Knowledge Update

​New York, Oct 14 (IANS) Combining the tools of Big Data analysis and visualisation with the vast amounts of data generated by social media, a group of scientists from Indiana University has started to tackle new areas of health research.

New York, Oct 14 (IANS) Men with prostate cancer who are treated with testosterone-lowering drugs are twice as likely to develop dementia within five years as compared to prostate cancer patients whose testosterone levels are not tampered with, say researchers including one of Indian-origin.

"The risk is real and, depending on the prior dementia history of the patient, we may want to consider alternative treatment," said senior author of the study Nigam Shah, Associate Professor at Stanford University School of Medicine.

Testosterone can promote the growth of prostate tumors, and so clinicians have used androgen deprivation therapy (ADT) to lower testosterone and other androgens in prostate cancer patients since the 1940s.

The team looked at records from Stanford Medicine's clinical-research data warehouse for nearly 10,000 patients with prostate cancer. 

Of the 1,829 who received androgen deprivation therapy, 7.9 percent developed dementia within five years, compared with 3.5 percent of those not treated with androgen deprivation therapy, said the study published in the journal JAMA Oncology.

The researchers, however, cautioned that prostate cancer patients who are receiving ADT should not make changes to their medications without talking to their physicians.

The new retrospective study of patient records took only a few weeks, Shah said. 

But retrospective studies of patient medical records are not meant to replace randomised clinical trials, he added.

New York, Oct 14 (IANS) Offering new hope for an alternative treatment of brain cancer, researchers have found that depriving the deadly tumour cells of cholesterol, which they import from neighbouring healthy cells, kills tumour cells and causes their regression.

"Disrupting cholesterol import by GBM (glioblastoma) cells caused dramatic cancer cell death and shrank tumours significantly, prolonging the survival of the mice," said senior author Paul Mischel, Professor at University of California San Diego School of Medicine in the US.

Glioblastoma (GBM) is the most common and most aggressive form of brain cancer, which is extremely difficult to treat. The median survival rate is just over 14 months, with few treated patients living five years or more past diagnosis.

"The strategy worked with every single GBM tumour we looked at and even on other types of tumours that had metastasised to the brain," Mischel noted.

Adult brain cancers are almost universally fatal, in part because of the biochemical composition of the central nervous system (CNS) and the blood-brain barrier, which selectively and protectively limits the passage of molecules from the body into the brain, but which also blocks most existing chemotherapies, contributing to treatment failure.

"Researchers have been thinking about ways to deal with this problem," Mischel said.

In previous research, Mischel and others had noted GBM cells cannot synthesise cholesterol, which is vital to cell structure and function, particularly in the brain. 

Instead, GBM cells derive what they need from brain cells called astrocytes, which produce cholesterol in abundance.

The researchers found that the experimental metabolic disease drug candidate named LXR-623 can help disrupt cholesterol import by GBM cells in mice.

The study published online in the journal Cancer Cell found no effect of the treatment upon healthy neurons and other brain cells, but GBM cells were deprived of vital cholesterol, resulting in cell death and tumour regression.

Mischel suggested the GBM strategy could be implemented in clinical trials using drug-candidates under development or in early trials.

​Washington, Oct 14 (IANS) There are at least 10 times more galaxies in the observable universe than previously thought, said astronomers.

One of the most fundamental questions in astronomy is that of just how many galaxies the universe contains, and astronomers earlier estimated that the observable universe contained about 200 billion galaxies.

The new research - to be published in The Astrophysical Journal -- shows that this estimate is at least 10 times too low.

The researchers led by Christopher Conselice of University of Nottingham in Britain reached this conclusion using deep-space images from NASA's Hubble space telescope and the already published data from other teams. 

They converted the images into 3-D, in order to make accurate measurements of the number of galaxies at different epochs in the universe's history. 

In addition, they used new mathematical models, which allowed them to infer the existence of galaxies that the current generation of telescopes cannot observe. 

This led to the surprising conclusion that in order for the numbers of galaxies we now see and their masses to add up, there must be a further 90 per cent of galaxies in the observable universe that are too faint and too far away to be seen with present-day telescopes. 

These myriad small faint galaxies from the early universe merged over time into the larger galaxies we can now observe.

"It boggles the mind that over 90 per cent of the galaxies in the universe have yet to be studied. Who knows what interesting properties we will find when we discover these galaxies with future generations of telescopes? In the near future, the James Webb Space Telescope will be able to study these ultra-faint galaxies," Conselice said.

"These results are powerful evidence that a significant galaxy evolution has taken place throughout the universe's history, which dramatically reduced the number of galaxies through mergers between them - thus reducing their total number," Conselice explained.

The decreasing number of galaxies as time progresses also contributes to the solution for Olbers' paradox (first formulated in the early 1800s by German astronomer Heinrich Wilhelm Olbers): Why is the sky dark at night if the universe contains an infinity of stars? 

The team came to the conclusion that indeed there actually is such an abundance of galaxies that, in principle, every patch in the sky contains part of a galaxy.

However, starlight from the galaxies is invisible to the human eye and most modern telescopes due to other known factors that reduce visible and ultraviolet light in the universe.

Those factors are the reddening of light due to the expansion of space, the universe's dynamic nature, and the absorption of light by intergalactic dust and gas. 

All combined, this keeps the night sky dark to our vision, the researchers said.

Wellington, Oct 14 (IANS) Vitamins A and C could improve the conversion of adult cells into stem cells, opening the way to advances in biomedical treatments for human diseases, according to a New Zealand-led study released on Friday.

