Tag Archives: Bangladesh

Genetic engineering: an eggplant in Bangladesh and a synthetic biology grant at Concordia University (Canada)

I have two bits of genetic engineering news.

Eggplants in Bangladesh

I always marvel at their beauty,

Bt eggplant is the first genetically engineered food crop to be successfully introduced in South Asia. The crop is helping some of the world’s poorest farmers feed their families and communities while reducing the use of pesticides. Photo by Cornell Alliance for Science.

A July 17, 2018 news item on phys.org describes a genetic engineering application,

Ansar Ali earned just 11,000 taka – about $130 U.S. dollars – from eggplant he grew last year in Bangladesh. This year, after planting Bt eggplant, he brought home more than double that amount, 27,000 taka. It’s a life-changing improvement for a subsistence farmer like Ali.

Bt eggplant, or brinjal as it’s known in Bangladesh, is the first genetically engineered food crop to be successfully introduced in South Asia. Bt brinjal is helping some of the world’s poorest farmers to feed their families and communities, improve profits and dramatically reduce pesticide use. That’s according to Tony Shelton, Cornell professor of entomology and director of the Bt brinjal project funded by the United States Agency for International Development (USAID). Shelton and Jahangir Hossain, the country coordinator for the project in Bangladesh, lead the Cornell initiative to get these seeds into the hands of the small-scale, resource-poor farmers who grow a crop consumed daily by millions of Bangladeshis.

A July 11, 2018 Cornell University news release by Krisy Gashler, which originated the news item, expands on the theme (Note: Links have been removed),

Bt brinjal was first developed by the Indian seed company Mahyco in the early 2000s. Scientists inserted a gene from the bacterium Bacillus thuringiensis (thus the name, Bt) into nine brinjal varieties. The plants were engineered to resist the fruit and shoot borer, a devastating insect whose larvae bore into the stem and fruit of an eggplant. The insects cause up to 80 percent crop loss.

The Bt protein produced by the engineered eggplant causes the fruit and shoot borer larva to stop feeding, but is safe for humans consuming the eggplant, as proven through years of biosafety trials. In fact, Bt is commonly used by organic farmers to control caterpillars but has to be sprayed frequently to be effective. The Bt eggplant produces essentially the same protein as in the spray. More than 80 percent of field corn and cotton grown in the U.S. contains a Bt gene for insect control.

“Farmers growing Bt brinjal in Bangladesh are seeing three times the production of other brinjal varieties, at half the production cost, and are getting better prices at the market,” Hossain said.

A recent survey found 50 percent of farmers in Bangladesh said that they experienced illness due to the intense spraying of insecticides. Most farmers work in bare feet and without eye protection, leading to pesticide exposure that causes skin and eye irritation, and vomiting.

“It’s terrible for these farmers’ health and the health of the environment to spray so much,” said Shelton, who found that pesticide use on Bt eggplant was reduced as much as 92 percent in commercial Bt brinjal plantings. “Bt brinjal is a solution that’s really making a difference in people’s lives.”

Alhaz Uddin, a farmer in the Tangail district, made 6,000 taka growing traditional brinjal, but had to spend 4,000 taka on pesticides to combat fruit and shoot borer.

“I sprayed pesticides several times in a week,” he said. “I got sick many times during the spray.”

Mahyco initially wanted to introduce Bt brinjal in India and underwent years of successful safety testing. But in 2010, due to pressure from anti-biotechnology groups, the Indian minister of the environment placed a moratorium on the seeds. It is still in effect today, leaving brinjal farmers there without the effective and safe method of control available to their neighbors in Bangladesh.

Even before the Indian moratorium, Cornell scientists hosted delegations from Bangladesh that wanted to learn about Bt brinjal and the Agricultural Biotechnology Support Project II (ABSP II), a consortium of public and private institutions in Asia and Africa intended to help with the commercial development, regulatory approval and dissemination of bio-engineered crops, including Bt brinjal.

Cornell worked with USAID, Mahyco and the Bangladesh Agricultural Research Institute to secure regulatory approval, and in 2014 the Bangladeshi government distributed a small number of Bt brinjal plants to 20 farmers in four districts. The next year 108 farmers grew Bt brinjal, and the following year the number of farmers more than doubled to 250. In 2017 the number increased to 6,512 and in 2018 to 27,012. The numbers are likely even higher, according to Shelton, as there are no constraints against farmers saving seeds and replanting.

