History
Main article: History of malaria
Malaria has infected humans for over 50,000 years, and Plasmodium may have been a human pathogen for the entire history of the species. Close relatives of the human malaria parasites remain common in chimpanzees. Some new evidence suggests that the most virulent strain of human malaria may have originated in gorillas.
References to the unique periodic fevers of malaria are found throughout recorded history, beginning in 2700 BC in China. Malaria may have contributed to the decline of the Roman Empire, and was so pervasive in Rome that it was known as the "Roman fever". The term malaria originates from Medieval Italian: mala aria — "bad air"; the disease was formerly called ague or marsh fever due to its association with swamps and marshland. Malaria was once common in most of Europe and North America,where it is no longerendemic, though imported cases do occur.
Malaria was the most important health hazard encountered by U.S. troops in the South Pacific during World War II, where about 500,000 men were infected.According to Joseph Patrick Byrne, "Sixty thousand American soldiers died of malaria during the African and South Pacific campaigns."
Prevention
An early effort at malaria prevention occurred in 1896, just before the mosquito malaria link was confirmed in India by a British physician,Ronald Ross. An 1896 Uxbridge malaria outbreak prompted health officer, Dr. Leonard White, to write a report to the Massachusetts State Board of Health, which led to study of mosquito-malaria links, and the first efforts for malaria prevention.Massachusetts State pathologistTheobald Smith, asked that White's son collect mosquito specimens for further analysis, and that citizens 1) add screens to windows, and 2) drain collections of water. Carlos Finlay was also engaged in mosquito related research, and mosquito borne disease theory, in the 1880s in Cuba, basing his work on the study of Yellow Fever.
Discovery of the parasite
Scientific studies on malaria made their first significant advance in 1880, when a French army doctor working in the military hospital of Constantine in Algeria named Charles Louis Alphonse Laveran observed parasites for the first time, inside the red blood cells of people suffering from malaria. He, therefore, proposed that malaria is caused by this organism, the first time a protist was identified as causing disease. For this and later discoveries, he was awarded the 1907Nobel Prize for Physiology or Medicine. The malarial parasite was called Plasmodium by the Italian scientists Ettore Marchiafava and Angelo Celli.
Discovery of mosquito transmission
A year later, Carlos Finlay, a Cuban doctor treating patients with yellow fever in Havana, provided strong evidence that mosquitoes were transmitting disease to and from humans. This work followed earlier suggestions by Josiah C. Nott, and work by Patrick Manson on the transmission of filariasis.
It was Britain's Sir Ronald Ross, working in the Presidency General Hospital in Calcutta, who finally proved in 1898 that malaria is transmitted by mosquitoes. He did this by showing that certain mosquito species transmit malaria to birds. He isolated malaria parasites from the salivary glands of mosquitoes that had fed on infected birds. For this work, Ross received the 1902 Nobel Prize in Medicine. After resigning from the Indian Medical Service, Ross worked at the newly established Liverpool School of Tropical Medicine and directed malaria-control efforts inEgypt, Panama, Greece and Mauritius. The findings of Finlay and Ross were later confirmed by a medical board headed by Walter Reed in 1900. Its recommendations were implemented byWilliam C. Gorgas in the health measures undertaken during construction of the Panama Canal. This public-health work saved the lives of thousands of workers and helped develop the methods used in future public-health campaigns against the disease.
The liver stage
Shortt and Garnham discovered the pre-erythrocytic liver stage, first in the primate parasite P. cynomolgi and subsequently the human malarias P. vivax and P. falciparum. Further work confirmed the transformation of sporozoites from mosquitoes into liver forms, essentially completing documentation of the lifecycle.
In vitro culture
The first successful continuous in vitro malaria culture was established in 1976 by William Trager and James B. Jensen, which facilitated research into the molecular biology of the parasite and the development of new drugs.
History of treatment
The first effective treatment for malaria came from the bark of cinchona tree, which contains quinine. This tree grows on the slopes of theAndes, mainly in Peru. The indigenous peoples of Peru made a tincture of cinchona to control malaria. The Jesuits noted the efficacy of the practice and introduced the treatment to Europe during the 1640s, where it was rapidly accepted.It was not until 1820 that the active ingredient, quinine, was extracted from the bark, isolated and named by the French chemists Pierre Joseph Pelletier and Joseph Bienaimé Caventou. In the 20th century, chloroquine replaced quinine as treatment of both uncomplicated and severe falciparum malaria until resistance supervened. Artemisinins, discovered by Chinese scientists in the 1970s, are now recommended treatment for falciparum malaria, administered in combination with other antimalarials as well as in severe disease.
