Sunday, April 10, 2016

New drug-delivery capsule may replace injections

Pill coated with tiny needles can deliver drugs 
directly into the lining of the digestive tract.


Given a choice, most patients would prefer to take a drug orally instead of getting an injection. Unfortunately, many drugs, especially those made from large proteins, cannot be given as a pill because they get broken down in the stomach before they can be absorbed.
To help overcome that obstacle, researchers at MIT and Massachusetts General Hospital (MGH) have devised a novel drug capsule coated with tiny needles that can inject drugs directly into the lining of the stomach after the capsule is swallowed. In animal studies, the team found that the capsule delivered insulin more efficiently than injection under the skin, and there were no harmful side effects as the capsule passed through the digestive system.
“This could be a way that the patient can circumvent the need to have an infusion or subcutaneous administration of a drug,” says Giovanni Traverso, a research fellow at MIT’s Koch Institute for Integrative Cancer Research, a gastroenterologist at MGH, and one of the lead authors of the paper, which appears in the Journal of Pharmaceutical Sciences.
Although the researchers tested their capsule with insulin, they anticipate that it would be most useful for delivering biopharmaceuticals such as antibodies, which are used to treat cancer and autoimmune disorders like arthritis and Crohn’s disease. This class of drugs, known as “biologics,” also includes vaccines, recombinant DNA, and RNA.
“The large size of these biologic drugs makes them nonabsorbable. And before they even would be absorbed, they’re degraded in your GI tract by acids and enzymes that just eat up the molecules and make them inactive,” says Carl Schoellhammer, a graduate student in chemical engineering and a lead author of the paper.
Safe and effective delivery
Scientists have tried designing microparticles and nanoparticles that can deliver biologics, but such particles are expensive to produce and require a new version to be engineered for each drug.
Schoellhammer, Traverso, and their colleagues set out to design a capsule that would serve as a platform for the delivery of a wide range of therapeutics, prevent degradation of the drugs, and inject the payload directly into the lining of the GI tract. Their prototype acrylic capsule, 2 centimeters long and 1 centimeter in diameter, includes a reservoir for the drug and is coated with hollow, stainless steel needles about 5 millimeters long.
Previous studies of accidental ingestion of sharp objects in human patients have suggested that it could be safe to swallow a capsule coated with short needles. Because there are no pain receptors in the GI tract, patients would not feel any pain from the drug injection.
To test whether this type of capsule could allow safe and effective drug delivery, the researchers tested it in pigs, with insulin as the drug payload. It took more than a week for the capsules to move through the entire digestive tract, and the researchers found no traces of tissue damage, supporting the potential safety of this novel approach.
They also found that the microneedles successfully injected insulin into the lining of the stomach, small intestine, and colon, causing the animals’ blood glucose levels to drop. This reduction in blood glucose was faster and larger than the drop seen when the same amount of insulin was given by subcutaneous injection.
“The kinetics are much better, and much faster-onset, than those seen with traditional under-the-skin administration,” Traverso says. “For molecules that are particularly difficult to absorb, this would be a way of actually administering them at much higher efficiency.”
“This is a very interesting approach,” says Samir Mitragotri, a professor of chemical engineering at the University of California at Santa Barbara who was not involved in the research. “Oral delivery of drugs is a major challenge, especially for protein drugs. There is tremendous motivation on various fronts for finding other ways to deliver drugs without using the standard needle and syringe.”
Further optimization
This approach could also be used to administer vaccines that normally have to be injected, the researchers say.
The team now plans to modify the capsule so that peristalsis, or contractions of the digestive tract, would slowly squeeze the drug out of the capsule as it travels through the tract. They are also working on capsules with needles made of degradable polymers and sugar that would break off and become embedded in the gut lining, where they would slowly disintegrate and release the drug. This would further minimize any safety concern.
Avi Schroeder, a former Koch Institute postdoc, is also a lead author of the paper. The senior authors are Robert Langer, the David H. Koch Institute Professor at MIT and a member of the Koch Institute, the Institute for Medical Engineering and Science (IMES), and the Department of Chemical Engineering; Daniel Blankschtein, the Herman P. Meissner Professor of Chemical Engineering; and Daniel Anderson, the Samuel A. Goldblith Associate Professor of Chemical Engineering and a member of the Koch Institute and IMES.
The research was funded by the National Institutes of Health.

Engineers develop a pill for long-term drug release

New tablet attaches to the lining of the GI tract, resists being pulled away.
 