“Farmers who plant Bt brinjal are required to plant a small perimeter of traditional brinjal around the Bt variety; research has shown that the insects will infest plants in the buffer area, and this will slow their evolutionary development of resistance to the Bt plants,” Shelton said.

In a March 2017 workshop, Bangladeshi Agriculture Minister Begum Matia Chowdhury called Bt brinjal “a success story of local and foreign collaboration.”

“We will be guided by the science-based information, not by the nonscientific whispering of a section of people,” Chowdhury said. “As human beings, it is our moral obligation that all people in our country should get food and not go to bed on an empty stomach. Biotechnology can play an important role in this effect.”

Here’s what an infested eggplant looks like,

Non-Bt eggplant infested with fruit and shoot borer. Photo by Cornell Alliance for Science

It looks more like a fig than an eggplant.

This is part of a more comprehensive project as revealed in a March 29, 2016 Cornell University news release issued on the occasion of a $4.8M, three-year grant from the U.S. Agency for International Development (USAID),

… The award supports USAID’s work under Feed the Future, the U.S. government’s global initiative to fight hunger and improve food security using agricultural science and technology.

In the Feed the Future South Asia Eggplant Improvement Partnership, Cornell will protect eggplant farmers from yield losses and improve their livelihoods in partnership with the Bangladesh Agricultural Research Institute (BARI) and the University of the Philippines at Los Baños. Eggplant, or brinjal, is a staple crop that is an important source of income and nutrition for farmers and consumers in South Asia.

Over the past decade, Cornell has led the Agricultural Biotechnology Support Project II (ABSPII), also funded by USAID, that prompted a consortium of institutions in Asia and Africa to use the tools of modern biotechnology, particularly genetic engineering, to improve crops to address major production constraints for which conventional plant breeding tools have not been effective.

In October 2013, Bangladesh became the first country in South Asia to approve commercial cultivation of a genetically engineered food crop. In February 2014, Matia Chowdhury, the Bangladesh minister of agriculture, released four varieties of Bt brinjal to 20 farmers. With the establishment of the 20 Bt brinjal demonstration plots in 2014 and 104 more in 2015, BARI reported a noticeable decrease in fruit and shoot borer infestation, increased yields, decreased use of pesticide and improved income for farmers.

The Feed the Future South Asia Eggplant Improvement Partnership addresses and integrates all elements of the commercialization process — including technology development, regulation, marketing, seed distribution, and product stewardship. It also provides strong platforms for policy development, capacity building, gender equality, outreach and communication.

Moving on from practical applications …

Canada’s synthetic biology training centre

It seems Concordia University (Montréa) is a major Canadian centre for all things ‘synthetic biological’. (from the History and Vision webpage on Concordia University’s Centre for Applied Synthetic Biology webspace),

History and vision

Emerging in 2012 from a collaboration between the Biology and Electrical and Computer Engineering Departments, the Centre received University-wide status in 2016 growing its membership to include Biochemistry, Journalism, Communication Studies, Mechanical, Industrial and Chemical Engineering.


Timeline

T17-36393-VPRG-Timeline-graphic-promo-v4

You can see the timeline does not yet include 2018 development(s). Also it started as “a collaboration between the Biology and Electrical and Computer Engineering Departments?” This suggests a vastly different approach to genetic engineering that that employed in the “eggplant” research. From a July 16, 2018 posting on the Genome Alberta blog,

The Natural Sciences and Engineering Research Council of Canada (NSERC) has committed $1.65 million dollars over six years to establish a research and training program at Concordia’s Centre for Applied Synthetic Biology.

The funds were awarded after Malcolm Whiteway (…), professor of biology and the Canada Research Chair in Microbial Genomics, and the grant application team submitted a proposal to NSERC’s Collaborative Research and Training Experience (CREATE) program.

The Synthetic Biology Applications CREATE program — or SynBioApps — will help students acquire and develop important professional skills that complement their academic education and improve their job-readiness.

‘Concordia is a natural fit’

“As the Canadian leader in synthetic biology and as the home of the country’s only genome foundry, Concordia is a natural fit for a training program in this growing area of research,” says Christophe Guy, vice-president of Research and Graduate Studies.

“In offering a program like SynBioApps, we are providing our students with both a fundamental education in science and the business skills they’ll need to transition into their professional careers.”

The program’s aims are twofold: First, it will teach students how to design and construct cells and proteins for the development of new products related to human health, green technologies, and fundamental biological investigations. Second, it will provide cross-disciplinary training and internship opportunities through the university’s District 3 Innovation Center.

SynBioApps will be open to students from biology, biochemistry, engineering, computing, and mathematics.

