Introduction & Purpose
Knowledge update and Industry update at Skyline University College (SUC) is an online platform for communicating knowledge with SUC stakeholders, industry, and the outside world about the current trends of business development, technology, and social changes. The platform helps in branding SUC as a leading institution of updated knowledge base and in encouraging faculties, students, and others to create and contribute under different streams of domain and application. The platform also acts as a catalyst for learning and sharing knowledge in various areas.
SUC Editing Team
Information Systems
New York, Oct 8 (IANS) Technology giant Google will shut down Panoramio, the location-centric photo sharing service that the company used to augment its Google Maps and Google Earth services, in November, a media report said.
SUC Editing Team
Accounting & Finance
New York, Oct 8 (IANS) A pill that prevents the accumulation of toxic molecules in the brain and can help prevent or delay Alzheimer's, can be the next target in the fight against the neurocognitive disease, according to US scientists.
SUC Editing Team
International Business
New York, Oct 8 (IANS) There is more bad news for Samsung. The company lost some ground following incidents of the Galaxy Note 7 battery exploding, and now a US court has reinstated its decision that Samsung had infringed on Apple's patents and owes the company nearly $120 million.
Super User
Lifestyle and Trends
London, Oct 6 (IANS) Intake of nitrates, typically found in spinach, can boost sports performance particularly at high altitudes with low oxygen conditions, a study has found.
Nitrate, commonly found in green leafy vegetables like spinach, is important for the functioning of the human body, especially during exercise.
The study showed that nitrate supplementation in conjunction with sprint interval training (SIT) -- short, high intensity exercise -- in low oxygen conditions could enhance sport performance.
For the study, a research team from the University of Leuven in Belgium examined 27 moderately trained participants. They were given nitrate supplements ahead of SIT, which took the form of short but intense cycling sessions three times a week.
Further, to assess differences in performance in different conditions, they included workouts in normal oxygen conditions and in hypoxia conditions, which are low oxygen levels such as those found in high altitudes.
After five weeks, the muscle fibre composition changed with the enhanced nitrate intake when training in low oxygen conditions.
"This is probably the first study to demonstrate that a simple nutritional supplementation strategy, i.e. oral nitrate intake, can impact on training-induced changes in muscle fibre composition," said Peter Hespel, Professor at the University of Leuven.
Athletes participating in sports competitions require energy production in conditions with limited amounts of oxygen.
In these conditions, performing intense workouts requires high input of fast-oxidative muscle fibres to sustain the power.
Enhancing these muscle fibre types through nutritional intake could very well boost the performance, the study said.
"It would now be interesting to investigate whether addition of nitrate-rich vegetables to the normal daily sports diet of athletes could facilitate training-induced muscle fibre type transitions and maybe in the long term also exercise performance," Hespel said.
The observations were published in the journal Frontiers in Physiology.
Super User
From Different Corners
New York, Oct 8 (IANS) Mother's milk may boost the immunity of a newborn in such a way that it may work against certain diseases like tuberculosis (TB) just as vaccination does, suggests new research.
"Some vaccines are not safe to give a newborn baby and others just don't work very well in newborns," said lead researcher Ameae Walker, Professor at the University of California, Riverside School of Medicine in the US.
"If we can instead vaccinate mom or boost her vaccination shortly before she becomes pregnant, transferred immune cells during breastfeeding will ensure that the baby is protected early on," Walker explained.
Scientists have long understood that mother's milk provides immune protection against some infectious agents through the transfer of antibodies, a process referred to as "passive immunity."
The new research, published in the Journal of Immunology, showed that mother's milk also contributes to the development of the baby's own immune system by a process the team calls "maternal educational immunity."
Specific maternal immune cells in the milk cross the wall of the baby's intestine to enter an immune organ called the thymus. Once there, they "educate" developing cells to attack the same infectious organisms to which the mother has been exposed.
"While our work has used mouse models because we can study the process in detail this way, we do know that milk cells cross into human babies as well," Walker pointed out.
The researchers showed that you can vaccinate the mother and this results in vaccination of the baby through this process.
One of the infectious agents the research team studied was the organism that causes tuberculosis. Generally, babies directly vaccinated against TB do not have a very good response.
"We hope that by vaccinating the mother, who will eventually nurse the baby, we will improve infant immunity against TB," Walker said.