Researchers from MIT and Brigham and Women’s Hospital have designed a new type of pill that, once swallowed, can attach to the lining of the gastrointestinal tract and slowly release its contents. The tablet is engineered so that one side adheres to tissue, while the other repels food and liquids that would otherwise pull it away from the attachment site.
Such extended-release pills could be used to reduce the dosage frequency of some drugs, the researchers say. For example, antibiotics that normally have to be taken two or three times a day could be given just once, making it easier for patients to stick to their dosing schedule.
“This could be adapted to many drugs. Any drug that is dosed frequently could be amenable to this kind of system,” says Giovanni Traverso, a research affiliate at MIT’s Koch Institute for Integrative Cancer Research, a gastroenterologist at Brigham and Women’s Hospital, and one of the senior authors of a paper describing the device in the April 6 issue of the journalAdvanced Healthcare Materials.
Robert Langer, the David H. Koch Institute Professor and a member of the Koch Institute, is also a senior author of the paper. The paper’s lead author is Young-Ah Lucy Lee, a technical assistant at the Koch Institute.
Two faces
Over the past several decades, Langer’s lab has developed many types of materials that can be implanted in the body or attached to the skin for long-term drug release. To achieve similar, long-term drug release in the gastrointestinal tract, the researchers focused on a type of material known as mucoadhesives, which can stick to the mucosal linings of organs such as the stomach.
Scientists have previously explored using this kind of material for drug delivery to the GI tract, but it has proven difficult because food and liquid in the stomach become stuck to the tablet, pulling it away from the tissue before it can deliver its entire drug payload.
“The challenge with mucoadhesives is that the GI tract is a very rough and abrasive environment,” says Lee, a 2014 Wellesley College graduate who began this project as her senior thesis.
To overcome this challenge, the researchers decided to create a dual-sided device, also called a Janus device after the two-faced Roman god. One side sticks to mucosal surfaces, while the other is omniphobic, meaning that it repels everything it encounters.
For the mucoadhesive side, the researchers used a commercially available polymer known as Carbopol, which is often used industrially as a stabilizing or thickening agent. The omniphobic side consists of cellulose acetate that the researchers textured so that its surface would mimic that of a lotus leaf, which has micro and nanoscale protrusions that make it extremely hydrophobic. They then fluorinated and lubricated the surface, making it repel nearly any material.
The researchers used a pill presser to combine the polymers into two-sided tablets, which can be formed in many shape and sizes. Drugs can be either embedded within the cellulose acetate layer or placed between the two layers.
Long-term attachment
Using intestinal tissue from pigs, the researchers tested three versions of the tablet — a dual-sided mucoadhesive tablet, a dual-sided omniphobic tablet, and the Janus version, with one mucoadhesive side and one omniphobic side.
To simulate the tumultuous environment of the GI tract, the researchers flowed a mix of food including liquids and small pieces of bread and rice along the tissue and then added the tablets. The dual-sided omniphobic tablet took less than 1 second to travel along the tissue, and the dual-sided mucoadhesive stuck to the tissue for only 7 seconds before being pulled off. The Janus version stayed attached for the length of the experiment, about 10 minutes.
Tejal Desai, a professor of bioengineering and therapeutic sciences at the University of California at San Francisco, says this approach could make it possible to deliver larger quantities of drugs through the GI tract.
“The ability to precisely engineer the adhesiveness of a particle opens up possibilities of designing particles to selectively adhere to specific regions of the GI tract, which in turn can increase the local or systemic concentrations of a particular drug,” says Desai, who was not involved in the work.  
The researchers now plan to do further tests in animals to help them tune how long the tablets can stay attached, the rate at which drugs are released from the material, and the ability to target the material to specific sections of the GI tract.
In addition to delivering antibiotics, the two-sided material may help to simplify drug regimens for malaria or tuberculosis, among other diseases, Traverso says. The researchers may also further pursue the development of tablets with omniphobic coatings on both sides, which they believe could help patients who have trouble swallowing pills.
“There are certain medications that are known to get stuck, particularly in the esophagus. It causes this massive amount of inflammation because it gets stuck and it causes irritation,” Traverso says. “Texturing the surfaces really opens up a new way of thinking about controlling and tuning how these drug formulations travel.”
The research was funded by the Bill and Melinda Gates Foundation, the National Institutes of Health, and the Alexander von Humboldt Foundation.