Society and culture
Malaria is not just a disease commonly associated with poverty but also a cause of poverty and a major hindrance to economic development. Tropical regions are affected most, however malaria’s furthest extent reaches into some temperate zones with extreme seasonal changes. The disease has been associated with major negative economic effects on regions where it is widespread. During the late 19th and early 20th centuries, it was a major factor in the slow economic development of the American southern states. A comparison of average per capita GDP in 1995, adjusted for parity of purchasing power, between countries with malaria and countries without malaria gives a fivefold difference ($1,526 USD versus $8,268 USD). In countries where malaria is common, average per capita GDP has risen (between 1965 and 1990) only 0.4% per year, compared to 2.4% per year in other countries.
Poverty is both cause and effect, however, since the poor do not have the financial capacities to prevent or treat the disease. The lowest income group in Malawi carries (1994) the burden of having 32% of their annual income used on this disease compared with the 4% of household incomes from low-to-high groups. In its entirety, the economic impact of malaria has been estimated to cost Africa $12 billion USD every year. The economic impact includes costs of health care, working days lost due to sickness, days lost in education, decreased productivity due to brain damage from cerebral malaria, and loss of investment and tourism. In some countries with a heavy malaria burden, the disease may account for as much as 40% of public health expenditure, 30–50% of inpatient admissions, and up to 50% of outpatient visits.
A study on the effect of malaria on IQ in a sample of Mexicans found that exposure during the birth year to malaria eradication was associated with increases in IQ. It also increased the probability of employment in a skilled occupation. The author suggests that this may be one explanation for the Flynn effect and that this may be an important explanation for the link between national malaria burden and economic development.[131] A literature review of 44 papers states that cognitive abilities and school performance were shown to be impaired in sub-groups of patients (with either cerebral malaria or uncomplicated malaria) when compared with healthy controls. Studies comparing cognitive functions before and after treatment for acute malarial illness continued to show significantly impaired school performance and cognitive abilities even after recovery. Malaria prophylaxis was shown to improve cognitive function and school performance in clinical trials when compared to placebo groups. April 25 is World Malaria Day.
Counterfeit drugs
Sophisticated counterfeits have been found in several Asian countries such as Cambodia China,Indonesia, Laos, Thailand, Vietnamand are an important cause of avoidable death in those countries. WHO have said that studies indicate that up to 40% of artesunatebased malaria medications are counterfeit, especially in the Greater Mekong region and have established a rapid alert system to enable information about counterfeit drugs to be rapidly reported to the relevant authorities in participating countries. There is no reliable way for doctors or lay people to detect counterfeit drugs without help from a laboratory. Companies are attempting to combat the persistence of counterfeit drugs by using new technology to provide security from source to distribution.]
War
Throughout history, the contraction of malaria (via natural outbreaks as well as via infliction of the disease as a biological warfare agent) has played a prominent role in the fortunes of government rulers, nation-states, military personnel, and military actions. "Malaria Site: History of Malaria During Wars" addresses the devastating impact of malaria in numerous well-known conflicts, beginning in June 323 B.C. That site's authors note: "Many great warriors succumbed to malaria after returning from the warfront and advance of armies into continents was prevented by malaria. In many conflicts, more troops were killed by malaria than in combat." The Centers for Disease Control ("CDC") traces the history of malaria and its impacts farther back, to 2700 BCE.
In 1910, Nobel Prize in Medicine-winner Ronald Ross (himself a malaria survivor), published a book titled The Prevention of Malaria that included the chapter: "The Prevention of Malaria in War." The chapter's author, Colonel C. H. Melville, Professor of Hygiene at Royal Army Medical College in London, addressed the prominent role that malaria has historically played during wars and advised: "A specially selected medical officer should be placed in charge of these operations with executive and disciplinary powers [...]."
Significant financial investments have been made to fund procure existing and create new anti-malarial agents. During World War I and World War II, the supplies of the natural anti-malaria drugs, cinchona bark and quinine, proved to be inadequate to supply military personnel and substantial funding was funnelled into research and development of other drugs and vaccines. American military organizations conducting such research initiatives include the Navy Medical Research Center, Walter Reed Army Institute of Research, and the U.S. Army Medical Research Institute of Infectious Diseases of the US Armed Forces.
Additionally, initiatives have been founded such as Malaria Control in War Areas (MCWA), established in 1942, and its successor, the Communicable Disease Center (now known as the Centers for Disease Control) established in 1946. According to the CDC, MCWA "was established to control malaria around military training bases in the southern United States and its territories, where malaria was still problematic" and, during these activities, to "train state and local health department officials in malaria control techniques and strategies." The CDC's Malaria Division continued that mission, successfully reducing malaria in the United States, after which the organization expanded its focus to include "prevention, surveillance, and technical support both domestical