“The ability to apply engineering approaches to biological systems promises to revolutionize both biology and industry,” says Whiteway, who is also a member of the Centre for Applied Synthetic Biology.

“The SynBioApps program at Concordia will provide a training program to develop the students who will both investigate the biology and build these industries.”

You can find out more about Concordia’s Centre for Applied Synthetic Biology here (there are jobs listed on their home page) and you can find information about the Synthetic Biology Applications (SynBioApps) training programme here.

Water report from the UN (United Nations)

This is outside my usual range of topics but given water’s importance in our survival I am inclined to feature this new UN (United Nations) report on water. From a Feb. 22, 2015 UN University (UNU) Institute for Water, Environment and Health (INWEH) news release on EurekAlert,

A new UN report warns that without large new water-related investments many societies worldwide will soon confront rising desperation and conflicts over life’s most essential resource.

The news release describes the situation,

Continued stalling, coupled with population growth, economic instability, disrupted climate patterns and other variables, could reverse hard-earned development gains and preclude meaningful levels of development that can be sustained into the future.

Says lead author Bob Sandford, EPCOR Chair, Canadian Partnership Initiative in support of the UN Water for Life Decade: “The consequence of unmet water goals will be widespread insecurity creating more international tension and conflict. The positive message is that if we can keep moving now on water-related Sustainable Development Goals we can still have the future we want.”

Published in the run-up to the adoption this September of universal post-2015 Sustainable Development Goals (SDGs), the report provides an in-depth analysis of 10 countries to show how achieving water and sanitation-related SDGs offers a rapid, cost effective way to achieve sustainable development.

The 10 countries given the analysis are not the ‘usual suspects’ (from the news release),

The countries included in the study cover the full range of economic and development spectrum: Bangladesh, Bolivia, Canada, Indonesia, Republic of Korea, Pakistan, Singapore, Uganda, Vietnam, and Zambia.

Based on the national case studies, the report prescribes country level steps for achieving the global water targets.

No US. No China. No Middle Eastern countries. No Australia. No India. No Japan. No European countries. There is one North American country, two African countries and one South American country in addition to the Asian countries. To my knowledge none of the included countries is strongly associated with desert regions.

It’s an interesting set of choices and the report offers no explanation as to why these 10 countries rather than 10 others. You can check if for yourself on p. 29 (the introductory first page of Part Three: Learning from National Priorities and Strategies) of the 2015 Water in the World We Want report.

Water scarcity hurts everybody

Moving on to the report’s recommendations as noted in the news release,

Among top recommendations: Hold the agriculture sector (which guzzles roughly 70% of world water supplies), and the energy sector (15%), accountable for making efficiencies while transitioning to clean energy including hydropower.

Prepared in association with the Global Water Partnership and Canada’s McMaster University, the report says the success of global efforts on the scale required rests in large part on a crackdown on widespread corruption in the water sector, particularly in developing countries.

“In many places … corruption is resulting in the hemorrhaging of precious financial resources,” siphoning an estimated 30% of funds earmarked for water and sanitation-related improvements.

The report underscores the need for clearly defined anti-corruption protocols enforced with harsh penalties.

Given accelerating Earth system changes and the growing threat of hydro-climatic disruption, corruption undermining water-related improvements threatens the stability and very existence of some nation states, which in turn affects all other countries, the report says.

“Corruption at any level is not just a criminal act in its own right. In the context of sustainable development it could be viewed as a crime against all of humanity.”

The report notes that the world’s water and wastewater infrastructure maintenance and replacement deficit is building at a rate of $200 million per year, with $1 trillion now required in the USA alone.

To finance its recommendations, the report says that, in addition to plugging the leakage of funds to corruption, $1.9 trillion in subsidies to petroleum, coal and gas industries should be redirected by degrees.

The estimated global cost to achieve post-2015 sustainable development goals in water and sanitation development, maintenance and replacement is US $1.25 trillion to $2.25 trillion per year for 20 years, a doubling or tripling of current spending translating into 1.8 to 2.5 percent of global GDP.

The resulting benefits would be commensurately large, however – a minimum of $3.11 trillion per year, not counting health care savings and valuable ecosystem service enhancements.

Changes in fundamental hydrology “likely to cause new kinds of conflict”

Sandford and co-lead author Corinne J. Schuster-Wallace of UNU-INWEH underline that all current water management challenges will be compounded one way or another by climate change, and by increasingly unpredictable weather.

