overseas Students Act.

She said FISA sent an email to DEEWR authorities but they were still waiting for any response.

“The level of frustration amongst student is high. Many students are facing double jeopardy in that their visas and medical insurance have expired,” she said.

Kaur also called on the government to consider human rights as a vital component of society.

“Any student death will be the direct responsibility of the negligence of the Deputy PM and her ineffective structures such as DEEWR and ACPET. All deaths that are avoidable must be avoided or they should be treated as killings,” she said. (ANI)

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Single gene behind essential tremor, Parkinson’s disease identified

September 2, 2009 By Leave a Comment

Washington, September 2 (ANI): A single gene promotes development of essential tremor in some patients and Parkinson’s disease in others has been identified by an international team of researchers.

In a study report published in Parkinsonism and Related Disorders, Mayo Clinic researchers in Florida and their collaborators worldwide note that patients with essential tremor shake when they move, while those with Parkinson’s disease shake when they are at rest.

They further state that a variant in LINGO1, a gene involved in neuronal survival, is the first proven evidence of a common genetic component in the development of both disorders.

Analysing their findings, the researchers have come to the conclusion that mutations in this gene are potentially responsible for five percent of patients with Parkinson’s disease, and five percent of patients with essential tremor.

Lead researcher Dr. Carles Vilarino-Guell, of Mayo Clinic, said: “There is a mutation in the gene that must be causing or contributing to Parkinson’s disease in some people and essential tremor in others.”

He, however, added that that did not mean that people with essential tremor have an increased risk of developing Parkinson’s disease.

The findings are intriguing because “although essential tremor and Parkinson’s disease are considered to be different diseases, researchers have been arguing for a long time about whether essential tremor is a milder, preliminary form of Parkinson’s disease, and they have been looking for the genetic connection between these disorders,” he said.

“Now we know LINGO1 is the first gene identified,” he added.

The scientists have yet to identify any specific mutation or mutations on LINGO1 responsible for either disorder.

“The easiest explanation is that there are two separate and clearly distinct mutations in the gene contributing to the disorders. But because this gene doubles the risk of developing either disease and it is found at the same frequency in both diseases, it is possibly the same mutation,” Dr. Vilarino-Guell said.

“Both diseases are also affected by environmental factors, and that may influence which disorder a person would be more likely to develop,” he added. (ANI)

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Modalities of BrahMos-II project to be finalized soon

September 1, 2009 By Leave a Comment

Tiruchirapalli, Sep. 1 (ANI): The modalities for developing hypersonic missile BrahMos-II by the Indo-Russian joint venture BrahMos Aerospace are in the final phase of finalization.

BrahMos Aerospace CEO and managing director A Sivathanu Pillai told reporters here on Tuesday that a final shape of the project, aimed at developing the aerial version of BrahMos missile that could traverse at speeds between Mach 5 to Mach 7, would emerge shortly.

The design team had already been lined up and discussions would be held shortly between the joint venture partners on investments, sharing of technical responsibilities, administration and sharing of manufacturing facility infrastructure, he added.

Supersonic cruise missile BrahMos, which has a capability of carrying 300 kilograms conventional warheads at a speed of around 2.8 Mach, has already been inducted by the Army and the Navy.

Work related to the design and development of this version had been fruitful and the advanced missile, which weighs 0.5 tonne less than that of the three-tonne land version BrahMos, was ready and the company awaited the modified SUKOI-30 MKI aircraft that would carry the weapon.

Pillai said he was hopeful that the target for induction of the air version set for 2012 would be achieved.

After being fitted on an aircraft, BrahMos will be the only cruise missile with the capability of being launched from land, sea and air, he said.

To a query on export potential of BrahMos missile, Pillai said a number countries evinced keen interest in it, but the priority was to meet the high domestic requirement.

For meeting the demand, the company was in the process of upgrading the production infrastructure at multiple locations besides enhancing component suppliers by including new large and medium sized industries.

On BrahMos Aeropsace’s Thiruvananthapuram facility, Pillai said seven acres of land in possession of Indian Air force adjacent to the main campus was expected to be handed over to BrahMos Aerospace shortly. (ANI)

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Carbon monoxide exposure may up heart problem risk for the elderly

September 1, 2009 By Leave a Comment

Washington, Sep 1 (ANI): Carbon monoxide exposure has been found to elevate the risk of hospitalisation for the elderly with heart problems in an American study.

The nationwide study of 126 urban communities has shown that an increase in carbon monoxide of 1 part per million in the maximum daily one-hour exposure is linked with a 0.96 percent increase in the risk of hospitalisation from cardiovascular disease among people over the age of 65.

The connection remains even when carbon monoxide levels are less than 1 part per million, which is well below the Environmental Protection Agency’s (EPA) National Ambient Air Quality Standard of 35 parts per million.

The finding has indicated that an under-recognized health risk to seniors.

Presently, the EPA is evaluating the scientific evidence on the link between carbon monoxide and health to determine whether the health-based standard should be modified.

