sexta-feira, 27 de fevereiro de 2015

Drug research, development more efficient than expected..

February 27, 2015

University of Basel

Despite ever increasing regulation in drug approval and the rising costs of research, drug research and development remains unexpectedly efficient, a new shows. To investigate the efficiency in the development of new drugs, the researchers analyzed a data set consisting of new drugs approved by the FDA. They looked at efficiency indicators that could potentially positively influence the approval of new drugs.


Drug R&D costs have increased substantially in recent decades, while the number of new drugs has remained fairly constant, leading to concerns about the sustainability of drug R&D and question about the factors that could be responsible.

To investigate the efficiency in the development of new drugs, the researchers analyzed a data set consisting of new drugs approved by the FDA. They looked at efficiency indicators that could potentially positively influence the approval of new drugs.

Lower costs, faster approval

The study lead by Prof. Thomas D. Szucs analyzed 257 new drugs that were approved by the FDA from 2003 to 2013. To assess the so-called innovation efficiency, the researchers analyzed specific parameters and factors. The study shows: Although there remains some potential for efficiency enhancement, several parameters have developed positively in the past decade.

The researchers also discovered that new drugs get approved earlier and with less use of resources, when they entered the approval process assigned to special categories or programs. Affiliation to these categories alone reduces for example the probability of having to conduct expensive pivotal trials -- a clinical trial designed to test the effectiveness of a drug against a placebo control group.

In conclusion the results show that market access of new drugs is not inefficient. Important is that "both industry and authorities work together in further developing drug approval in order to provide innovation to patients in a timely manner," says Szucs.


Story Source:

The above story is based on materials provided by University of Basel. Note: Materials may be edited for content and length.


Journal Reference:

  1. Rossella Belleli, Roland Fisch, Thomas D. Szucs. Regulatory watch: Efficiency indicators for new drugs approved by the FDA from 2003 to 2013. Nature Reviews Drug Discovery, 2015; 14 (3): 156 DOI: 10.1038/nrd4563

 

Garlic extract could help cystic fibrosis patients fight infection

Tue, 02/24/2015 - 12:31pm

Corin Campbell, Univ. of Edinburgh

A chemical found in garlic can kill bacteria that cause life-threatening lung infections in people with cystic fibrosis, research suggests.

The study is the first to show that the chemical, known as allicin, could be an effective treatment against a group of infectious bacteria that is highly resistant to most antibiotics.

Allicin is produced naturally by garlic bulbs to ward off a closely related group of plant pathogens found in soil and water habitats. In the 1980s, the bacteria—known as the Burkholderia cepacia complex (Bcc)—emerged as a cause of serious and transmissible lung infections in people with cystic fibrosis.

Measures to limit the spread of Bcc infections among people with cystic fibrosis have brought the number of cases down considerably. However, current therapies available to treat infections—that are potentially fatal—are limited and require the use of combinations of three to four antibiotics at a time.

Researchers found that allicin—which can be extracted by crushing raw garlic—inhibits the growth of bacteria and, at higher doses, kills the plant pathogens. The team suggests that allicin kills Bcc bacteria by chemically modifying key enzymes. This deactivates them and halts important biological processes within the pathogens' cells.

The team believes allicin-containing remedies could be used in combination with existing antibiotics to treat Bcc infections. However, the researchers say it is important to pinpoint the mechanisms by which allicin kills the bacteria before the chemical can be incorporated into new treatments.

The Bcc are highly versatile plant and human pathogens that have not been studied to the same extent as other superbugs—such as MRSA—the team says.

The bacteria produce potent antimicrobial agents which kill bacteria and fungi, making them naturally drug-resistant and allowing them to survive in polluted and antibiotic-rich environments.

The team says the Bcc also have a range of potential uses in the agriculture industry.

The study, published in PLoS One, was funded by the Univ. of Edinburgh and the Biotechnology and Biological Sciences Research Council.

Prof. John Govan, of the Univ. of Edinburgh's Centre for Infectious Diseases, who co-led the study, said: "At a time when novel antimicrobial agents are urgently required, chemical and microbiological research has the potential to unlock the rich reservoir of antimicrobial compounds present in plants such as garlic. Allicin-containing compounds merit further investigation as adjuncts to existing treatments for infections caused by Bcc."

Dr. Dominic Campopiano, of the Univ. of Edinburgh's School of Chemistry, said: "The medicinal power of garlic has a rich history that dates back thousands of years but the chemical structure of allicin was only revealed in the 1940s. Our work suggests that modern methods should be used to further expand our knowledge of this enigmatic molecule and rejuvenate its potential applications."