“Historical predictability, known as relative hydrological stationarity … provides the certainty needed to build houses to withstand winds of a certain speed, snow of a certain weight, and rainfalls of certain intensity and duration, when to plant crops, and to what size to build storm sewers. The consequence is that the management of water in all its forms in the future will involve a great deal more uncertainty than it has in the past.”

“In a more or less stable hydro-climatic regime you are playing poker with a deck you know and can bet on risk accordingly. The loss of stationarity is playing poker with a deck in which new cards you have never seen before keep appearing more and more often, ultimately disrupting your hand to such an extent that the game no longer has coherence or meaning.”

“People do not have the luxury of living without water and when faced with a life or death decision, people tend to do whatever they must to survive … Changes in fundamental hydrology are likely to cause new kinds of conflict, and it can be expected that both water scarcity and flooding will become major trans-boundary water issues.”

Within 10 years, researchers predict 48 countries – 25% of all nations on Earth with an expected combined population of 2.9 billion – will be classified “water-scarce” (1,000 to 1,700 cubic meters of water per capita per year) or “water-stressed” (1,000 cubic meters or less). [emphases mine]

And by 2030, expect overall global demand for freshwater to exceed supply by 40%, with the most acute problems in warmer, low-resource nations with young, fast-growing populations, according to the report. [emphasis mine]

An estimated 25% of the world’s major river basins run dry for part of each year, the report notes, and “new conflicts are likely to emerge as more of the world’s rivers become further heavily abstracted so that they no longer make it to the sea.”

Meanwhile, the magnitude of floods in Pakistan and Australia in 2010, and on the Great Plains of North America in 2011 and 2014, “suggests that the destruction of upstream flood protection and the failure to provide adequate downstream flood warning will enter into global conflict formulae in the future.”

The report cites the rising cost of world flood-related damages: US$53 billion in 2013 and more than US$312 billion since 2004.

Included in the global flood figures: roughly $1 billion in flood damage in the Canadian province of Manitoba in both 2011 and 2014. The disasters have affected the province’s economic and political stability, contributing to a budget deficit, an unpopular increase in the provincial sales tax and to the consequent resignation of political leaders. [emphases mine]

UNU-INWEH Director Zafar Adeel and Jong Soo Yoon, Head of the UN Office for Sustainable Development, state: “Through a series of country case studies, expert opinion, and evidence synthesis, the report explores the critical role that water plays (including sanitation and wastewater management) in sustainable development; current disconnects between some national development plans and the proposed SDGs; opportunities for achieving sustainable development through careful water management; and implementation opportunities.”

The report, they add, “fills a critical gap in understanding the complexities associated with water resources and their management, and also provides substantive options that enable us to move forward within the global dialogue.”

Juxtaposing the situation in Manitoba with the situation in warmer, low-resource nations emphasizes the universality of the problem. Canadians can be complacent about water scarcity, especially where I live in the Pacific Northwest, but it affects us all.

Corruption bites everywhere

As for the corruption mentioned in the news release and report, while there is no news of ‘water’ corruption here, the country does have its own track record with regard to financial boondoggles. For example, the Auditor-General reported in 2013 that $3.1B spent on measures to combat terrorism was unaccounted for (from an April 30, 2013 Globe & Mail article by Gloria Galloway and Daniel Leblanc),

The federal government cannot account for billions of dollars that were devoted to combatting terrorism after the Sept. 11 [2001] attacks, Canada’s Auditor-General says in a new report.

Between 2001 and 2009, Ottawa awarded $12.9-billion to 35 departments and agencies charged with ensuring the safety of Canadians to use for public security and fighting terrorism. The money allocated through the Public Security and Anti-Terrorism Initiative was intended to pay for measures designed to keep terrorists out of Canada, to prosecute those found in the country, to support international initiatives, and to protect infrastructure.

But Auditor-General Michael Ferguson said only $9.8-billion of that money was identified in reports to the Treasury Board as having been spent specifically on anti-terrorism measures by the departments and agencies. The rest was not recorded as being used for that purpose. Some was moved to other priorities, and some lapsed without being spent, but the government has no full breakdown for the $3.1-billion.

The time period 2001 – 2009 implicates both Liberal and Conservative governments, the Conservatives having come to power in 2006.

About Bob Sandford and EPCOR

One final note, the report’s co-lead author, Bob Sandford, is described as the chair for EPCOR Canadian Partnership Initiative in support of the UN Water for Life Decade, It’s a rather interesting title in that Sandford is not on the EPCOR board. Here’s how EPCOR describes Sandford on the company’s webpage dedicated to him and dated March 13, 2013,

Robert Sandford is the EPCOR Chair in support of the United Nations “Water for Life” Decade of Action initiative in Canada. We support his efforts as he speaks in plain language to policy makers, explaining how his work links research and analysis to public policy ideas that help protect water supplies and reduce water consumption.

