Difference between revisions of "Timeline of malaria in 2014"

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| September 9 || || "Scientists Invent Inexpensive, Quick And Accurate Malaria Test"<ref>{{cite web|last1=Pandey|first1=Avaneesh|title=Scientists Invent Inexpensive, Quick And Accurate Malaria Test|url=http://www.ibtimes.com/scientists-invent-inexpensive-quick-accurate-malaria-test-1674922|accessdate=4 July 2017}}</ref> ||
 
| September 9 || || "Scientists Invent Inexpensive, Quick And Accurate Malaria Test"<ref>{{cite web|last1=Pandey|first1=Avaneesh|title=Scientists Invent Inexpensive, Quick And Accurate Malaria Test|url=http://www.ibtimes.com/scientists-invent-inexpensive-quick-accurate-malaria-test-1674922|accessdate=4 July 2017}}</ref> ||
 
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| September 10 || || Researchers at the {{University of California, San Francisco}} develop an online platform that health workers around the world could use to predict where malaria is likely to be transmitted using data on {{w|Google Earth Engine}}.<ref>{{cite web|title=UCSF, Google Earth Engine Making Maps to Predict Malaria|url=https://www.ucsf.edu/news/2014/09/116906/ucsf-google-earth-engine-making-maps-predict-malaria|website=ucsf.edu|accessdate=5 July 2017}}</ref> || {{w|United States}}
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| September 10 || || Researchers at the {{w|University of California, San Francisco}} develop an online platform that health workers around the world could use to predict where malaria is likely to be transmitted using data on {{w|Google Earth Engine}}.<ref>{{cite web|title=UCSF, Google Earth Engine Making Maps to Predict Malaria|url=https://www.ucsf.edu/news/2014/09/116906/ucsf-google-earth-engine-making-maps-predict-malaria|website=ucsf.edu|accessdate=5 July 2017}}</ref> || {{w|United States}}
 
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| October 22 || || "Researchers on the island of Borneo are using flying robots to map out areas affected by a type of malaria parasite (Plasmodium knowlesi), which most commonly infects macaque monkeys." "Drakeley and his colleagues used a small, camera-carrying drone called a senseFly eBee to create maps and digital surface models of the land and vegetation surrounding communities where P. knowlesi has turned up in humans. The drone can fly for up to 50 minutes and carries a 16-megapixel digital camera."<ref>{{cite web|title=How Drones Are Fighting Infectious Disease|url=https://www.livescience.com/48396-drones-track-infectious-disease.html|website=livescience.com|accessdate=5 July 2017}}</ref> || Malaysia
 
| October 22 || || "Researchers on the island of Borneo are using flying robots to map out areas affected by a type of malaria parasite (Plasmodium knowlesi), which most commonly infects macaque monkeys." "Drakeley and his colleagues used a small, camera-carrying drone called a senseFly eBee to create maps and digital surface models of the land and vegetation surrounding communities where P. knowlesi has turned up in humans. The drone can fly for up to 50 minutes and carries a 16-megapixel digital camera."<ref>{{cite web|title=How Drones Are Fighting Infectious Disease|url=https://www.livescience.com/48396-drones-track-infectious-disease.html|website=livescience.com|accessdate=5 July 2017}}</ref> || Malaysia

Revision as of 08:20, 5 August 2017

This is a timeline of malaria in 2014.

Development summary

  • Parasites:
  • Vectors:
  • Drugs, vaccines, treatment, and control methods:
  • Eradication and control progress: About 269 million of the 834 million people at risk of malaria lived in households without a single Insecticide treated net or Indoor residual spraying. Also, 15 million of the 28 million pregnant women at risk did not receive a single dose of IPTp.[1]
  • Vector control:

Key figures

Global cases 214 million[2]
Global deaths 438,000[2]
Rapid diagnostic tests (RDT) sold 314 million (up from 80 million in 2008)[3]
Global financing for malaria control 2.5 billion[1]
Spending on research and development for malaria US$ 611 million (up from US$ 607 million in 2010)[4]

