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.
Super User
From Different Corners
New York, June 28 (IANS) Researchers including one of Indian-origin have created a new computer model that shows how tiny slits in the spleen prevent diseased red blood cells from re-entering the bloodstream.
Their model provides a new tool for studying the spleen's role in controlling diseases that affect the shape of red blood cells, such as malaria and sickle cell anaemia, and can be used to develop new diagnostics and therapeutics for a variety of acute and chronic diseases.
"The computational and analytical models from this work, along with a variety of experimental observations, point to a more detailed picture of how the physiology of human spleen likely influences several key geometrical characteristics of red blood cells," said Subra Suresh, President, Carnegie Mellon University in Pittsburgh, Pennsylvania, US.
The findings were published in the journal Proceedings of the National Academy of Sciences.
"They also offer better understanding of how the circulatory bottleneck for the red blood cell in the spleen could affect a variety of acute and chronic disease states arising from hereditary disorders, human cancers and infectious diseases, with implications for therapeutic interventions and drug efficacy assays."
The spleen is like the water treatment plant for the body's bloodstream. It prevents pathogens from reaching the bloodstream and filters out old and misshapen red blood cells.
In order to "see" how the interendothelial slits regulate red blood cell circulation, the researchers created a computer simulation based on dissipative particle dynamics, a modeling method developed and refined for biological cells in partnership with Brown University Professor George Karniadakis.
Their model allowed them to determine the range of cell sizes and shapes that could fit through the slits.
The range closely mirrored the range of sizes and shapes for healthy red blood cells, indicating that only healthy cells should be able to pass through the slits.
In addition to giving researchers a better picture of how the spleen functions, the findings provide new insights into drug treatments.
A class of drugs currently in development for treating malaria alters the shape of red blood cells infected with malaria, theoretically preventing them from passing through the interendothelial slit.
The researchers' results also could explain why artemisinin-based anti-malarial drugs, which stiffen healthy and malaria-infected red blood cells, could lead to severe anaemia, the study said.
SUC Editing Team
International Business
Bratislava, June 27 (IANS) Britain's exit from the European Union (EU) will greatly weaken the bloc, European Commission Vice President Maros Sefcovic has said here.
"If a country like Britain exits, it must be perceived by the outside world as weakening the Union and as a demonstration of the crisis that the EU is undergoing," said Sefcovic on
SUC Editing Team
Information Systems
New York, June 26 (IANS) Smartphone apps and other digital technology have the potential to provide rapid emergency care for cardiac arrest, heart attacks and strokes, says researchers.
SUC Editing Team
Information Systems
London, June 26 (IANS) British scientists have designed a computer programme that could help consumers shop more efficiently online by recognising sketches.
Pioneered by scientists from Queen Mary University of London (QMUL), the programme recognises a sketch -- like sketches of a pair of shoes or piece of furniture - which are
SUC Editing Team
Information Systems
London, June 25 (IANS) In a first, a British technology start-up has invented a multi-function antenna for laptops that combines Wi-Fi, GPS, bluetooth and 3G/4G LTE and WiGig -- multi-gigabit per second wireless speed -- in one unit.
Super User
Retail and Marketing
New York, June 27 (IANS) Ever struggled with a shampoo bottle in trying to get the last drop out or the last bit of a hand wash, dish wash or laundry detergent? Worry not as researchers, including one of Indian-origin, have found a way to create the perfect texture inside plastic bottles to let soap products flow out freely.
The new technology involves lining a plastic bottle with microscopic "y-shaped" structures that cradle the droplets of soap aloft above tiny air pockets so that the soap never actually touches the inside of the bottle.
"Manufacturers are really interested in this because they make billions of bottles that end up in the garbage with product still in them," said Bharat Bhushan, Professor from Ohio State University.
The "y" structures are built up using spray-coating a small amount of solvent and ultra-fine silica nanoparticles onto the inside of bottles.
Mixing the silica and solvent to the surface of the polypropylene -- the common plastics used to package foodstuffs and household goods -- softened it just enough, so that when the plastic re-hardened, the silica got embedded in the surface.
The structures are only a few micrometers -- millionths of a meter-high -- and covered in even smaller branchlike projections.
The main branches of the "y" overhang the plastic surface at an angle less than 90 degrees -- steep enough that water, oils and even surfactant can't physically sustain a droplet shape that would fall in between the branches and touch the plastic.
Surfactants -- the organic molecules that make soap "soapy"-- have a very low surface tension and stick to plastic easily.
"It was an extra challenge for us to make a surface that could repel surfactant as the plastic bottles end up with air pockets underneath that gives them a liquid repellency," explained Philip Brown, post-doctoral Student at Ohio State.
But, "we embedded a hard material directly into the polymer surface, so we know it's durable," Brown added in a paper published in the journal Philosophical Transactions of the Royal Society.
The researchers further hope to license the coating technique to manufacturers -- not just for shampoo bottles, but for other plastic products that have to stay clean, such as biomedical devices or catheters.
Super User
From Different Corners
Beijing, June 26 (IANS) China will send its second orbiting space lab Tiangong-2 into space in mid September, said a senior official with the country's manned space programme.
The Shenzhou-11 manned spacecraft will be launched in mid September and its re-entry module will return in November, said Wu Ping, deputy director of the manned space engineering office, at a press conference on Saturday after the successful launch of the Long March-7, a new generation carrier rocket, at Wenchang, Hainan province.
As part of the country's space lab programme, the Shenzhou-11 spacecraft will carry two astronauts on board and dock with Tiangong-2.
The two astronauts have been chosen and currently under intense training, Wu said.