We’re proud to sponsor his leadership efforts to educate Canadians and help local and international governments become better stewards of a most precious resource. Supporting Robert is just one of the ways EPCOR works to protect water in our communities.

The company which is owned solely by the city of Edmonton (Alberta) was originally named Edmonton Electric Lighting and Power Company in 1891. As they say on the company’s About page, “We provide electricity and water services to customers in Canada and the US.” They also develop some nice public relations strategies. I’m referring, of course, to the Sandford sponsorship which can be better appreciated by going to Sandford’s, from the homepage,

Bob Sandford is the EPCOR Chair of the Canadian Partnership Initiative in support of United Nations “Water for Life” Decade. This national partnership initiative aims to inform the public on water issues and translate scientific research outcomes into language decision-makers can use to craft timely and meaningful public policy.

Bob is also the Director of the Western Watersheds Research Collaborative and an associate of the Centre for Hydrology which is part of the Global Water Institute at the University of Saskatchewan. Bob is also a Fellow of the Biogeoscience Institute at the University of Calgary. He sits on the Advisory Board of Living Lakes Canada, the Canadian Chapter of Living Lakes International and is also a member of the Forum for Leadership on Water (FLOW), a national water policy research group centred in Toronto. Bob also serves as Water Governance Adviser and Senior Policy Author for Simon Fraser University’s Adaptation to Climate Change Team. In 2011, Bob was invited to be an advisor on water issues by the Interaction Council, a global public policy forum composed of more than thirty former Heads of State including Canadian Prime Minister Jean Chretien, U.S. President Bill Clinton, and the former Prime Minister of Norway, Gro Brundtland. In this capacity Bob works to bring broad international example to bear on Canadian water issues. In 2013, Alberta Ventures magazine recognized Bob as one of the year’s 50 most influential Albertans.

I guess Mr. Sandford knows his water.

Grand Challenges Canada funds 83 projects to improve global health

For the third year in a row (as per my Dec. 22, 2011 posting and my Nov. 22, 2012 posting), I’m featuring Grand Challenges Canada funding for its ‘Stars in Global Health’ programme . From the Grand Challenges Canada (GCC) Nov. 21, 2013 news release,

Imaginative: 83 Bold Innovations to Improve Global Health Receive Grand Challenges Canada Funding

Among novel ideas to reduce disease, save lives in developing world:
Diagnostic diapers to detect deadly rotavirus; Rolling water barrel;
Special yogurt offsets pesticides, heavy metals, toxins in food;
Inventive shoe, boot material releases bug repellent when walking

50 innovators from low- and middle-income countries,
plus 33 from Canada, share $9.3 million in seed grants

Grand Challenges Canada, funded by the Government of Canada, today extends seed grants of $100,000 each to 83 inventive new ideas for addressing health problems in resource-poor countries.

The Grand Challenges Canada “Stars in Global Health” program seeks breakthrough and affordable innovations that could transform the way disease is treated in the developing world — innovations that may benefit the health of developed world citizens as well.

Of the 83 grants announced today, 50 are given to innovators in 15 low- and middle-income nations worldwide and 33 to Canadian-originated projects, to be implemented in a total of 30 countries throughout the developing world.

“Innovation powers development leading to better health and more jobs. I feel proud that Canada, through Grand Challenges Canada, has supported almost 300 bold ideas to date in our Stars in Global Health program,” says Dr. Peter A. Singer, Chief Executive Officer of Grand Challenges Canada.  “This is one of the largest pipelines of innovations in global health in the world today.”

Says the Honourable Christian Paradis, Canadian Minister of International Development and Minister for La Francophonie: “Grand Challenges Canada’s portfolio of projects shows how innovators with bold ideas have the potential to make a big impact on global health.  By connecting game-changing ideas with some of the most pressing global health challenges, these projects will lead to sustainable and affordable health solutions in low- and middle-income countries.”