“This evidence indicates that exposure to current carbon monoxide levels may still pose a public health threat. Higher levels of carbon monoxide were associated with higher risk of hospitalisations for cardiovascular heart disease,” said Michelle Bell, the study’s lead investigator.

Working in collaboration with experts from the Johns Hopkins Bloomberg School of Public Health and the University of Southern California’s Keck School of Medicine, Bell analysed hospital records for 9.3 million Medicare recipients and data on air pollution levels and weather, gathered between 1999 and 2005.

The analysis considered the health effects of other traffic-related pollutants, including nitrogen dioxide, fine particles, and elemental carbon.

“We found a positive and statistically significant association between same-day carbon monoxide levels and an increased risk of hospitalisation for cardiovascular disease in general, as well as for multiple, specific cardiovascular disease outcomes, including ischemic heart disease, heart rhythm disturbances, heart failure and cerebrovascular disease,” said Bell.

Carbon monoxide is a tasteless, odourless gas that is a component of automobile exhaust.

The researchers stressed the need for additional research to investigate whether carbon monoxide or a combination of it and other traffic-related pollutants could result in increased cardiovascular hospitalisations in the elderly.

Their most recent findings have been detailed in a research article published in Circulation: Journal of the American Heart Association. (ANI)

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Urine LAM-ELISA not effective as independent diagnostic test for pulmonary TB

August 28, 2009 By Leave a Comment

Washington, August 28 (ANI): A trial of the new diagnostic urine LAM-ELISA has indicated that it may not be useful as an independent diagnostic test for pulmonary tuberculosis (TB).

Detailed in the open access journal BMC Infectious Diseases, the results suggest that it was only capable of identifying 50.7 per cent of TB cases.

Klaus Reither led a team of researchers from the Ludwig-Maximilians-University of Munich, Germany, the University College London, UK, and the NIMR-Mbeya Medical Research Programme, Tanzania, who tested LAM-ELISA in 291 Tanzanian patients suspected of having TB.

He said: “Only 35 out of 69 pulmonary TB cases, confirmed by smear microscopy and/or solid culture and/or liquid culture, showed at least one positive LAM-ELISA result. This 50.7 per cent sensitivity of the LAM-ELISA was disappointingly low. The specificity of 87.8 % also fell far short of expectations.”

The LAM-ELISA detects lipoarabinomannan (LAM), a mycobacterium-specific lipopolysaccharide component of the bacilli’s cell wall.

In active mycobacterial disease, LAM is released into the blood and passes the renal barrier without major changes – suggesting that its detection in urine should be a reliable diagnostic indicator.

Urine can be easily obtained, and its collection is often more culturally accepted than the collection of sputum or blood samples.

The LAM-ELISA might not have fulfilled the requirements for a stand-alone diagnostic test for pulmonary tuberculosis, but the researchers speculate that it may still be of some use.

“In our opinion, further investigations are needed to elucidate if the LAM-ELISA, in this stage of development, is valuable as a supplemental tool for the diagnosis of HIV-associated TB. This seems particularly important, when taking into consideration that TB is one of the most important opportunistic infections of HIV patients and that the sensitivity of smear microscopy in immunocompromised patients is low,” they say. (ANI)

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‘Toxic cocktail’ in tunnels can increase air pollution levels by up to 1,000 times

August 28, 2009 By Leave a Comment

Washington, August 28 (ANI): A new study has found that a toxic cocktail of ultrafine particles, which is lurking inside road tunnels, can increase air pollution levels by up to 1,000 times, enough to harm drivers and passengers.

The study measured ultrafine particle concentration levels outside a vehicle travelling through the M5 East tunnel in Sydney.

According to study co-author and director of Queensland University of Technology’s International Laboratory for Air Quality and Health, Professor Lidia Morawska, road tunnels were locations where maximum exposure to dangerous ultrafine particles in addition to other pollutants occurred.

“The human health effects of exposure to ultrafine particles produced by fuel combustion are generally regarded as detrimental,” Professor Morawska said.

“Effects can range from minor respiratory problems in healthy people, to acute myocardial infarction (heart attack) in people with existing heart complaints,” she added.

Professor Morawska said the study involved more than 300 trips through the four kilometres of the M5 East tunnel, with journeys lasting up to 26 minutes, depending on traffic congestion.

“What this study aimed to do was identify the concentration levels found in the tunnel. It generated a huge body of data on the concentrations and the results show that, at times, the levels are up to 1000 times higher than in urban ambient conditions,” she said.

She said that drivers and occupants of new vehicles which had their windows closed were safer than people travelling in older vehicles.

“People who are driving older vehicles which are inferior in terms of tightness and also those riding motorcycles or driving convertibles, these people are exposed to incredibly high concentrations,” she said.

“When compared with similar studies reported previously, the measurements here were among the highest recorded concentrations,” she added.

Professor Morawska said that tunnels were becoming an increasingly necessary infrastructure component in many cities across the world.