Source: Univ. of Edinburgh

The surprising science of blue jeans

 

indigo.jpg

Indigo was once derived from plants before being widely replaced with synthetic dye. New research may bring it back to its roots and create more eco-friendly jeans. Video screenshot by Michael Franco/CNET

A new video from the American Chemical Society's "Reactions" series explains a lot about the pants that have clothed everyone from gold miners to hipsters over the past 140-odd years. For example, you'll discover how your jeans need to be treated in an alkaline bath to get the indigo dye to adhere to them and how they are yellow when they come out of this process until they come in contact with the air, which turns them blue.

One thing you might not discover from the video, however, is that a chemical in the indigo used to create all those jeans has been called environmentally damaging. As the video points out, indigo originally came from plants, but because of high demand, a synthetic solution was invented in 1897 by chemical company BASF. (BASF says the dye didn't start being sold for that purpose for another 17 years.)

According to a report this month from the University of California at Berkeley, the jeans industry now uses about 40,000 tons of indigo per year (the video says 50,000 tons of indigo dye are made each year, over 95 percent of it used by jeans manufacturers, which comes out to about 47,500 tons). But there are concerns that a chemical used in the production of indigo can be toxic to fish and some other aquatic life. "And when sent to waste water treatment plants, it severely corrodes the piping," the report says. Contacted by CNET about the claims, BASF said it stopped making synthetic indigo a few years back.

UC Berkeley bioengineering professor John Deuber (of the eponymous Deuber Lab) believes he may have a solution, says the report. He and his team decided to go back to the plant to see if there was a way to produce a "greener" indigo.

In indigo-producing plants, a chemical called indican is locked in the leaves within a cage made from a sugar molecule. Indican is a precursor to indigo and, in fact, when the leaves are mashed up, they turn blue because the indican is released.

Deuber and team discovered the enzyme responsible for creating the sugar cage and, by engineering bacteria with the enzyme's gene and other modifications, they believe they can turn the bacteria into indican-production machines.

Bacteria in fermentation tanks would churn out indican locked in sugar cages. A second enzyme would be used to remove the cage, initiate the final chemical reaction and deliver pure indigo dye without the need to use a petroleum-based process. This would lead to "greener" blue jeans.

"To find green solutions, our lab looks toward nature," Dueber says in the report. "We thought going back to the plants would be smart. If we can identify the enzyme the plants used to produce the sugar cage and clone its gene, we think the microbes can make large quantities of indican for dyeing jeans without the use of highly 'dirty chemicals.'"

Dueber is now working on perfecting the process and figuring out how to create and market a commercially viable product.

source. www.cnet.com

UC Berkeley remains all-time top producer of Peace Corps volunteers

Yasmin Anwar, Media Relations February 18, 2015

 

UC Berkeley philosophy graduate Mi-Hwa Saunders at the Peace Corps office in Oakland in 2011 before she served in the Cape Verde Islands off Africa.

UC Berkeley philosophy graduate Mi-Hwa Saunders at the Peace Corps office in Oakland in 2011 before she served in the Cape Verde Islands off Africa.

UC Berkeley, the all-time top producer of  Peace Corps volunteers since John F. Kennedy launched the program in 1961, continues to rank among the top 10 Peace Corps volunteer producers each year.

The 2015 rankings, released today (Wednesday, Feb. 18), place Berkeley at No. 7 among large universities, with 54 alumni currently volunteering around the world. The University of Washington ranked first with 72 alumni currently serving in the Peace Corps, followed by the University of Wisconsin with 69 volunteers and the University of Florida with 66.

“Every year the Peace Corps unveils the upper echelon of colleges and universities that have distinguished themselves at the top of its volunteer producing schools,” said Peace Corps West Coast Regional Manager Erin Carlson. “We take enormous pride in recognizing UC Berkeley as one of the 23 universities from the West Coast producing dedicated individuals who personify the Peace Corps mission of promoting world peace and friendship. We also congratulate the university for its Top Ten annual ranking for the past 13 years.”

Since the Peace Corps’ inception 54 years ago, 3,598 UC Berkeley graduates have served abroad as volunteers, more than have volunteered from any other university. Among the current batch is Amanda Bensel, a 2008 graduate in environmental design who is currently serving in Nepal.

“My education at UC Berkeley … taught me that there is no ‘silver bullet’ solution to any problem,” Bensel said.  “Peace Corps service offers a chance to take your education beyond theory and into practice; the experience is deeply humbling. Working on the ground, deeply immersed in a community will expand your understanding of development 100-fold, enlighten your perspective on both another country and the United States, and force you to see your true strengths and weaknesses as a professional.”