The portfolio of 83 creative, out-of-the-box ideas, selected through independent peer review from 451 applications, includes projects submitted by social entrepreneurs, private sector companies and non-government organizations as well as university researchers.  Among them:

Diagnostics

  • A simple, portable, dry, yeast-based blood screening test (Belize, Jamaica).  WHO estimates almost half of 46 million blood donations in low-income countries are inadequately tested;  in Africa up to 10% of new HIV infections are caused by transfusions.  A University of Toronto-developed yeast-based blood screening tool will detect combinations of diseases. Like baking yeast, it can be stored dry, and can be grown locally with minimal equipment and training, improving accessibility in rural areas.
  • A bedside, Litmus paper-like test to detect bronchitis (Brazil, India). Being pioneered at McMaster University with international collaborators, a simple sputum test will detect infectious and allergic bronchitis in adults and children, reducing mis-diagnosis in developing countries and saving resources: time, steroids, antibiotics.

Water, sanitation, hygiene and general health

  • Special yogurts formulated to offset the harm to health caused by heavy metals, pesticides and other toxics in food (Africa).  Between 2006-2009 in Nairobi, only 17% of the total maize sampled and 5% of feed was fit for human and animal consumption respectively. University of Western Ontario researchers have developed novel yogurts containing a bacteria that, in the stomach, sequesters certain toxins and heavy metals and degrades some pesticides.
  • Addressing arsenic-laced groundwater. In Bangladesh, 1 in 5 deaths (600,000 per year) occur due to groundwater arsenic, dubbed by WHO as the largest mass poisoning in history, with some 77 million people at risk.  Project 1) Toronto-based PurifAid will deploy new filtration units via franchised villagers who will filter and deliver purified water, perform maintenance, acquire new filters and dispose of old ones, which can be used to produce biofuels.  Project 2) A project based at the University of Calgary, meanwhile, will work to increase the use of Western Canadian lentils in Bangladeshi diets.  The crop is rich in selenium, which can decrease arsenic levels and improve health.
  • “WaterWheel” (India, Kenya, Mongolia).  This simple, innovative device from India is a wheeled water container that enables the collection and transport of 3 to 5 times as much water as usual per trip, as well as hygienic storage, saving valuable time for productive activities and improving health.

Malaria

  • A vaccine based on a newly-discovered antibody in men that prevents malaria infection in the placenta (Benin, Colombia).  Colombian men exposed to malaria are found to have antibodies that can prevent infection in the placenta of a pregnant woman. This University of Alberta finding forms the basis for developing a novel vaccine against several forms of malaria, which cause 10,000 maternal deaths and 200,000 stillbirths annually.
  • Insect-repellent clothing, footwear and wall plaster (East Africa).  1) In Tanzania, the Africa Technical Research Institute will lead the design and manufacture of attractive, affordable insecticide-treated clothing while 2) the Ifakara Health Institute will develop anti-mosquito footwear material that slowly releases repellents from the friction of walking.  A key advantage: no compliance or change in habits required.  3) Uganda’s Med Biotech Laboratories, meanwhile, will produce a colorful, insecticide-infused ‘plaster’ for the outside walls of African village homes.

Maternal and child health

  • Mothers Telling Mothers: improving maternal health through storytelling (Uganda).  Work by Twezimbe Development Association has found that stories told by mothers in their own words and reflecting shared realities are most likely to increase the number of moms seeking skilled health care, and convince policymakers to improve healthcare access.  This project will capture 3 to 5 minutes stories to be shared through digital media platforms and health clinics.

Mobile technology

  • Digital African Health Library (Sub-Saharan Africa).  The University of Calgary-led project is creating an app to support bedside care by medical doctors in Africa: a smartphone-accessible resource providing evidence-based, locally-relevant decision support and health information.  A pilot involving 65 doctors in Rwanda showed point of care answers to patient questions more than tripled to 43%, with self-reported improvement in patient outcomes.

Health care

  • Simple sticker helps track clean surfaces in healthcare facilities (Philippines).  WHO estimates that 10% to 30% of all patients in developing country health care facilities acquire an infection.   An innovative sticker for hospital surfaces developed by Lunanos Inc. changes colour when a cleaner is applied and fades color after a predetermined period of time, helping staff track and ensure cleanliness of equipment and other frequently touched surfaces.
  • “Mystery clients” to assess and improve quality of TB care (India).  India accounts for 25% of global tuberculosis (TB) incidence.  To evaluate variations in practice quality, and identify ways to improve TB management in India, this project, led by Canada’s McGill University, will send researchers into clinics posing as a patient with standard TB symptoms.  The project builds on earlier work related to angina, asthma and dysentery, which revealed incorrect diagnoses and treatment.

And many more.