"It's like vaccinating the baby without actually vaccinating the baby. In some instances, our work has shown that immunity against TB is far more effective if acquired through the milk than if acquired through direct vaccination of the baby," Walker noted.
"Of course, clinical trials will need to be conducted to test whether this is the case in humans," Walker said.
Super User
From Different Corners
New York, Oct 8 (IANS) Some fungicides, often regarded as safe for bees, could be a major contributor to honey bee colony losses, and the number of different pesticides within a colony -- regardless of dose -- closely correlates with colony deaths, suggests new research.
"Our results fly in the face of one of the basic tenets of toxicology: that the dose makes the poison," said senior author of the study Dennis van Engelsdorp, Assistant Professor at the University of Maryland in the US.
"We found that the number of different compounds was highly predictive of colony deaths, which suggests that the addition of more compounds somehow overwhelms the bees' ability to detoxify themselves," van Engelsdorp noted.
The researchers followed 91 honey bee colonies in the US, owned by three different migratory commercial beekeepers, for an entire agricultural season.
The colonies began their journey in Florida and moved up the East Coast, providing pollination services for different crops along the way.
A total of 93 different pesticide compounds found their way into the colonies over the course of the season, accumulating in the wax, in processed pollen known as bee bread and in the bodies of nurse bees.
The study, published online in the journal Scientific Reports, showed that colonies with very low pesticide contamination in the wax experienced no queen events or colony death, while all colonies with high pesticide contamination in the wax lost a queen during the beekeeping season.
The study results also suggest that some fungicides, which have led to the mortality of honey bee larvae in lab studies, could have toxic effects on colony survival in the field.
In the current study, pesticides with a particular mode of action also corresponded to higher colony mortality.
For example, the fungicides most closely linked to queen deaths and colony mortality disrupted sterols -- compounds that are essential for fungal development and survival.
"We were surprised to find such an abundance of fungicides inside the hives, but it was even more surprising to find that fungicides are linked to imminent colony mortality," lead author on the study Kirsten Traynor from the University of Maryland said.
"These compounds have long been thought to be safe for bees," Traynor noted
Super User
From Different Corners
Washington, Oct 7 (IANS) Globally, life expectancy increased from about 62 years to nearly 72 from 1980 to 2015, thanks to improvements in sanitation, immunisations, indoor air quality and nutrition in poor countries, and several nations in sub-Saharan Africa rebounding from high death rates due to HIV/AIDS, says a new report.
However, such progress is threatened by increasing numbers of people suffering serious health challenges related to obesity, high blood sugar, and alcohol and drug abuse, said the Global Burden of Disease 2015 study published in The Lancet.
The study analysed 249 causes of death, 315 diseases and injuries, and 79 risk factors in 195 countries and territories between 1990 and 2015.
The progress in India, however, has not been very impressive, according to the report.
All countries in the South Asian region did much worse than expected at reducing deaths in children under five, with India recording the largest number of under-five deaths of any country in 2015, at 1.3 million.
Globally, 5.8 million children under age five died in 2015, representing a 52 per cent decline in the number of under-five deaths since 1990.
"Over the past 25 years, there have been important and impressive gains in the number of children surviving past their fifth birthdays, a significant milestone," said one of the study authors Haidong Wang, Associate Professor at Institute for Health Metrics and Evaluation (IHME) at the University of Washington in Seattle.
"Regrettably, many nations -- especially those low on the Socio-demographic Index -- have not made such gains and need to hasten the pace of progress, including availability of cost-effective vaccines, expanded access to clean water, and other interventions," Wang noted.
The study draws on the work of more than 1,800 collaborators in over 120 countries.
Bangladesh has improved maternal survival much faster than expected, while India and Nepal fared poorly.
Most countries in the South Asian region -- including India and Pakistan -- did better than expected at reducing health loss from stroke and lower respiratory infections. India also performed much worse than expected on tuberculosis, the report said.
The number of maternal deaths globally dropped by roughly 29 per cent since 1990, and the ratio of maternal deaths fell 30 per cent, from 282 per 100,000 live births in 1990 to 196 in 2015.
Between 2005 and 2015, death rates from HIV/AIDS decreased 42 per cent, malaria 43 per cent, preterm birth complications 30 per cent, and maternal disorders 29 per cent, according to the study.
Super User
From Different Corners
Washington, Oct 7 (IANS) A research team led by US Department of Energy's Lawrence Berkeley National Laboratory has created the world's smallest transistor with a working one-nanometre gate.