In 2011, UC Berkeley celebrated the 50th anniversary of service in the Peace Corps, a government program originally intended to promote a better understanding between Americans and people from the developing world. Popular with college graduates, the Peace Corps offers the opportunity to travel overseas and learn about other cultures and perspectives, making a lasting difference on both the lives of volunteers and those they serve.

source : http://bit.ly/1LT0qz4

 

The eyes have it: Cats put sight over smell in finding food

photolibrary_rf_photo_of_cat_looking_at_fish

Cats may prefer to use their eyes rather than follow their nose when it comes to finding the location of food, according to new research by leading animal behaviourists.

Felines have a tremendous sense of smell and vision, but the new study by researchers at the University of Lincoln, UK, has for the first time investigated which sense they prefer to use under test conditions -- and suggested sight may be more important than smell.

A group of six cats were placed in a maze which had 'decision' points -- and the cats had to choose which avenue they took based on their preference for using images or smell. They were simultaneously presented with two squares of paper, each containing a different visual and odour cue. One combination of stimuli indicated they would receive a food reward, whereas the other led to no reward.

Once the cats had learned the rules of the game and received food rewards for correctly choosing either the visual stimulus or the olfactory stimulus, the researchers separated the cues (visual versus olfactory) to investigate whether the cats were using their eyes or nose to solve the task.

Four out of the six cats picked the visual cue, over the odour cue, to receive their food reward with only one cat preferring to use its nose and the sixth showing no preference. So it seems that when they had the choice, cats simply preferred the visual signals over the olfactory ones.

The findings have now been published by the international journal Applied Animal Behaviour Science.

Evy Mayes carried out the research at the University of Lincoln while she was studying for her Masters degree in feline behaviour and welfare.

Evy, who is now working at Battersea Dogs & Cats Home, explained: "Up until now we really thought that the sense of smell would dominate how cats view their world, but we are now reconsidering this and also the implications of how we manage them. At Battersea Dogs & Cats Home we make sure that our cats are housed in the best possible environment -- one that respects the cat and provides each individual with whatever it needs in order to help it adapt to a rehoming environment. I was also particularly surprised by the speed at which the cats learned how to solve the task, which is very encouraging for future cat behaviour studies."

Professor Daniel Mills, who supervised the study and is based in the University of Lincoln's School of Life Sciences, added: "We live in a complex world and use all of our senses to make sense of it. This is the first time we have asked cats how they operate rather than assumed this from what we know about their senses. Another important finding from this work is the individual variability -- different cats had quite fixed preferences, and this may have important implications for their welfare. If there is a cat which has a strong preference for using its nose then simple changes in the smell of the environment might have a big impact on it, whereas, for others it may be insignificant. This work provides a unique insight into the important principles of attending to the needs of the individual rather than the population in general for good welfare."

 

Minhas músicas preferidas /5/ Meu sonho – Sylvia Telles e Luiz Bonfá

Snap 2015-02-27 at 18.05.43

Neptune Duo flips the roles of smartphones and smartwatches ... for some reason

 

With the Neptune Duo, the smartwatch plays the alpha role, with the (not quite a) phone ta...

With the Neptune Duo, the smartwatch plays the alpha role, with the (not quite a) phone taking the backseat

Will smartwatches ever replace smartphones? And, if so, how will we play Candy Crush and watch Netflix or Sling TV on the go? Neptune, the company behind the ridiculously oversized Pine smartwatch, is back with a new device that tries to answer that question.

The Neptune Duo starts with the Neptune Hub, a standalone 4G smartwatch. But it also adds an accessory that addresses the gaps left by even the most powerful standalone smartwatches. The "Pocket Screen" may look like a phone, but it reverses the roles that watches and phones play today: in Neptune's world, the watch has the smarts, and the phone serves as a second screen for viewing larger-form content that small screens aren't good for.

The Neptune Hub (watch) has the smarts, while the pocket screen (phone-like device) serves...

The million dollar question is why would you do this? If you still have a watch on your wrist and a phone-like device in your pocket, with the sum total of functionality not very different from today's watch/phone combinations, why bother flipping the roles?

Neptune's answer (apart from the implied we need a follow-up product that makes headlines) is that you'll never lose your personal info. Since the computing happens on the watch, and it's strapped to your wrist, you're less likely to leave it behind. And since the Pocket Screen is largely a dumb accessory, drawing its smarts from the watch, you can lose it on the train, swap out a new one or even borrow a friend's – without losing or giving away any personal data.