A complete set of 83 short project descriptions, with links to additional project details, available photos / video, and local contact information, is available in the full news release online here: http://bit.ly/HOLt5b

Here’s a video for the one of the projects (filtering arsenic out of Bangladesh’s water),

I chose this project somewhat haphazardly. It caught my attention as I have written more than once about purification efforts and as it turns out, this is a Canada-based project (with a Bangladeshi partner, BRAC) from the University of Toronto.

You may have heard the video’s narrator mention scotch whiskey, here’s why (from the YouTube page hosting the project video,page),

We plan to roll out a new generation of filtration units which run on an organic by-product of the beverage industry. The units address many of the failings of existing devices (they require no power or chemicals and are very low maintenance).

This project gets still more interesting (from the full project description page),

Device for the Remediation and Attenuation of Multiple Pollutants (DRAM) removes 95% of arsenic from contaminated water within 5 minutes of exposure. With an estimated 600,000 deaths directly attributable to arsenic poisoning every year, these units hold the potential to save millions of lives. Existing solutions are too complicated and suffer from significant usability issues (2012 UNICEF study).

We will deploy our units through a franchise business model. [emphasis mine] Local villagers will filter and deliver purified water, perform maintenance, acquire new media, and dispose spent media. The current market leader, the Sono Filter, has less than 20% uptake (according to UNICEF). DRAM costs only 25% of this solution, has lower maintenance requirements (4-6 month media cycle vs. 2 week media cycle), higher durability, and can be retrofitted onto existing tube wells villagers use thereby requiring no behavior change. The spent media (which must be replaced every 4-6 months) can be used to produce biofuels, giving PurifAid a decisive capability over competitors.

With the assistance of our local partner BRAC (ranked #1 on Global Journal’s list of top NGOs in 2012) we will retrofit our units onto existing tubewells. Contaminated water is pumped from the tubewell into the unit where it passes into the bottom of the unit, rising up through a bed of the organic filter media, binding the arsenic. Clean water is displaced and forced out of the top of the unit and out through the built-in tap. Our community based solution will begin with a proof-of-concept installation in the Mujibnagar District (pop. 1.3 million). BRAC will assist in testing our filter water quality on the ground and these results will be used to obtain regulatory approval for our technology. We will then operationalize our community-run DRAM systems. A council of local stakeholders will nominate prospective franchisees amongst villagers. These villagers will replace filter media in 4 month intervals and order annual delivery of new media. We are securing partnerships with nearby distilleries to locally source the filter media. [emphasis mine] Disposal will be handled by a local caretaker who will store spent media in bulk before transferring it for use as biofuel. Caretaker salary, media sourcing, and delivery costs will be paid by charging a levy on customer households. PurifAid will monitor behavioural and health indicators to ascertain DRAM’s immediate and long-term impact. To this end PurifAid has partnered with Ashalytics, a start-up global health analytics company, to report operational issues, measure impact, and communicate important metrics to key staff and stakeholders via mobile phones. This results in an environmentally-friendly value chain that uses beverage industry waste, maximizing positive impact. If the Bangladesh installations are a success then this system can be introduced across the Indian subcontinent and in west Africa, where arsenic in groundwater poses a serious health problem. DRAM has the potential to improve the lives of millions globally.

After 18 months we envisage having installed 15 DRAM systems supplying 45 liters of purified water per day to 2,700 households. In order to ensure maintenance, 15 paid caretakers will operate the pumps and a driver will supply the caretakers with fresh media every 4-6 months. Biannually, new bulk media will be provided to storage unit in the village, spent media will in turn be taken to a plant and converted to biofuel. Villagers will invest collectively to purchase, install and operate DRAM on pre-existing tube wells – thus no behavioral changes needed.

Our filters employ a new water filtration technology. Our franchise model involves social and business innovation, empowering communities to manage their own water treatment under the stewardship of a local partner that manages 17 social businesses with combined annual revenues of $93m in 2011.

(Aside: Don’t they ask for a ‘dram’ of whiskey in the movies?) This project is intended to do more than purify water; it’s designed to create jobs. Bravo!