The Tiangong-2 and Shenzhou-11 will be carried by Long March-2F carrier rocket, she said.
In April 2017, the country's first cargo spaceship, Tianzhou-1, will be launched and carried by the Long March-7, Wu said.
"With the improvement of the rocket's technological performance, the Long March-7 will step by step replace the current carrier rockets and become the main carrier for space launches," she added.
Super User
From Different Corners
Kuala Lumpur, June 26 (IANS) Dried sewage sludge could be recycled by adding it to cement to make concrete, researchers in Malaysia have discovered.
Disposing sludge left over from treating sewage water is a major challenge for wastewater plants.
Meanwhile, the construction sector seeks economic and ecological cement replacement materials in order to meet an increasing demand for concrete.
Researchers from Universiti Teknologi MARA investigated the potential to replace various quantities of cement with processed sewage sludge to create a concrete mixture.
The researchers first produced domestic waste sludge powder (DWSP). They dried and burnt wet sludge cake to remove moisture, and then ground and sieved the dried sludge cake to make the sludge powder.
Using varying proportions of the powder, ranging from three-fifteen per cent, the researchers mixed the material with cement to produce normal strength and two higher strength grades of concrete.
They then compared the domestic waste sludge powder concrete mixture of each proportion with normal concrete in terms of their compressive strength, water absorption, water permeability and permeability to salt.
Overall, the researchers found that while domestic waste sludge powder has a potential role in the manufacture of concrete, the performance of the concrete blends tends to decline with increasing concentrations of the powder.
The findings were published in the Pertanika Journal of Science and Technology.
"Overall, there is potential for using DWSP as a partial cement replacement," the researchers said.
"However, more detailed research should be conducted to yield better quality powder," they added.
Super User
From Different Corners
London, June 27 (IANS) Space-based detector can spot at least two gravitational waves -- ripples in space-time -- each year caused by collisions between supermassive black holes, revealing the initial mass of the seeds from which the first black holes grew 13 billion years ago.
A space-based instrument called the Evolved Laser Interferometer Space Antenna (eLISA) detector is set to be launched in 2034.
As eLISA will be in space - and will be at least 250,000 times larger than detectors on Earth - it should be able to detect the much lower frequency gravitational waves caused by collisions between supermassive black holes that are up to a million times the mass of our sun.
Scientists led by Durham University's Institute for Computational Cosmology ran the huge cosmological simulations that can be used to predict the rate at which gravitational waves caused by collisions between the monster black holes might be detected.
The study combined simulations from the EAGLE project - which aims to create a realistic simulation of the known Universe inside a computer - with a model to calculate gravitational wave signals.
“Understanding more about gravitational waves means that we can study the universe in an entirely different way. These waves are caused by massive collisions between objects with a mass far greater than our Sun," said lead author Jaime Salcido, PhD student in Durham University.
"By combining the detection of gravitational waves with simulations we could ultimately work out when and how the first seeds of supermassive black holes formed,” Salcido added.
In February, the international LIGO and Virgo collaborations announced that they had detected gravitational waves for the first time using ground-based instruments and in June reported a second detection.
Current theories suggest that the seeds of these black holes were the result of either the growth and collapse of the first generation of stars in the Universe; collisions between stars in dense stellar clusters; or the direct collapse of extremely massive stars in the early Universe.
As each of these theories predicts different initial masses for the seeds of supermassive black hole seeds, the collisions would produce different gravitational wave signals.
This means that the potential detections by eLISA could help pinpoint the mechanism that helped create supermassive black holes and when in the history of the Universe they formed.
“Black holes are fundamental to galaxy formation and are thought to sit at the centre of most galaxies, including our very own Milky Way,” noted co-author professor Richard Bower.
“Our research has shown how space-based detectors will provide new insights into the nature of supermassive black holes,” he added.
Gravitational waves were first predicted 100 years ago by Albert Einstein as part of his Theory of General Relativity.
The research was set to be presented at the Royal Astronomical Society's national astronomy meeting in Nottingham on Monday.
SUC Editing Team
Travel and Tourism
Mumbai, June 25 (IANS) Attempting an image makeover, the Tourism Authority of Thailand (TAT) has appointed Indo-Australian actress-singer and former MTV VJ Anusha Dandekar as brand ambassador to lure more women tourists and focus on 'girly getaways' there, an official said here on Saturday.
Dandekar has been selected for her love for Thailand and for symbolising the exact segment the country wants to target, said TAT Mumbai Director Soraya Homchuen.
"Women travelers already represent 30 per cent of arrivals from India, compared to a negligible proportion of our market mix and mostly visiting families on holidays earlier. We want to scale this up to more than double by 2022," Homchuen said.
TAT will showcase Thailand as a choice for women travelers to escape together for short breaks, weekends, bachelorettes, kitty parties and girly holidays, she added.
Excited by the new assignment, Dandekar said Thailand remains her favourite destination and though she has visited it over 50 times, it never gets old for her.
Homchuen said a Thomas Cook survey this year revealed 70 per cent of women prefer to travel with friends compared to family and love the local culture, cuisine, shopping, spa and wellness, and move without a tour manager.
"The women travelers prefer safe, easy-to-navigate destinations and Thailand fits all these requirements the best," she pointed out.
Referring to various global studies showing that nearly 80 per cent of all holiday decisions are taken by women and between 2011-2020, the women travelers' segment would grow exponentially, she said targeting women "makes sense".
Easily accessible by a four-hour flight (Mumbai-Bangkok), tourism accounts for overall 20 per cent of Thailand's GDP with 29 million tourists from all over the world visiting the country in 2015, with a target of 100 million by 2032.