The research team discovered that the two vitamins complemented each other in erasing "memory" associated with DNA, an important effect for improving technologies geared towards regenerative medicine and stem cell therapy, Xinhua news agency reported.

Ordinary adult cells, such as those in the skin or blood, could be artificially coerced in a culture dish to resemble embryos only a few days old, said study co-author Tim Hore of the University of Otago.

Since the 2006 discovery that reprogramming was possible, there had been much interest in using induced embryonic stem cells to cure human disease.

"However, hampering these efforts is the reality that adult cells are resistant to changes in their identity, partly because of chemical alterations to their DNA," Hore said in a statement.

These alterations, known as "DNA methylation", were acquired during development and provided a form of cellular memory that helped cells faithfully maintain a specialised function.

Removal of this memory was critical in order to create a developmentally potent stem cell, or to change one kind of adult cell to another.

With collaborators in Britain and Germany, Hore determined that adding vitamins A and C to culture dishes removed DNA methylation from embryonic stem cells.

When applied to cells during the reprogramming process, those with the desired "naive" embryonic characteristics were created in much greater numbers, he said.

"We found that both vitamins affect the same family of enzymes which actively remove DNA methylation. It turns out that vitamin A increases the number of these enzymes within the cell and vitamin C enhances their activity," he said.

In addition to regenerative medicine, the work could have implications for other areas of biomedical importance.

Loss of DNA methylation and cellular memory were a hallmark of certain cancers, so a better understanding of how this process occurred could prove significant.

New York, Oct 14 (IANS) Combining the tools of Big Data analysis and visualisation with the vast amounts of data generated by social media, a group of scientists from Indiana University has started to tackle new areas of health research.

"We try to find the commonality between biological, social, and technological networks, and the internet. Previous studies -- whether in hospitals or by sociologists -- could handle only 20, 30 or 40 patients in a study," said Luis Rocha, principal investigator of the Complex Adaptive Systems and Computational Intelligence (CASCI) group at Indiana University.

"Software is now driving our research, so through social media we can plug into millions and millions of people worldwide with very different types of conditions. This helps us tap into the psychological and social elements of healthcare, making this a major game changer," Rocha said.

The researchers partnered with Pune-based Persistent Systems, a provider of large-scale software-driven healthcare solutions, to develop sophisticated algorithms to analyse the connection between medicine and social behaviour in health issues, particularly how they are discussed across social media. 

For example, in looking at the analysis of depression, millions of posts are first analysed based on defined hashtags with the relevant drug names across social media channels such as Instagram, Facebook, or Twitter. 

The algorithms find connections on how drugs interact with each other, and how people are describing them, while also looking for clusters of symptoms at a scale not previously possible. 

Identifying and validating new clusters of drugs, natural products and symptoms can act as an early warning system for adverse drug effects and interactions.

The methodology also allows the study of multiple health issues with distinct social attitudes, such as depression and epilepsy.

Another goal is to allow health specialists to visualize and interact with the data in three dimensions, allowing them to study cohort and individual behaviours in much detail in a virtual reality setting. 

"Tapping into the scale of social networks offers an incredible source of consumer and patient data, opening up a whole new type of software-driven solution," Sid Chatterjee, Chief Technology Officer at Persistent Systems, said.

​New York, Oct 14 (IANS) A team of US researchers has developed a reliable and accurate navigation system that exploits existing environmental signals such as cellular and Wi-Fi rather than the Global Positioning System (GPS).

The technology can be used as a stand-alone alternative to GPS or complement current GPS-based systems to enable highly reliable, consistent and tamper-proof navigation. 

The technology could also be used to develop navigation systems that meet the stringent requirements of fully autonomous vehicles, such as driverless cars and unmanned drones, said the team from University of California, Riverside. 

"Our goal is to get autonomous vehicles operate with no human-in-the loop for prolonged periods of time, performing missions such as search, rescue, surveillance, mapping, farming, firefighting, package delivery and transportation," said Zak Kassas, assistant professor of electrical and computer engineering.

Most navigation systems in cars and portable electronics use the space-based Global Navigation Satellite System (GNSS). 

For precision technologies, such as aerospace and missiles, navigation systems typically combine GPS with a high-quality on-board Inertial Navigation System (INS).

Despite advances in this technology, current GPS/INS systems will not meet the demands of future autonomous vehicles for several reasons. 

GPS signals alone are extremely weak and unusable in certain environments like deep canyons.

"Civilian GPS signals are unencrypted, unauthenticated, and specified in publicly available documents, making them hackable," the researchers noted.

Instead of adding more internal sensors, Kassas and his team have been developing autonomous vehicles that could tap into the hundreds of signals around us at any point in time, like cellular, radio, television, Wi-Fi and other satellite signals.

The system can be used to supplement INS data in the event that GPS fails. 

The team presented its research at the 2016 Institute of Navigation Global Navigation Satellite System Conference (ION GNSS+), in Portland, Oregon recently.

​New York, Oct 14 (IANS) Young kids who miss daytime nap and also stay up late at night are likely to consume more calories, suggests new research.

​Seoul, Oct 13 (IANS) Driven by the worldwide recall of Samsung Electronics' Galaxy Note 7 smartphone over battery problems, South Korea's exports of information and communication technology (ICT) products fell at the fastest pace in four months in September, government data showed Thursday.

​Seoul, Oct 13 (IANS/Yonhap) The chief of Samsung Electronics' mobile division has vowed to thoroughly investigate the cause of the problems involving its Galaxy Note 7 and restore confidence and trust in the quality of the firm's products, industry sources said.