Full timeline

Date (news release) Event type Details
January 14 Engineering (drug) Biologists at University of California, Berkeley develop new ways to genetically modify yeast to produce antimalarial artemisinin, with the purpose of getting the lowest possible price (in China, where most of the crop is grown, the price swung from 200$ to 1,100$ per kilogram).[5] United States
January 14 Engineering (vaccine) Researchers at Tulane University manage to use Escherichia coli bacteria to inexpensively manufacture protein CHrPfs25, which is critical to the development of a malaria vaccine.[6] United States
January 16 Engineering (testing) United Kingdom biotech firm develops a handheld device able to detect infectious diseases such as malaria in just 15 minutes. The device is expected to be used by professionals in rural areas of developing nations to test more efficiently.[7] United Kingdom
February 10 Medical development (vaccine) iBio Inc., a manufacturer of biological products, reports the initiation of a Phase 1 human safety and immunogenicity clinical study of a transmission-blocking malaria vaccine candidate. Clearance was obtained from the FDA[8][9] United States
February 23 Scientific discovery (parasite) Two research teams working independently discover that a single protein (AP2-G) acts as the master genetic switch that triggers the development of male and female sexual forms of the malaria parasite.[10] United States, United Kingdom
March 10 Scientific discovery (vector) Researchers at the London School of Hygiene and Tropical Medicine and the University of Michigan, find that many areas and land masses are experiencing a gradual but noticeable warming, prompting the risk of causing malaria's domain to expand.[11] United Kingdom, United States
March 13 Testing Stanford University professor develops US$50 cents, foldscope paper microscope that can diagnose malaria.[12] United States
April 17 Vaccine Indian scientists report having obtained promising vaccine candidate against malaria, showing 80 to 85% efficacy in mice.[13] India
April 24 Discovery (resistance) International team manages to identify a genetic marker of artemisinin resistance, after having first created a Plasmodium strain in the laboratory that resists high levels of artemisinin and comparing its DNA with the non–resistant parent strain.[14][15]
April 25 Campaign School children and volunteers from Mangalore, India, launch the Guppy movement campaign, a movement with aims at controlling malaria by using guppy fish to eliminate mosquito larvae.[16][17][18] India
May 22 Vaccine Researchers from Brown University, Rhode Island Hospital and the National Institutes of Health discover protective antibodies in protein PfSEA-1 that is essential for malaria–causing parasites to escape from inside red blood cells. These antibodies, which were found in malaria–resistant children from Tanzania are tested in mice, leading to a significant protection against malaria.[19] [20][21][22][23] United States
June 10 Research team at Imperial College London manages to genetically modify Anopheles gambiae mosquitoes so that the modified mosquitoes produce 95% male offspring. More importantly, this reproductive tendency is found to be inherited by the offspring of the modified mosquitoes.[24][25][26] United Kingdom
June 13 Researchers from Imperial College London, Institut Pasteur Paris and other organizations call for new methods to evaluate malaria programs.[27]
June 30 Discovery (vector) Researchers from Pennsylvania State University and the Swiss Federal Institute of Technology find that malaria Plasmodium parasite in mice alters their body odor to entice mosquitoes.[28][29] United States
July 9 Discovery (parasite) Researchers at Harvard School of Public Health in Boston claims having evidence that malaria parasite lurks in the bone marrow, flexible tissue in the interior of bones where blood cells are produced.[30][31] United States
July 21 Discovery (drug) Scientists at University College London discover cheap anti-malarial drug could prevent liver cancer.[32][33] United Kingdom
July 17 Scientists from the Burnet Institute, Deakin University and Monash University in Australia manage to starve the malaria parasite Plasmodium of important proteins essential to its survival, providing a target for the development of new antimalarial drugs.[34][35] Australia
July 21 Technology (testing) Researchers at Monash University and the University of Melbourne in Australia make use of advanced military hardware meant for missile defense and turn it into a way to rapidly identify malaria parasites in humans.[36][37] Australia
July 29 After conducting advanced trial in several African countries involving 15,000 infants and children, British pharmaceutical company GlaxoSmithKline asks the European Medicine's Authority to approve RTS,S vaccine for global use.[38]
August 10 Biological engineers at the Massachusets Institute of Technology demonstrate that CRISPR genome-editing technique can disrupt a single parasite gene with a success rate of up to 100% — in a matter of weeks. This approach could enable much more rapid malaria gene analysis and boost drug-development efforts.[39] United States
August 24 Technology (testing) Scientific paper describes method based on computer vision algorithms similar to those used in facial recognition systems combined with visualization of only the diagnostically most relevant areas as a means for obtaining a significantly improved malaria diagnostic. [40]
September 3 " UConn Researcher’s Nanoparticle Key to New Malaria Vaccine."[41]
September 9 "Scientists Invent Inexpensive, Quick And Accurate Malaria Test"[42]
September 10 Researchers at the University of California, San Francisco develop an online platform that health workers around the world could use to predict where malaria is likely to be transmitted using data on Google Earth Engine.[43] United States
October 22 "Researchers on the island of Borneo are using flying robots to map out areas affected by a type of malaria parasite (Plasmodium knowlesi), which most commonly infects macaque monkeys." "Drakeley and his colleagues used a small, camera-carrying drone called a senseFly eBee to create maps and digital surface models of the land and vegetation surrounding communities where P. knowlesi has turned up in humans. The drone can fly for up to 50 minutes and carries a 16-megapixel digital camera."[44] Malaysia
October 27 "a group of scientists from Johns Hopkins University may have found a novel way of curbing both diseases: by “vaccinating” mosquitos against the parasite that causes malaria and the virus that causes dengue. The researchers are using the bacteria Chromobacterium, which prevents the pathogens from effectively invading and colonizing mosquito guts.a group of scientists from Johns Hopkins University may have found a novel way of curbing both diseases: by “vaccinating” mosquitos against the parasite that causes malaria and the virus that causes dengue. The researchers are using the bacteria Chromobacterium, which prevents the pathogens from effectively invading and colonizing mosquito guts."[45] United States
November 3 Microsoft magnate Bill Gates announces his foundation will give away $500 million during 2014 to combat diseases like malaria on top of the $50 million it already committed to fighting Ebola.[46] United States
November 6 "A form of malaria found in wild monkeys has begun to infect people so often in parts of Southeast Asia that it has become the leading cause of malaria in Malaysia." "Parasite’s jump from monkeys to people seems aided by deforestation"[47][48] Malaysia
December 4 "Blood pressure build-up from white blood cells may cause cerebral malaria death"[49]
December 9 "Researchers at the University of Basel and the Swiss Tropical and Public Health Institute have now developed so-called nanomimics of host cell membranes that trick the parasites. This could lead to novel treatment and vaccination strategies in the fight against malaria and other infectious diseases."[50][51] Switzerland
December 9 Report The World Health Organisation publishes its annual World Malaria Report, communicating a decrease in worldwide malaria mortality by 47% Between 2000-13. The rate of decrease in Africa –where 90% of malaria occurs– is reported at 54%.[52]
December 11 "Latest research by NTU discovers reasons for malaria's drug resistance."[53] Singapore
December 19 "Google.org helping fund mobile phone project to combat malaria" "On Friday, Google.org, the search giant's philanthropic arm, announced that it's giving Malaria No More a $600,000 grant to embark on a potentially transformative data mining project in Nigeria. The grant is part of a pot of $15 million that Google.org is doling out to organizations that use technology to solve the world's biggest problems." "Africa, where malaria kills around 400,000 children every year, is set to top 1 billion mobile phone subscriptions by next year. That means that public health researchers will have one billion ways to communicate with—and collect data from—the people who are most at risk of catching malaria, a disease that has traditionally been extremely difficult to track."[54][55]