We’ve Figured Out How to

 Program Living Cells


Researchers at MIT have developed an easy-to-use “biological programming language” that allows genetic engineers (or just about anyone) to design biological circuits and “hack” the genomes of living cells.

LIFE-SHAPING

The evolution of human technology has proceeded in lockstep with the biological evolution of our species. For millions of years we were content with our primitive Oldowan choppers and Acheulean bifaces; in the Neolithic, we started playing with more sophisticated tools, and the Bronze and Iron ages followed in quick succession.
Now, researchers at MIT have developed a programming language that will allow the toolmakers of the future to “program” living cells—outfitting them with DNA-encoded circuitsthat confer a host of new functions on the “hacked” organism.
Christopher Voigt, professor of biological engineering at MIT, explains: “It is literally a programming language for bacteria. You use a text-based language, just like you’re programming a computer. Then you take that text and you compile it and it turns it into a DNA sequence that you put into the cell, and the circuit runs inside the cell.”
Essentially, you start with the ability you want to program into the bacterium—say, detecting the presence of certain harmful chemicals. You write up a program describing it, and a DNA sequence is created that will achieve the desired function.
And just like that, you’ve got a toxin-sniffing germ.

IT’S EASY TO USE

The new language, which was described in the April 1 issue of Science, has already been used to create biological circuits that can respond to up to three inputs in different ways. And its implications for medical technology, agriculture, and even biological computing are simply staggering.
But the really revolutionary aspect of the new programming language is that it can be used by literally anyone—you needn’t have any training in genetic or biological engineering. Hell, you don’t even need to know what a gene is.
It’s genetic engineering for the masses. The designers even plan to make the language’s user interface universally available on the Internet.
“You could be a student in high school and go onto the Web-based server and type out the program you want, and it spits back the DNA sequence,” says Voigt.
The designers based their language on Verilog, a popular coding language for programming computer chips. The key to making the whole thing work was tailoring the language to the complex conditions within cells; they had to make computing elements like logic gates that could be slipped into a bacterial genome.
Furthermore, the language is easily customizable. Right now, the genetic elements are specialized for the E. coli genome; but the researchers are working on a means for allowing designers to write a single code, which could then be translated to fit the genomes of other organisms.
And the speed of the new method means that DNA circuits that would normally take years to design and build now require the mere touch of a button.

LOOKING AHEAD

The appearance of this new biological programming language represents something of a game-changer. Along with other techniques, like CRISPR, it removes evolution—human or otherwise—from the uncertain realm of chance and blind happenstance, and it compresses its timescale from the geologic to the merely day-to-day.
It means we can start to have a say in our biological destiny, and that we can likewise control the destinies of the living things with which we share the planet. Whether that’s too much power and responsibility for any one species to wield—especially a species prone to some pretty whopping lapses in judgment—is a discussion for another time.
In the meantime, the researchers are looking to design practical applications for the technology—including ingestible bacteria that can aid in lactose processing, bacteria that can colonize plant roots and generate toxins to ward off insect attacks, and self-regulating yeast strains that automatically “shut off” when producing harmful byproducts in fermentation reactions.
Welcome to the newest technological revolution: The age of living technology.

Astronomers Find the Purest

 Oxygen Atmosphere Ever

 Discovered—

On a White Dwarf



Astronomers have discovered a never-before-seen type of white dwarf star, one that has a pure oxygen atmosphere. In a paper published in Science, the researchers detail the discovery of what is the only star of its kind known.

A PECULIAR WHITE DWARF

White dwarfs are like the doddering seniors of the stellar world: They’re in the last stage of their development, they come just after the most active and expansive phase of a star’s life, and they’re white with age.
These curious objects are the leftovers of a star after it has exhausted its nuclear fuel. Super-dense and super-hot, these white dwarfs have only the lightest elements on their surface, typically hydrogen and helium.
But then again, not all of them.

Astronomers have discovered a white dwarf that has a pure oxygen atmosphere. In a paperpublished in Science, the researchers detail the discovery of what is the only star of its kind ever to be found.
The team of Brazilian astronomers were combing the data of the Apache Point Observatory for a project called the Sloan Digital Sky Survey when they found the star, over 1200 light years distant, which seemingly had an atmosphere of 99.9 % oxygen.
They nicknamed the star “Dox” (Dee-Awks).