In a study published in the journal Science, the researchers described the novel transistor made with a new combination of materials that is even smaller than the smallest possible silicon-based transistor.
"We made the smallest transistor reported to date," said lead researcher Ali Javey from Lawrence Berkeley National Laboratory.
Instead of using silicon, the researchers built their prototype device with a class of semiconductor materials called transition metal dichalcogenides, or TMDs.
Specifically, their experimental device structure used molybdenum disulfide for the channel material and a single-walled carbon nanotube for the gate.
"Silicon transistors are approaching their size limit," said one of the study authors, Moon Kim, Professor at The University of Texas at Dallas.
"Our research provides new insight into the feasibility to go beyond the ultimate scaling limit of silicon-based transistor technology," Kim explained.
As current flows through a transistor, the stream of electrons travels through a channel, like tap water flowing through a faucet out into a sink.
A "gate" in the transistor controls the flow of electrons, shutting the flow off and on in a fraction of second.
"As of today, the best/smallest silicon transistor devices commercially available have a gate length larger than 10 nanometres," Kim said.
"The theoretical lower limit for silicon transistors is about five nanometres. The device we demonstrate in this article has a gate size of one nanometre, about one order of magnitude smaller," he added.
"It should be possible to reduce the size of a computer chip significantly utilising this configuration," Kim noted.
One of the challenges in designing such small transistors is that electrons can randomly tunnel through a gate when the current is supposed to be shut off. Reducing this current leakage is a priority.
"The device we demonstrated shows more than two orders of magnitude reduction in leakage current compared to its silicon counterpart, which results in reduced power consumption," Kim said.
"What this means, for example, is that a cellphone with this technology built in would not have to be recharged as often," he explained.
Super User
From Different Corners
Washington, Oct 6 (IANS) US researchers have developed a more precise method for estimating average blood sugar levels that can cut diagnostic errors by more than 50 percent compared to the current widely used but sometimes inaccurate test.
"What we currently deem the gold standard for estimating average blood glucose is nowhere as precise as it should be," Xinhua news agency quoted senior investigator John Higgins at Harvard Medical School and a clinical pathologist at Massachusetts General Hospital as saying.
"Our study not only pinpoints the root of the inaccuracy but also offers a way to get around it."
Findings of the study were described on Wednesday in the US journal Science Translational Medicine, Xinhua said.
Because blood sugar varies by the hour and even by the minute, doctors use the so-called A1C test as a proxy to gauge a person's average blood glucose level over the previous three months.
The A1C test measures the amount of glycated hemoglobin, glucose that sticks to hemoglobin, or oxygen carrier, inside red blood cells, which can live in the body for only three months.
The test, however, is somewhat imprecise. It can lead to identical readings for people with different average blood sugar levels. At the same time, people with similar blood sugar levels can also end up having widely divergent results.
The team found these inaccuracies stemmed entirely from individual variations in the life span of a person's red blood cells.
"Like a water-soaked sponge that's been sitting on the kitchen sink for days, older red blood cells tend to have absorbed more glucose, while newly produced red blood cells have less because they haven¹t been around as long," Higgins explained.
To eliminate the influence of age-related variation, the team developed a formula that factors in the life span of a person's red blood cells and then compared the age-adjusted blood sugar estimates to estimates derived from the standard A1C test and to readouts of glucose levels measured directly by continuous glucose monitors.
The standard A1C test provided notable off-target estimates in about a third of more than 200 patients whose test results were analyzed as part of the research.
By factoring in red blood cell age, however, the team reduced the error rate to one in 10.
Under the new model, patients could wear a glucose monitor for a few weeks to have their blood sugar tracked as a baseline, also allowing physicians to calculate the average age of a person's red blood cells before having the monitor removed, the team said.
"Physicians treating recently diagnosed patients would immediately know what a patient's red blood cell age is," Higgins said.
"The patient's test results can then be adjusted to factor in the red blood cell age and get a result that more accurately reflects the actual levels of blood sugar, allowing them to tailor treatment accordingly."
Currently, diabetes affects more than 422 million people worldwide and knowing accurate blood sugar averages can help them better manage the disease and their risk of diabetes-related complications.
SUC Editing Team
Information Systems
San Francisco, Oct 5 (IANS) US technology company Avaya on Wednesday announced "Cloud Networking Platform", a complete network lifecycle management solution for enterprise and mid-size businesses.