Tri-lingual Kashmiri dictionary launched

September 8, 2009 By Leave a Comment

Srinagar, Sep 8 (ANI): Kashmir University launches first trilingual English-Kashmiri-Hindi online dictionary, containing over 12,000 words, to promote Kashmiri language.

Christened as ‘Kashmiri Zaban.com, the dictionary has been compiled by university’s department of linguistics making use of three scripts, Roman for English, Devanagri for Hindi and Modified Persio-Arabic for Kashmiri.

“The need for this trilingual dictionary was felt for sometime and now I hope it will fulfil the requirements,” said, Riyaz Rufaye, chief librarian Kashmir University.

Students and scholars call the move commendable and said it would benefit not only students in Kashmir but also the outsiders who want to learn the Kashmiri language.

“Not only the Kashmiri students but foreigners studying here or our students studying outside can access Kashmiri language through the website,” said Sahil Showkat, a student.

“I think the biggest beneficiaries will be scholars who had to earlier buy costly books to look for the meaning for Kashmiri words now they can simply put the word in the website and get entire detail about it,” Muzaffar Bhat, another student added.

This is for the first time that any website has been launched for the promotion of the Kashmiri language and the Kashmiri culture. By Parvez butt (ANI)

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Modified magnetic resonance imaging may help picture disease metabolism in action

March 29, 2009 By Leave a Comment

Washington, March 27 (ANI): Duke University researchers have devised a new MRI signalling method that can help see such molecular changes inside the body as may signal health problems like cancer.

Warren Warren, James B. Duke Professor of chemistry at Duke, says that the novel method makes more of the body’s chemistry visible by MRI.

When used for brain imaging, MRI enlist the hydrogen atoms in water to create a graphic display in response to magnetic pulses and radio waves.

However, a huge array of water molecules are needed to pull that off.

“Only one out of every 100,000 water molecules in the body will actually contribute any useful signal to build that image. The water signal is not much different between tumors and normal tissue, but the other internal chemistry is different. So detecting other molecules, and how they change, would aid diagnosis,” Warren said.

The Duke researchers claim that they have been able to see these other molecules with MRI by “hyperpolarizing” some atoms in a sample, adjusting the spins of their nuclei to drastically increase their signal.

According to the team, this creates large imbalances among the populations of those spin states, making the molecules into more powerful magnets.

The researchers say that unlike normal MRI, hyperpolarization and a technique called “dynamic nuclear polarization” (DNP) can produce strong MRI signals from a variety of other kinds of atoms besides water.

Detecting signals from atoms besides water is exceedingly difficult without hyperpolarization because the signal size is so small, but “these signals are strong enough to see, even though the molecules are much more complex than water,” Warren said.

His group uses the “first DNP hyperpolarizer in the South”, which is installed in his laboratory.

The researchers also use Duke’s Small Molecule Synthesis Facility to create custom molecular architectures.

“You thus have a signal that, at least transiently, can be thousands or ten thousands times stronger than regular hydrogen in an MRI. It lets you turn molecules you are interested in into MRI lightbulbs,” Warren said.

The Duke group is evaluating the potentials for a number of possible signalling molecules, such as those involved in Parkinson’s disease, osteoporosis and bladder control, said Warren.

A research article on the new method has been published in the journal Science. (ANI)

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Scientists take off on mission to measure climate impacting greenhouse gases

January 8, 2009 By Leave a Comment

Washington, Jan 8 (ANI): A team of scientists has taken off on an advanced research aircraft on an historic mission spanning the globe from the Arctic to the Antarctic, to measure greenhouse gases that have an impact on climate.

Known as the HIAPER Pole-to-Pole Observations (HIPPO) mission, it will cover more than 24,000 miles as an international team of scientists makes a series of five flights over the next three years, sampling the atmosphere in some of the most inaccessible regions of the world.

The goal of the mission is the first-ever, global, real-time sampling of carbon dioxide and other greenhouse gasses across a wide range of altitudes in the atmosphere, literally from pole-to-pole.

To date, much of our understanding of global atmospheric greenhouse gasses has been acquired from distant satellites, balloon launches, or highly sophisticated supercomputer models.

HIAPER’s pole-to-pole mission will, for the first time, give scientists real-time global observation data to correlate with those climate models.

HIAPER is short for the National Science Foundation’s High-performance Instrumented Airborne Platfrom for Environmental Research.

A modified Gulfstream V jet, it can fly at high altitudes for extended periods of time and can carry 5,600 pounds of sensing equipment, making it a premier aircraft for scientific discovery. (ANI)

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Protein that may protect against Alzheimer”s identified

January 7, 2009 By Leave a Comment

Washington, Jan 7 (ANI): An international team of researchers have claimed that a protein, found in increased levels in the Alzheimer’s brain, might actually protect against the neurodegenerative disease.