Interesting pitch … but also quite a reach, as most smartwatches have lost phone alert features that buzz your wrist if you walk away without your phone. Doesn't this simple and ubiquitous feature that you can use on most watches today solve the same problem as Neptune's US$800 pair of devices?

The Hub will run Android 5.0 Lollipop, with a custom UI (and we wouldn't hold our breath f...

Back to the hardware itself, the Neptune Hub (again, that's the actual watch) runs Android 5.0 Lollipop with its own custom UI. The product page showcases a grid full of the most popular Android apps, suggesting (without actually stating) that it will run full Google Play services. Based on Google's policy on watches that run full Android, though, we wouldn't hold our breath for the Play Store coming preinstalled. Don't be shocked if the Neptune Duo launches with its own app store and requires you to sideload any apps that aren't lined up for yet another mobile marketplace.

The Hub has a 2.4-in touchscreen (by comparison, the large Samsung Gear S has a 2-in screen, so this puppy is going to look huge), with a quad core processor and 64 GB of storage. The pocket screen, meanwhile, has a 5-in 720p display (very mid-ranged resolution, by today's standards) and picks up the watch's slack with a pair of cameras (8 MP on the rear, 2 MP on the front) and a 2,800 mAh battery. Apparently you can charge the watch with the screen, supposedly leading to several days' worth of battery life.

The pocket screen has cameras, a 5-in screen and a battery for charging the watch

You could argue that the battery is another case for the product's existence, but we've found that current watches like the Gear S, LG G Watch R and Asus ZenWatch can last around two days or more with regular use. By the time the Duo reaches customers' hands, we'd be surprised if the latest flagship smartwatches weren't all lasting two or more days.

We've been eying the possibility of a smartwatch-centric future for the last few years, and, if nothing else, we have to tip our hats to Neptune's bold movement in that direction. But we also have to scratch our heads at its skewed logic, and acknowledge that this all reeks of a solution in search of a problem. Like the Neptune Pine, it's an exciting "why not?" concept, but when it comes to selling it as a consumer product, it's hard to see this getting past a very niche, early adopter audience.

If you are the early adopter that Neptune is looking for, then you can reserve the Pine now, or make a pledge through the company's website. It's going to cost $798 for Hub and pocket screen. The Duo is estimated to ship in late 2015.

Source: Neptune

 

Boeing and RAAF triple bomb range with new JDAM-ER kit

 

The Joint Direct Attack Munition-Extended Range (JDAM-ER) precision bomb kit developed by ...

The Joint Direct Attack Munition-Extended Range (JDAM-ER) precision bomb kit developed by Boeing and Australia’s Defence Science and Technology Organisation (Image: Boeing)

Boeing and the Royal Australian Air Force (RAAF) have carried out tests of the Joint Direct Attack Munition Extended Range (JDAM-ER), which showed a three-times increase in range while maintaining accuracy. The add-on guidance kit for bombs was put through its paces at Australia's Woomera Test Range, where the 500-lb (227 kg) ordnance was dropped by RAAF F/A-18 Classic Hornets from altitudes ranging from 40,000 ft (12,190 m) down to 10,000 ft (3,048 m).

The Joint Direct Attack Munition (JDAM) now manufactured by Boeing isn't a new weapon, but a low-cost kit that is bolted on to standard "dumb" bombs to give them some smarts. Using guiding fins and a GPS-aided inertial navigation system, a JDAM-equipped bomb can land within 13 m (42 ft) of its target. Since it’s a retrofit, it’s also relatively cheap at US$27,000 a unit. So far, over 260,000 tail kits have been made and are used by 27 countries.

The JDAM-ER is the latest variant. Jointly developed by Boeing and Australia’s Defence Science and Technology Organisation, it's intended for use on the RAAF’s 500-lb bombs and will be built in Australia. It differs from the standard JDAM in that it has wings that unfold in flight to triple the range from 15 mi (24 km) to over 45 mi (72 km). The modular nature of the kit means that it can be easily upgraded as technology improves and options such as improved laser sensors, GPS jamming immunity and an all-weather radar sensors can be added.

"The JDAM ER wing kit takes advantage of the conventional JDAM aircraft interface and Small Diameter Bomb glide technology," says Beth Kluba, vice president, Boeing Weapons and Missile Systems. "This keeps integration, development and sustainment costs low while bringing customers the range increase needed to neutralize current and future threats."

The JDAM-ER is slated for further tests this year, including flight and certification testing, followed by production and first deliveries by Boeing to the RAAF.

Source: Boeing