Discovery of Malaria

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QUESTION

How was malaria discovered?

ANSWER

Malaria has long been known to human populations from across the world. In fact, the first mention of the symptoms of malaria comes from an ancient Chinese manuscript from 2700 BCE! However, the actual cause and mechanism of transmission of the disease was only discovered in the 19th century.

It was Charles Louis Alphonse Laveran, a French physician working in Algeria, who first observed the parasites that cause malaria in 1880, by looking at the blood of a patient that had recently died of malaria. However, at this point, it still wasn’t understood how malaria was transmitted. That was not discovered until 1897, when Ronald Ross, a British physician dedicated to curing malaria, observed malaria parasites in a mosquito that had been experimentally fed the blood of a patient infected with malaria. Working in India, Ross also later showed that mosquitoes could also transmit malaria to birds, if they had previously fed on the blood of birds which had malaria. In this way, he showed that mosquitoes of the genus Anopheles are responsible for transmitting malaria between hosts.

Is Malaria Contagious?

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QUESTION

Is malaria contagious?

ANSWER

Malaria cannot be transmitted directly between people via normal circumstances, so it is not contagious in the same way flu or the common cold is contagious. It also cannot be sexually transmitted.

In most cases, malaria can only be transmitted via the bite of an infected mosquito, so unless those mosquitoes are present, it cannot be transmitted. Because infectious stages of the parasite are present in the blood, in some cases malaria can be transmitted via blood transfusion (if the blood is not properly treated or screened), via organ transfer, or from a mother to her foetus, either via the placenta or during childbirth (this is called “congenital malaria”). However, compared to the amount of transmission which occurs via mosquito, these cases are relatively rare, and the vast majority of the time, malaria is not directly transmitted between people.

Sterilizing Mosquitoes to Fight Malaria

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QUESTION

Is it possible to breed mosquitoes in the laboratory and then sterilize them and release them into the environment in order to reduce their rate of reproducing.

ANSWER

That is a very good question, and indeed efforts to genetically modify mosquitoes in order to control the various diseases they transmit are underway in many laboratories across the world.

For almost 15 years, scientists have had the ability to modify mosquitoes so that they are sterile. The aim, as you rightly describe, is then to release these sterile mosquitoes into the wild in order to reduce numbers. If the gene that causes sterility can be passed to future offspring, without any reduction in survival of the insect, then the eventual result will be a total population extinction.

To date, many of the major mosquito disease vector species have been successfully genetically modified, though there are many fewer instances of field testing of these modified insects. For example, in 2000/2001, a World Health Organisation-led project in India created sterile mosquitoes of one species of each of the three main disease vector genera: Culex, Aedes and Anopheles, the latter of which acts as vectors for malaria. However, the project did not, in the end, release any of the modified Anopheles vectors into the wild.

While many scientists applaud the benefits of this approach (such as being very species-specific and being more environmentally friendly than spraying), there are also causes for caution. For example, there are concerns that the loss of mosquitoes in the food chain will have a negative impact on animals that rely on them for food. Similarly, if mosquitoes vanish from an ecosystem, their “niche” may be filled by another organism that is equally or even more dangerous and destructive, such as a crop pest or another disease vector. There is also a worry that changing mosquitoes may have unexpected and dangerous effects on the disease itself, for example forcing it to evolve into a more severe disease or changing its epidemiological patterns in ways we cannot predict in advance.

Finally, not all scientists are convinced that the approach will work in the first place—the sterile mosquitoes will have to survive equally well or better than normal mosquitoes in order to establish in the population, and must be equally or more successful at reproducing. As such, while a lot of money is being poured into GM mosquitoes, it is still the center of vigorous debate.

Perhaps the best indication of this controversy came last year, when Oxitec, a British company, released sterile Aedes aegypti mosquitoes on the Cayman Islands. These mosquitoes are the vectors of dengue fever, and so all eyes are on this study to see whether indeed sterile mosquitoes can survive in a population, and if they do, what other effects they will have longer term on the population size of mosquitoes and the rest of the ecosystem. You can read more information about that here: Oxitec: GM Mosquito Factory.

Malaria and Ross River Fever

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QUESTION

Is malaria similar to Ross river Fever which is common in Australia? If you have Ross River and get bitten by a mosquito can the mosquito pass it on to some one else.