Researchers from Universite du Quebec a Montreal (UQAM) Biological Sciences Department, Armand-Frappier Institute and the University of Valladolid in Spain have successfully demonstrated the protective and reparative role of apolipoprotein D, or ApoD, in neurodegenerative diseases such as Alzhiemer’s, Parkinson’s, stroke and dementia.

In earlier studies, investigator Eric Rassart of the Universite du Quebec a Montreal (UQAM) had found increased levels of ApoD in the brains of people with several types of neurodegenerative disorders, including Alzheimer”s.

During the study including biological sciences Ph.D. student Sonia Do Carmo, the researchers used two types of genetically modified mice: one type with increased levels of ApoD in the brain and a second type with no ApoD.

The mice were then exposed to neurodegenerative agents. A group of the modified mice and a control group (unmodified) were exposed to paraquat, a widely used herbicide that has been shown to increase the risk of Parkinson”s.

The same experiment was performed by injecting two groups with a virus that causes encephalitis.

They found that mice modified for increased levels of ApoD had the best outcomes, with a better ability to combat the diseases and a higher survival rate than the unmodified mice. On the other hand mice with no ApoD displayed the poorest outcomes.

These experiments serve to illustrate the protective and reparative role of this protein.

However, lead researcher Professor Eric Rassart of the Universite du Quebec a Montreal (UQAM) said further studies are required to translate it into effective drugs against neurodegenerative conditions.

“You cannot simply inject ApoD, as it has to enter the brain in order for it to be active. We have successfully demonstrated the role of ApoD, but now we need to understand the action of this protein,” said Rassart,

“Only then will we be able to think about creating a drug to prevent these types of diseases and to slow their progression. All the same, this discovery by Sonia Do Carmo and her collaborators is a significant breakthrough, as we know very little about the mechanisms of neurodegenerative diseases,” he added. (ANI)

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Novel tumour suppressor for lung cancer identified

January 6, 2009 By Leave a Comment

Washington, Jan 6 (ANI): Researchers at the University of Cincinnati (UC) have identified a new tumour suppressor that may help in the development of more targeted drug therapies to fight lung cancer.

Proto-oncogenes are genes that play a role in normal cell growth (turnover of cells and tissue) but, when genetically modified, can cause the out-of-control cell division that leads to cancer.

Previous research had established that Ras, a proto-oncogene, is abnormally expressed in up to 25 percent of human lung cancers; but, researchers did not understand the specific cellular events by which abnormal Ras expression leads to transformation.

The research team, led by Jorge Moscat, sought to define the interim steps that occur in Ras-induced tumour development to better understand the underlying biological mechanisms leading to cancer.

“These interim steps are critical because they help us determine how best to intervene and stop cancer growth along the way. Right now, cancer therapy is delivered with a sledgehammer and it needs to be more like a scalpel so we avoid unnecessary harm to the body,” said Moscat, co-author of the study and chair of UC’s cancer and cell biology department.

Using a genetically modified mouse model, the researchers found that animals that didn’t express a certain gene (protein kinase C (PKC)-zeta) developed more Ras-induced lung cancer, suggesting a new role for the gene as a tumour suppressor.

“PKC-zeta would normally slow down Ras transformation and put the brakes on tumour development, but when PKC-zeta is missing or inactive as a result of genetic alterations, tumour growth actually accelerates,” said Moscat.

“Until now, we did not know the specific chain of events that led to Ras-induced lung cancer. Our study fills in important missing information that will enhance our overall understanding of how lung cancer tumours grow and spread,” Moscat added.

The study appears in the January 2009 issue of Molecular and Cellular Biology. (ANI)

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MRI proving a great boon to back pain treatment, says report

January 2, 2009 By Leave a Comment

Washington, January 2 (ANI): Magnetic resonance imaging (MRI) is providing an increasing number of clinical benefits when used in the evaluation of back pain, and additional technical developments may allow it to provide even more useful orthopaedic benefits in future, according to a research article.

“Because of the many different ways to gather this important information, MRI can be used to identify or display almost every type of spinal tissue or pathology. The imaging sequence can be modified to meet many different clinical needs,” Dr. Victor M. Haughton, a radiologist at the University of Wisconsin Hospitals and Clinics, says in the article published in the Journal of the American Academy of Orthopaedic Surgeons.

The authors write that MRI—which is considered safe, fast and versatile—is being used in several spinal applications like intervertebral disk and facet joint degeneration, spinal canal stenosis, vascular disorders, and trauma.

They also suggest it to be useful for almost every spinal pathology—such as diseases of the spinal cord, nerve roots, vertebrae, disks and blood vessels.

They further say that there is no radiation risk to the patient undergoing MRI.

“The possibilities of magnetic resonance have not yet been realized. It is a rapidly evolving field. When we need tools to identify a possible herniated disk, the simplest type of MR imaging or CT imaging can be used successfully. However, if you want to find out which disk is causing pain, which nerve is firing, which metabolites are present in abnormal amounts, or how well the spinal elements are functioning, MR will provide the answers,” adds Dr. Haughton. (ANI)
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