STRIPPING A STAR

The question on everybody’s mind is: what happened to it? White dwarfs typically have hydrogen and helium in their atmospheres, and heavier elements like oxygen, neon, and magnesium are found in a pool of these light elements.
Also, stars that have these heavy elements are typically large. For a white dwarf to have any oxygen, it must have been at least twice as big as Dox.
Quite simply, Dox defies most of our knowledge in stellar evolution and white dwarf formation. But this is not to say that there are no theories.
The most popular theory is that the star is a product of a binary evolution; there was another star in the same system, somewhat like the setups in the nearby Sirius and Procyon systems. The other star stripped Dox of its surface, exposing the heavy materials underneath. This explains why such a seemingly small white dwarf harbors such heavy elements: it used to be bigger.
“This star, a possible oxygen-neon white dwarf, will provide a rare observational test of the evolutionary paths toward white dwarfs,” says Dr. Kepler de Souza Oliveira, team leader of the astronomers.
With such a pure oxygen atmosphere, we could probably breathe it—while simultaneously being fried by the white dwarf’s intense radiation and crushed to single-atom thickness by its colossal gravity.

Samsung just patented smart contact lenses with a built-in camera
Welcome to the future.


Samsung just took another step into science fiction. South Korea has just granted the tech giant a patent for contact lenses with a display that can project images straight into the user's eye. The news comes from a Samsung-centric blog SamMobile.
The lenses are equipped with a built-in camera and sensors that can be controlled simply by blinking. Content is sent to your smartphone through embedded antennas. This is where the data is processed.
It seems that Samsung is developing the smart contact lenses as an alternative to creating improved augmented reality experiences over the current crop of wearables, reports SamMobile.
With contact lenses instead of glasses, users will be able to enjoy augmented reality content more discreetly.
A glimpse at the future
Blinking to control an ocular interface may lead to a lot of awkward situations and accidental input, but it's not entirely unrealistic. Thankfully, there's always the option of controlling the interface through your smartphone, like you would everything else.
With this development, Samsung joins Google in the arena, which also owns two patents for smart contact lenses. Google's contact lenses are mainly intended for medical use, with sensors and flexible electronics to read tear fluid chemicals to determine blood sugar levels.
Google and Samsung both filed their smart contact lens patents in their respective countries in 2014; however, it's possible that both companies are currently just at the concept stage, rather than actively developing smart contact lens prototypes.
Indeed, tech companies file (and are granted) all kinds of patents all the time, and it doesn't indicate that a corresponding commercial release is bound to follow suit.
And since so many technologies are constantly being developed and patented by companies large and small, the news is no reason to get too excited, but it is a reason to be hopeful.

Tuesday, April 5, 2016

About the Panama Papers

By Frederik Obermaier, Bastian Obermayer, Vanessa Wormer and Wolfgang Jaschensky


Over a year ago, an anonymous source contacted the Süddeutsche Zeitung (SZ) and submitted encrypted internal documents from Mossack Fonseca, a Panamanian law firm that sells anonymous offshore companies around the world. These shell companies enable their owners to cover up their business dealings, no matter how shady.
In the months that followed, the number of documents continued to grow far beyond the original leak. Ultimately, SZ acquired about 2.6 terabytes of data, making the leak the biggest that journalists had ever worked with. The source wanted neither financial compensation nor anything else in return, apart from a few security measures.
The data provides rare insights into a world that can only exist in the shadows. It proves how a global industry led by major banks, legal firms, and asset management companies secretly manages the estates of the world’s rich and famous: from politicians, Fifa officials, fraudsters and drug smugglers, to celebrities and professional athletes.

A group effort

The Süddeutsche Zeitung decided to analyze the data in cooperation with theInternational Consortium of Investigative Journalists (ICIJ). ICIJ had already coordinated the research for past projects that SZ was also involved in, among them Offshore Leaks, Lux Leaks, and Swiss Leaks. Panama Papers is the biggest-ever international cooperation of its kind. In the past 12 months, around 400 journalists from more than 100 media organizations in over 80 countries have taken part in researching the documents. These have included teams from the Guardian and the BBC in England, Le Monde in France, and La Nación in Argentina. In Germany, SZ journalists have cooperated with their colleagues from two public broadcasters, NDR and WDR. Journalists from the Swiss Sonntagszeitung and the Austrian weekly Falter have also worked on the project, as have their colleagues at ORF, Austria’s national public broadcaster. The international team initially met in Washington, Munich, Lillehammer and London to map out the research approach.