See also

References

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  2. 2.0 2.1 "Malaria: Mosquitoes breed disaster in Burundi". worldvision.org. Retrieved 21 July 2017. 
  3. "Fact Sheet: World Malaria Report 2015". who.int. Retrieved 21 July 2017. 
  4. "WORLD MALARIA REPORT" (PDF). who.int. Retrieved 13 July 2017. 
  5. "Biologists Modify Yeast to Produce Malaria Drug". discovermagazine.com. Retrieved 5 July 2017. 
  6. Brannon-Tulane, Keith. "E. coli may offer cheap way to create a malaria vaccine". futurity.org. Retrieved 5 July 2017. 
  7. Stunt, Victoria. "Handheld DNA analysis device could diagnose malaria". cbc.ca. Retrieved 5 July 2017. 
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  29. Elyse Messer, Andrea. "Malaria parasite manipulates host's scent". psu.edu. Retrieved 1 August 2017. 
  30. Berman, Jessica. "Researchers Confirm Presence of Malaria Parasite in Bone Marrow". voanews.com. Retrieved 5 July 2017. 
  31. "Malaria parasite can hide in bone marrow". harvard.edu. Retrieved 1 August 2017. 
  32. Knapton, Sarah. "Malaria drug could prevent liver cancer". telegraph.co.uk. Retrieved 5 July 2017. 
  33. "Malaria pill could prevent liver cancer". oncologynurseadvisor.com. Retrieved 1 August 2017. 
  34. "Breakthrough made in quest for new malaria drugs as resistance fears grow". theguardian.com. Retrieved 4 July 2017. 
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  36. Kulze, Elizabeth. "How Anti-Missile Technology Is Being Used to Detect Malaria". vocativ.com. Retrieved 5 July 2017. 
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  42. Pandey, Avaneesh. "Scientists Invent Inexpensive, Quick And Accurate Malaria Test". Retrieved 4 July 2017. 
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