“When governments are building tunnels for urban design reasons, they should also consider the impact these tunnels are having on the environment and to people’s health,” she said.

“The study highlights why governments need to consider how they are going to deal with the air pollution levels inside the tunnel and removal of ultrafine particles in the outside environment,” she added. (ANI)

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Image of different regions of Trifid Nebula captured by European Southern Observatory

August 27, 2009 By Leave a Comment

Munich, August 27 (ANI): A new image by the European Southern Observatory (ESO) has captured the different regions of the Trifid Nebula, which is a rare combination of three nebula types, as seen in visible light.

This massive star factory is so named for the dark dust bands that trisect its glowing heart, revealing the fury of freshly formed stars and presaging more star birth.

Smoldering several thousand light-years away in the constellation of Sagittarius (the Archer), the Trifid Nebula presents a compelling portrait of the early stages of a star’s life, from gestation to first light.

The heat and “winds” of newly ignited, volatile stars stir the Trifid’s gas and dust-filled cauldron.

In time, the dark tendrils of matter strewn throughout the area will themselves collapse and form new stars.

The French astronomer Charles Messier first observed the Trifid Nebula in June 1764, recording the hazy, glowing object as entry number 20 in his renowned catalogue.

Observations made about 60 years later by John Herschel of the dust lanes that appear to divide the cosmic cloud into three lobes inspired the English astronomer to coin the name “Trifid”.

Made with the Wide-Field Imager camera attached to the MPG/ESO 2.2-meter telescope at ESO’s La Silla Observatory in northern Chile, the new image prominently displays the different regions of the Trifid Nebula as seen in visible light.

In the bluish patch to the upper left of the image, called a reflection nebula, gas scatters the light from nearby, Trifid-born stars.

The largest of these stars shines most brightly in the hot, blue portion of the visible spectrum.

This, along with the fact that dust grains and molecules scatter blue light more efficiently than red light, imbues this portion of the Trifid Nebula with an azure hue.

Below, in the round, pink-reddish area typical of an emission nebula, the gas at the Trifid’s core is heated by hundreds of scorching young stars until it emits the red signature light of hydrogen, the major component of the gas, just as hot neon gas glows red-orange in illuminated signs all over the world.

The gases and dust that crisscross the Trifid Nebula make up the third kind of nebula in this cosmic cloud, known as dark nebulae, courtesy of their light-obscuring effects.

Within these dark lanes, the remnants of previous star birth episodes continue to coalesce under gravity’s inexorable attraction.

The rising density, pressure and temperature inside these gaseous blobs will eventually trigger nuclear fusion, and yet more stars will form. (ANI)

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Unique acacia tree could nourish soils in Africa

August 25, 2009 By Leave a Comment

Washington, August 25 (ANI): In a new research, scientists have said that a type of acacia tree with an unusual growth habit, which is unlike virtually all other trees, holds particular promise for farmers in Africa as a free source of nitrogen for their soils that could last generations.

With its nitrogen-fixing qualities, the tall, long-lived acacia tree, Faidherbia albida could limit the use of fertilizers; provide fodder for livestock, wood for construction and fuel wood, and medicine through its bark, as well as windbreaks and erosion control to farmers across sub-Saharan Africa.

According to scientists, the tree illustrates the benefits of growing trees on farms and is adapted to an incredibly wide array of climates and soils from the deserts to the humid tropics.

“Growing the right tree in the right place on farms in sub-Saharan Africa-and worldwide- has the potential to slow climate change, feed more people, and protect the environment,” said Dennis Garrity, Director General of the World Agroforestry Centre.

“This tree, as a source of free, organic nitrogen, is an example of that. There are many other examples of solutions to African farming that exist here already,” he added.

The Faidherbia acacia tree has the quality of “reverse leaf phenology,” which drives the tree to go dormant and shed its nitrogen-rich leaves during the early rainy season – when seeds are being planted and need the nitrogen – and then to re-grow its leaves when the dry season begins and crops are dormant.

This makes it highly compatible with food crops because it does not compete with them for light-only the bare branches of the tree’s canopy spread overhead while crops grow to maturity.

Their leaves and pods provide a crucial source of fodder in the dry season for livestock when other plants have dried up.

The unique acacia tree is a frequent component of farming systems of Senegal, Mali, Burkina Faso, Niger, Chad, Sudan, and Ethiopia, and in parts of northern Ghana, northern Nigeria, and northern Cameroon.

The tree is growing on over 4.8 million hectares of land in Niger. Half a million farmers in Malawi and in the southern highlands of Tanzania grow the tree on their maize fields.

In Malawi, maize yields were increased up to 280 percent in the zone under the tree canopy compared with the zone outside the tree canopy.

In Zambia, recent unpublished observations showed that unfertilized maize yields in the vicinity of the Faidherbia trees averaged 4.1 tonnes per hectare, compared to 1.3 tonnes nearby but beyond the tree canopy. (ANI)

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