Making of The data

The Panama Papers include approximately 11.5 million documents – more than the combined total of the Wikileaks Cablegate, Offshore Leaks, Lux Leaks, and Swiss Leaks. The data primarily comprises e-mails, pdf files, photo files, and excerpts of an internal Mossack Fonseca database. It covers a period spanning from the 1970s to the spring of 2016. 
Moreover, the journalists crosschecked a large number of documents, including passport copies. About two years ago, a whistleblower had already sold internal Mossack Fonseca data to the German authorities, but the dataset was much older and smaller in scope: while it addressed a few hundred offshore companies, the Panama Papers provide data on some 214,000 companies. In the wake of the data purchase, last year investigators searched the homes and offices of about 100 people. The Commerzbank was also raided. As a consequence of their business dealings with Mossack Fonseca, Commerzbank, HSH Nordbank, and Hypovereinsbank agreed to pay fines of around 20 million euros, respectively. Since then, other countries have also acquired data from the initial smaller leak, among them the United States, the UK, and Iceland.

The system

The leaked data is structured as follows: Mossack Fonseca created a folder for each shell firm. Each folder contains e-mails, contracts, transcripts, and scanned documents. In some instances, there are several thousand pages of documentation. First, the data had to be systematically indexed to make searching through this sea of information possible. To this end, the Süddeutsche Zeitung used Nuix, the same program that international investigators work with. Süddeutsche Zeitung and ICIJ uploaded millions of documents onto high-performance computers. They applied optical character recognition (OCR) to transform data into machine-readable and easy to search files. The process turned images – such as scanned IDs and signed contracts – into searchable text. This was an important step: it enabled journalists to comb through as large a portion of the leak as possible using a simple search mask similar to Google.
The journalists compiled lists of important politicians, international criminals, and well-known professional athletes, among others. The digital processing made it possible to then search the leak for the names on these lists. The "party donations scandal" list contained 130 names, and the UN sanctions list more than 600. In just a few minutes, the powerful search algorithm compared the lists with the 11.5 million documents.

The research

For each name found, a detailed research process was initiated that posed the following questions: what is this person’s role in the network of companies? Where does the money come from? Where is it going? Is this structure legal?
Generally speaking, owning an offshore company is not illegal in itself. In fact, establishing an offshore company can be seen as a logical step for a broad range of business transactions. However, a look through the Panama Papers very quickly reveals that concealing the identities of the true company owners was the primary aim in the vast majority of cases. From the outset, the journalists had their work cut out for them. The providers of offshore companies – among them banks, lawyers, and investment advisors – often keep their clients’ names secret and use proxies. In turn, the proxies’ tracks then lead to heads of state, important officials, and millionaires. Over the course of the international project, journalists cooperated with one another to investigate thousands of leads: they examined evidence, studied contracts, and spoke with experts.
Among others, Mossack Fonsecas’ clients include criminals and members of various Mafia groups. The documents also expose bribery scandals and corrupt heads of state and government. The alleged offshore companies of twelve current and former heads of state make up one of the most spectacular parts of the leak, as do the links to other leaders, and to their families, closest advisors, and friends. The Panamanian law firm also counts almost 200 other politicians from around the globe among its clients, including a number of ministers.

The company

The company at the center of all these stories is Mossack Fonseca, a Panamanian provider of offshore companies with dozens of offices all over the world. It sells its shell firms in cities such as Zurich, London, and Hong Kong – in some instances at bargain prices. Clients can buy an anonymous company for as little as USD 1,000. However, at this price it is just an empty shell. For an extra fee, Mossack Fonseca provides a sham director and, if desired, conceals the company’s true shareholder. The result is an offshore company whose true purpose and ownership structure is indecipherable from the outside. Mossack Fonseca has founded, sold, and managed thousands of companies. The documents provide a detailed view of how Mossack Fonseca routinely accepts to engage in business activities that potentially violate sanctions, in addition to aiding and abetting tax evasion and money laundering.

About Süddeutsche Zeitung

Headquartered in Munich, Süddeutsche Zeitung (SZ) is one of Germany’s leading newspapers. SZ has a total readership of 4.4 million for its print and online media. Its investigative journalism team counts five people, three of which are members of the International Consortium of Investigative Journalists (ICIJ). The Süddeutsche Zeitunghas won a number of prestigious awards for its research work. Its team has cooperated with other media organizations on a number of projects, including Offshore Leaks, Swiss Leaks, and Lux Leaks, which ICIJ coordinated. At the beginning of 2015, an anonymous source began sending the Süddeutsche Zeitung data from Mossack Fonseca, a provider of offshore companies. This marked the beginning of the Panama Papers project.