ANSWER

Ross River fever is similar to malaria in that both are transmitted by mosquitoes. However, Ross River fever is caused by a virus, whereas malaria is caused by a protozoan (single-celled) parasite. Also, the type of mosquitoes they use are different. Malaria can only be transmitted by mosquitoes of the genus Anopheles, whereas the Ross River fever virus is usually transmitted by Aedes or Culex mosquitoes.

Another difference is that Ross River virus also infects lots of other mammals, with kangaroos and wallabies key reservoir species in the wild, whereas the species of malaria which infect humans are more or less limited to us (though there have been cases of human malaria infecting closely related animals, such as gorillas and chimpanzees).

As for your other question, as far as I know there is no reason why a mosquito infected with Ross River virus couldn’t bite multiple humans or other mammals, and thus transmit the disease to several new hosts.

What is malaria, and what causes it?

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QUESTION

What is malaria and what causes it?

ANSWER

Malaria is caused by a parasite called Plasmodium, which is transmitted via the bites of infected mosquitoes. In the human body, the parasites multiply in the liver, and then infect red blood cells. Usually, people get malaria by being bitten by an infective female Anopheles mosquito. Only Anopheles mosquitoes can transmit malaria and they must have been infected through a previous blood meal taken on an infected person. When a mosquito bites an infected person, a small amount of blood is taken in which contains microscopic malaria parasites. About 1 week later, when the mosquito takes its next blood meal, these parasites mix with the mosquito’s saliva and are injected into the person being bitten.

Because the malaria parasite is found in red blood cells of an infected person, malaria can also be transmitted through blood transfusion, organ transplant, or the shared use of needles or syringes contaminated with blood. Malaria may also be transmitted from a mother to her unborn infant before or during delivery (“congenital” malaria).

US Army Doctor William Crawford Gorgas: Sent to Panama to fight Malaria

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QUESTION

What was the doctor’s name who was sent to Panama to fight Malaria when Panama Canal was being built?

ANSWER

I believe the person you are referring to is Dr. William Crawford Gorgas. Dr Gorgas was the chief sanitary officer for the Panama Canal project and had gained experience in controlling vector borne diseases while working in Havana, Cuba, where yellow fever was a problem.

It had also been shown a few years earlier, in 1898, that mosquitoes carried malaria as well. In Panama, Dr Gorgas focused his efforts on controlling mosquitoes, through drainage of standing water, adding larvicide and oil to remaining water and hand-collection of adult mosquitoes. In addition, Dr Gorgas screened all government buildings and workers’ quarters to prevent mosquitoes from entering, and gave workers prophylactic quinine. He was assisted in these endeavours by Dr Joseph Augustin LePrince and Dr Samuel Taylor Darling; together, their efforts led to the elimination of yellow fever from the canal zone and a great decrease in the number of malaria cases, though malaria continued to be a problem throughout the construction of the Panama Canal.

Evolution of Malaria

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QUESTION

how did malaria evolve?

ANSWER

Malaria in humans probably evolved independently several times, and both times likely due to a cross-over event from a closely related primate malaria. For example, Plasmodium vivax is evolutionarily closely related to several species of malaria found in macaque monkeys in south-east Asia, and so a cross-over of one of those species into human, with subsequent adaptation and speciation, is one hypothesis as to the origin of P. vivax. Conversely, some people argue that P. vivax emerged in Africa, due to the high prevalence of certain genetic traits in African populations (such as the Duffy negative antigen), which protect against P. vivax.

In contrast, P. falciparum is agreed to have emerged in sub-Saharan Africa, and likely in the Congo basin, though the exact source of its origin has been under recent scientific dispute. Until 2010, it was thought that P. falciparum had crossed over to humans from chimpanzees, as chimps are known to be infected with P. reichenowi, a species very closely related to P. falciparum. However, a paper was published in 2010 which had sampled Plasmodium parasites of gorillas and revealed new species of Plasmodium which are even more closely related to P. falciparum, suggesting that the cross-over occurred from gorillas to humans.

As you can see, humans are not the only primates to get malaria; many species of monkey and ape are also susceptible to Plasmodium species, and even lemurs have their own suite of Plasmodium parasites. Among the mammals, rodents also can get malaria, and bats are infected with Hepatocystis, a malaria-like parasite which also infects hippos, primates and rodents. However, no other species of mammal appears to be susceptible to Plasmodium/Hepatocystis, and the reasons for this are not entirely clear.