Now back to the news release for details about the countries and agencies involved,

The global portfolio of grants, broken down by region and country:

30 projects based in 6 African countries (16 in Kenya, 5 in Tanzania, 5 in Uganda, 2 in Nigeria and 1 each in Senegal and Ghana)
17 projects based in 7 countries in Asia (7 in India, 2 in Pakistan 4 in Thailand and 1 each in Bangladesh, Cambodia, Mongolia and the Philippines)
Two projects based in South America (Peru) and one in Europe (Armenia)
33 projects based in 11 Canadian cities (14 in Toronto, 3 each in Calgary, Montreal and Vancouver, 2 each in Winnipeg, Edmonton and London, and 1 each in Halifax, Hamilton, Ottawa and Saskatoon)

The Canadian-based projects will be implemented worldwide (a majority of them implemented simultaneously in more than one country):

15 countries in Africa (5 in Kenya, 4 in Tanzania, 3 each in Uganda and Ethiopia, 2 each in Rwanda, Somalia, South Africa, South Sudan, and Zambia, and 1 each in Benin, Botswana, Ghana,  Malawi, Nigeria, and DR Congo)
8 countries in Asia (8 in India, 6 in Bangladesh, 1 each in Bhutan, China, Nepal, Pakistan, Philippines and Thailand)
5 countries in South and Latin America (Belize, Brazil, Colombia, Jamaica, Peru.) and
1 in the Middle East (Egypt)

Including today’s grants, total investments to date under the Grand Challenges Canada “Stars in Global Health” program is $32 million in 295 projects.

For full details: http://bit.ly/HOLt5b

* * * * *

About Grand Challenges Canada

Grand Challenges Canada is dedicated to supporting Bold Ideas with Big Impact in global

health. We are funded by the Government of Canada through the Development Innovation Fund announced in the 2008 Federal Budget. We fund innovators in low- and middle-income countries and Canada. Grand Challenges Canada works with the International Development Research Centre (IDRC), the Canadian Institutes of Health Research (CIHR), and other global health foundations and organizations to find sustainable, long-term solutions through Integrated Innovation − bold ideas that integrate science, technology, social and business innovation. Grand Challenges Canada is hosted at the Sandra Rotman Centre.

Please visit grandchallenges.ca  and look for us on Facebook, Twitter, YouTube and LinkedIn.

About Canada’s International Development Research Centre

The International Development Research Centre (IDRC) supports research in developing countries to promote growth and development. IDRC also encourages sharing this knowledge with policymakers, other researchers and communities around the world. The result is innovative, lasting local solutions that aim to bring choice and change to those who need it most. As the Government of Canada’s lead on the Development Innovation Fund, IDRC draws on decades of experience managing publicly funded research projects to administer the Development Innovation Fund. IDRC also ensures that developing country researchers and concerns are front and centre in this exciting new initiative.

www.idrc.ca

About Canadian Institutes of Health Research

The Canadian Institutes of Health Research (CIHR) is the Government of Canada’s health research investment agency. CIHR’s mission is to create new scientific knowledge and to enable its translation into improved health, more effective health services and products, and a strengthened Canadian health care system. Composed of 13 Institutes, CIHR provides leadership and support to more than 14,100 health researchers and trainees across Canada. CIHR will be responsible for the administration of international peer review, according to international standards of excellence. The results of CIHR-led peer reviews will guide the awarding of grants by Grand Challenges Canada from the Development Innovation Fund.

www.cihr-irsc.gc.ca

About the Department of Foreign Affairs, Trade and Development Canada

The mandate of Foreign Affairs, Trade and Development Canada is to manage Canada’s diplomatic and consular relations, to encourage the country’s international trade, and to lead Canada’s international development and humanitarian assistance.

www.international.gc.ca

About Sandra Rotman Centre

The Sandra Rotman Centre is based at University Health Network and the University of Toronto. We develop innovative global health solutions and help bring them to scale where they are most urgently needed. The Sandra Rotman Centre hosts Grand Challenges Canada.

www.srcglobal.org

I have found it confusing that there’s a Grand Challenges Canada and the Bill and Melinda Gates Foundation has a Grand Challenges programme, both of which making funding announcements at this time of year. I did make some further investigations which I noted in my Dec. 22, 2011 posting,

Last week, the Bill & Melinda Gates Foundation announced a $21.1 M grant over three years for research into point-of-care diagnostic tools for developing nations. A Canadian nongovermental organization (NGO) will be supplementing this amount with $10.8 M for a total of $31.9 M. (source: Dec. 16, 2011 AFP news item [Agence France-Presse] on MedicalXpress.com)

At this point, things get a little confusing. The Bill & Melinda Gates Foundation has a specific program called Grand Challenges in Global Health and this grant is part of that program. Plus, the Canadian NGO is called Grand Challenges Canada (couldn’t they have found a more distinctive name?), which is funded by a federal Canadian government initiative known as the Development Innovation Fund (DIF). …

Weirdly, no one consulted with me when they named the Bil & Melinda Gates Foundation programme or the Canadian NGO.