Sunday, April 3, 2016

The BRIC Countries

: Brazil, Russia, India, China


he BRIC countries are made up of Brazil, Russia, India and China - although if we were to categorize them by importance, it would actually be CIRB.

Why the BRIC are Important

The BRIC are both the fastest growing and largest emerging markets economies. They account for almost three billion people, or just under half of the total population of the world. In recent times, the BRIC have also contributed to the majority of world GDP growth.
According to various economists projections, it is only a matter of time before China becomes the biggest economy in the world - sometime between 2030 and 2050 seems the consensus. In fact, Goldman Sachs believe that by 2050 these will be the most important economies, relegating the US to fifth place.
By 2020, all of the BRIC should be in the top 10 largest economies of the world. The undisputed heavyweight, though, will be China, also the largest the creditor in the world.
Apart from their growth characteristics, the BRIC countries frankly have little in common. They are primarily an investment category now, although there may some political and economic alliances that develop from that grouping. If they do, it is likely to be temporary - once China has assumed its rightful place, it may have no need for these alliances. A G2 of China and the US may be more important for it unless the 2050 predictions do come true.
In 2008, the BRIC countries had a summit and analysts believed that they were seeking to 'convert their growing economic clout into political power'.

These analysts believe that by working together, the BRIC countries can carve out the future economic order between themselves. They believe that China can dominate in manufactured goods, India in services, and Russia and Brazil in raw material supplies.
By working together, they can effectively counter the entrenched interests and organisational structures of the west.
In reality, right now, relations with the US, the EU and bilaterally are more important, but it is worth watching developments between BRIC nations to see if these notions start to become entrenched in active co-operation.