Plasmodium probably crossed over to mammals from birds or lizards, both of which are infected with a vast number of species of Plasmodium. It is unclear in which of these groups Plasmodium first emerged, though it likely evolved originally from another type of blood-borne parasite called Leucocytozoon, which infects birds and uses blackflies (genus Simulium) as vectors.

A sister group to Plasmodium, called Haemoproteus, also evolved from Leucocytozoon but utilises a variety of different vectors, including mosquitoes, biting midges (Culicoides), louse flies (Hippoboscidae) and tabanids (Tabanidae). Plasmodium, by contrast, exclusively uses mosquitoes as its vectors (apart from one species of lizard Plasmodium, P. mexicanum, which uses sandflies), but while mammalian Plasmodium is only transmitted by Anopheles mosquitoes, bird and lizard Plasmodium can be transmitted by Culex, Aedes, Culiseta, Anopheles, Mansonia and Psorophora. As such, understanding the patterns of vector and host switches within Plasmodium and related taxa can actually provide interesting insights into the genus’ evolutionary history.

How does one catch malaria?

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QUESTION

How do you get malaria?

ANSWER

Malaria is caused by a parasite called Plasmodium, which is transmitted via the bites of infected mosquitoes. In the human body, the parasites multiply in the liver, and then infect red blood cells. Usually, people get malaria by being bitten by an infective female Anopheles mosquito. Only Anopheles mosquitoes can transmit malaria and they must have been infected through a previous blood meal taken on an infected person. When a mosquito bites an infected person, a small amount of blood is taken in which contains microscopic malaria parasites. About 1 week later, when the mosquito takes its next blood meal, these parasites mix with the mosquito’s saliva and are injected into the person being bitten.

Because the malaria parasite is found in red blood cells of an infected person, malaria can also be transmitted through blood transfusion, organ transplant, or the shared use of needles or syringes contaminated with blood. Malaria may also be transmitted from a mother to her unborn infant before or during delivery (“congenital” malaria).

What are the causes of malaria?

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QUESTION

What are the causes of malaria?

ANSWER

Malaria is caused by a parasite called Plasmodium, which is transmitted via the bites of infected mosquitoes. In the human body, the parasites multiply in the liver, and then infect red blood cells. Usually, people get malaria by being bitten by an infective female Anopheles mosquito. Only Anopheles mosquitoes can transmit malaria and they must have been infected through a previous blood meal taken on an infected person. When a mosquito bites an infected person, a small amount of blood is taken in which contains microscopic malaria parasites. About 1 week later, when the mosquito takes its next blood meal, these parasites mix with the mosquito’s saliva and are injected into the person being bitten.

Because the malaria parasite is found in red blood cells of an infected person, malaria can also be transmitted through blood transfusion, organ transplant, or the shared use of needles or syringes contaminated with blood. Malaria may also be transmitted from a mother to her unborn infant before or during delivery (“congenital” malaria).

There are five kinds of malaria known to infect humans: Plasmodium falciparum, P. vivax, P. ovale, P. malariae and P. knowlesi.

Malaria Infection

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QUESTION

How can you get infected with malaria?

ANSWER

Malaria is transmitted directly via the bite of an infected mosquito. Only certain female mosquitoes, of the genus Anopheles, can carry malaria. The mosquito picks up the malaria parasite (there are five different types of malaria that infect humans, though all are transmitted in exactly the same way) when it feeds on the blood of an infected person. The parasite then undergoes a cycle of reproduction in the mosquito, before new parasites migrate once again to the mosquitoes salivary glands. From here, they are able to escape into the blood of a new human host when the mosquito takes another blood meal by biting the person.

Since malaria is transmitted by blood, there have been a some reports of malaria transmission via organ donor or blood transfusion, though most countries now screen for malaria before using donated blood or organs. Additionally, if a pregnant woman gets malaria, the parasite can be passed to her baby either across the placenta or during delivery; this is called “congenital malaria”, and can be quite harmful to the baby. As such, and also because pregnant women themselves are especially vulnerable to malaria, many campaigns have dedicated themselves to providing pregnant women with long-lasting insecticide treated bednets and other measures to prevent and treat malaria.