ABOUT BRICS
ORIGIN AND EVOLUTION OF BRICS [BRAZIL, RUSSIA, INDIA, CHINA AND SOUTH AFRICA]
The BRIC [Brazil, Russia, India and China] idea was first conceived in 2001 by Goldman Sachs as part of an economic modeling exercise to forecast global economic trends over the next half century; the acronym BRIC was first used in 2001 by Goldman Sachs in their Global Economics Paper No. 66, “The World Needs Better Economic BRICs”.
EXPANSION OF BRIC INTO BRICS
BRIC Foreign Ministers at their meeting in New York on 21st September 2010 agreed that South Africa may be invited to join BRIC. Accordingly, South Africa was invite to attend the 3rd BRICS Summit in Sanya on 14 April 2011.
BRIC(S) SUMMITS
Four Summits have been held so far; the first in Yekaterinburg, Russia, on June 16, 2009; second in Brasilia on 15 April 2010, the third in Sanya, China on 14 April 2011 and the fourth in New Delhi, India on 29 March 2012. BRICS Leaders have also met on the sidelines of other multilateral meetings.
OTHER BRICS MEETINGS / FORUMS
FOREIGN MINISTERS
Foreign Ministers of BRICS have been meeting regularly in New York on the sidelines of UNGA since their first meeting in September 2006. The last meeting was hosted by India in New York on 23 September 2011.
A standalone meeting of BRIC Foreign Ministers was held in Yekaterinburg, Russia on 16 May 2008. A Joint Communiqué was issued at the Meeting.
FINANCE/ECONOMIC MINISTERS
The first meeting of BRICS Economic/Finance Ministers was held in November 2008 in Sao Paolo, Brazil for consultations in the wake of the global economic and financial crisis. BRICS Economic/Finance Ministers have been meeting regularly on the sidelines of G20 meetings and IMF/WB annual meetings; the last meeting was hosted by India on 22 September 2011 on the sidelines of G20 meetings and IMF / WB annual meetings in Washington DC.
HIGH REPRESENTATIVES ON SECURITY (NATIONAL SECURITY ADVISERS)
Russia hosted a formal meeting of BRIC National Security Advisers (NSAs) in May 2009 to discuss the security implications of the global financial and economic crisis. The second meeting of BRIC NSAs was held in Brasilia in April 2010 followed by the 3rd in Sochi, Russia in October 2010.
AGRICULTURE MINISTERS
Two meetings of BRICS Agriculture Ministers have taken place; the first in Moscow on 26 March 2010 and the second in Chengdu, China on 28 October – 1 November 2011. A Joint Declaration was issued at the meeting in China and Action Plan for 2012-2016 for Agricultural Cooperation among BRICS countries outlining priority areas was adopted. A Working Group on Agriculture has also been set up to deepen cooperation in Agriculture.
TRADE MINISTERS
BRICS Trade Ministers met in in Rio in April 2010 in the run-up to the 2nd BRIC Summit and in Sanya, China on 13 April 2011 on the sidelines of the 3rd Summit. Trade Ministers also met on the sidelines of the 8th WTO Ministerial Conference in Geneva in December 2011. A Meeting of Trade Ministers also took place on 28 March 2012, a day prior to the 4th Summit.
BRICS HEALTH MINISTERS
A meeting of BRICS Health Ministers was held in July 2011 in Beijing to explore areas of cooperation in the health sector.
SCIENCE & TECHNOLOGY SENIOR OFFICIALS
The first meeting of Science & Technology Senior Officials was held on 14-16 September 2011 in Dalian, China.
BRICS COMPETITION CONFERENCES
The first meeting of BRIC Competition Authorities was held in Kazan, Russia on 1 September 2009. The 2nd meeting was hosted by China in Beijing on 20-22 September 2011.
BUSINESS FORUM
Two BRICS Business Forum meetings have taken place; the last in Sanya on the sidelines of the 3rd Summit in April 2011. An MoU identifying Focal Points in BRICS countries for coordinating business activities was signed. Third BRICS Business forum was jointly organized by FICCI, CII and ASSOCHAM on 28 March 2012 in New Delhi.
BRICS DEVELOPMENT BANKS
The first meeting of Development Banks was hosted by Brazil in April 2010. An MoU laying the foundation of BRICS Inter-Bank Cooperation Mechanism was signed at the Meeting. Following up on the MoU, BRICS Development Banks signed a “Framework Agreement on Financial Cooperation within the BRICS Inter-Bank Cooperation Mechanism” at the Sanya Summit. Under the aforementioned Framework Agreement, two agreements were signed by the Development Banks from BRICS during the fourth BRICS Summit- “Master Agreement on Extending Credit Facility in Local Currencies” and “BRICS Multilateral Letter of Credit Confirmation Facility Agreement. The agreement was signed by EXIM Bank from India.
STATISTICAL ORGANIZATIONS
BRICS National Statistical authorities have also had three meetings. The last meeting was held in Beijing in March 2011. BRICS National Statistical Authorities have also brought out a BRICS Statistical Publication; it was first issued at the 2nd Summit in Brasilia in April 2010 and its revised edition after South Africa’s joining of BRICS, was issued at the 3rd Summit in Sanya. A Technical Meeting was hosted by the Ministry of Statistics and Programme Implementation of India in New Delhi on 6-8 February 2012 to revise the Publication. The updated edition of BRICS Statistical Publication was issued at the Fourth Summit.
Travel Organization can be done using our partner company Jeftine Avio Karte who will offering best possible service for booking your flights at best prices available so you dont miss any part of the summit
BRICS JOINT STUDY
Department of Economic Affairs, Ministry of Finance of India has coordinated a Joint BRICS Study on the state of world economy during the next two years and the role of BRICS countries. During the Fourth Summit in New Delhi, the Leaders released “The BRICS Report” focusing on synergies and complementarities between the BRICS economies and highlighting their role as growth drivers of the world economy.
ACADEMIC FORUM/TRACK-II
India hosted the first BRIC Academic Forum in May 2009 as preparatory event to feed into the first BRICS Summit in Yekaterinburg, Russia in June 2009. Brazil hosted the second Academic Forum before the second Summit on 14-15 April, 2010. China hosted the third meeting in Beijing in March 2011. The Fourth BRICS Academic Forum took place in New Delhi on 4-6 March 2012 and came up with many useful recommendations. An MoU was also signed between the coordinating research institutions from BRICS countries during the event.
BRICS FRIENDSHIP CITIES
The first meeting of Mayors of BRICS cities and BRICS Friendship Cities was held in Sanya, China on 1-3 December 2011.
ISSUES ON BRICS AGENDA
The agenda of BRICS meetings has considerably widened over the years to encompass topical global issues such as political developments of relevance like situation in Middle East and North Africa region, Afghanistan, Iran and Syria, institutions of global governance such as UN, IMF, World Bank Group, international terrorism, climate change, food and energy security, MDGs, international economic and financial situation, etc.