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Honduras, Costa Rica, Philippines, Pakistan, India, Bangladesh, Mexico, Suriname, Puerto Rico, Jamaica, Bolivia, Brazil, Guyana, Venezuela, Barbados, Trinidad and Samoa. Unlike malaria, dengue is just as prevalent in the urban districts of its range as in rural areas. Each serotype is sufficiently different that there is no crossprotection and epidemics caused by multiple serotypes (hyperendemicity) can occur. Dengue is transmitted to humans by the Aedes aegypti or more rarely the Aedes albopictus mosquito, which feed during the day. The WHO says some 2.5 billion people, two fifths of the world’s population, are now at risk from dengue and estimates that there may be 50 million cases of dengue infection worldwide every year. The disease is now epidemic in more than 100 countries.
Signs and symptoms
A TEM micrograph showing Dengue virus virions (the cluster of dark dots near the center).
Virus classification Group: Family: Genus: Species: Group IV ((+)ssRNA) Flaviviridae Flavivirus Dengue virus
Dengue fever Classification and external resources ICD-10 ICD-9 DiseasesDB MedlinePlus eMedicine MeSH A90. 061 3564 001374 med/528 C02.782.417.214
Dengue fever (pronounced /ˈdɛŋɡeɪ/ (BrE), /ˈdɛŋɡiː/ (AmE)) and dengue hemorrhagic fever (DHF) are acute febrile diseases, found in the tropics, and caused by four closely related virus serotypes of the genus Flavivirus, family Flaviviridae. It is also known as breakbone fever. The geographical spread includes northern Australia and northern Argentina, and the entire Singapore, Malaysia, Taiwan, Thailand, Vietnam, Indonesia,
The disease manifests as a sudden onset of severe headache, muscle and joint pains (myalgias and arthralgias—severe pain that gives it the nick-name break-bone fever or bonecrusher disease), fever, and rash. The dengue rash is characteristically bright red petechiae and usually appears first on the lower limbs and the chest; in some patients, it spreads to cover most of the body. There may also be gastritis with some combination of associated abdominal pain, nausea, vomiting, or diarrhea. Some cases develop much milder symptoms which can be misdiagnosed as influenza or other viral infection when no rash is present. Thus travelers from tropical areas may pass on dengue in their home countries inadvertently, having not been properly diagnosed at the height of their illness. Patients with dengue can pass on the infection only through mosquitoes or blood products and only while they are still febrile. The classic dengue fever lasts about six to seven days, with a smaller peak of fever at the trailing end of the disease (the so-called biphasic pattern). Clinically, the platelet count will drop until the patient’s temperature is normal. Cases of DHF also show higher fever, variable haemorrhagic phenomena, thrombocytopenia, and haemoconcentration. A small proportion of cases lead to dengue shock syndrome (DSS) which has a high mortality rate. DHF combined with a cirrhotic liver has been suspected in rapid development of hepatocellular carcinoma (HCC). Given that the Dengue virus (DEN) is related to the Hepatitis C virus, this is an avenue for further research as HCC is among the top five cancerous causes of death outside Europe and North America. Normally HCC does not occur in a cirrhotic liver for ten or more years
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after the cessation of the poisoning agent. DHF patients can develop HCC within one year of cessation of abuse.
Emerging evidence suggests that mycophenolic acid and ribavirin inhibit dengue replication. Initial experiments showed a fivefold increase in defective viral RNA production by cells treated with each drug. In vivo studies, however, have not yet been done. Unlike HIV therapy, lack of adequate global interest and funding greatly hampers the development of treatment regime. In Brazilian Traditional medicine, dengue is treated with cat’s claw herb, which is for inflammation and does not prevent dengue. In Malaysia, dengue is newly treated using Mas Ayu Amirtha and Semalu developed by the Alternative Medicine Research Institute, Center for Asia. The treatment is said to arrest and reverse the viral infection and prevents the disease from advancing into a critical stage by following their dosage requirement.
The diagnosis of dengue is usually made clinically. The classic picture is high fever with no localising source of infection, a petechial rash with thrombocytopenia and relative leukopenia - low platelet and white blood cell count. Care has to be taken as diagnosis of DHF can mask end stage liver disease and vice versa. 1. Fever, bladder problem, constant headaches, severe dizziness and loss of appetite. 2. Hemorrhagic tendency (positive tourniquet test, spontaneous bruising, bleeding from mucosa, gingiva, injection sites, etc.; vomiting blood, or bloody diarrhea) 3. Thrombocytopenia (<100,000 platelets per mm³ or estimated as less than 3 platelets per high power field) 4. Evidence of plasma leakage (hematocrit more than 20% higher than expected, or drop in haematocrit of 20% or more from baseline following IV fluid, pleural effusion, ascites, hypoproteinemia) 5. Encephalitic occurrences. Dengue shock syndrome is defined as dengue hemorrhagic fever plus: • Weak rapid pulse, • Narrow pulse pressure (less than 20 mm Hg) • Cold, clammy skin and restlessness. Serology and polymerase chain reaction (PCR) studies are available to confirm the diagnosis of dengue if clinically indicated.
Worldwide dengue distribution, 2006. Red: Epidemic dengue. Blue: Aedes aegypti. Dengue is transmitted by Aedes mosquitoes, particularly A. aegypti and A. albopictus. Dengue may also be transmitted via infected blood products (blood transfusions, plasma, and platelets), but the scale of this problem is unknown.
The mainstay of treatment is timely supportive therapy to tackle shock due to haemoconcentration and bleeding. Close monitoring of vital signs in critical period (between day 2 to day 7 of fever) is vital. Increased oral fluid intake is recommended to prevent dehydration. Supplementation with intravenous fluids may be necessary to prevent dehydration and significant concentration of the blood if the patient is unable to maintain oral intake. A platelet transfusion is indicated in rare cases if the platelet level drops significantly (below 20,000) or if there is significant bleeding. The presence of melena may indicate internal gastrointestinal bleeding requiring platelet and/or red blood cell transfusion. Aspirin and non-steroidal anti-inflammatory drugs should be avoided as these drugs may worsen the bleeding tendency associated with some of these infections. Patients may receive paracetamol preparations to deal with these symptoms if dengue is suspected.
Worldwide dengue distribution, 2000.
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The first recognized Dengue epidemics occurred almost simultaneously in Asia, Africa, and North America in the 1780s, shortly after the identification and naming of the disease in 1779. A pandemic began in Southeast Asia in the 1950s, and by 1975 DHF had become a leading cause of death among children in the region. Epidemic dengue has become more common since the 1980s. By the late 1990s, dengue was the most important mosquito-borne disease affecting humans after malaria, with around 40 million cases of dengue fever and several hundred thousand cases of dengue hemorrhagic fever each year. Significant outbreaks of dengue fever tend to occur every five or six months. The cyclical rise and fall in numbers of dengue cases is thought to be the result of seasonal cycles interacting with a short-lived cross-immunity for all four strains in people who have had dengue. When the cross-immunity wears off the population is more susceptible to transmission whenever the next seasonal peak occurs. Thus over time there remain large numbers of susceptible people in affected populations despite previous outbreaks due to the four different serotypes of dengue virus and the presence of unexposed individuals from childbirth or immigration. There is significant evidence, originally suggested by S.B. Halstead in the 1970s, that dengue hemorrhagic fever is more likely to occur in patients who have secondary infections by another one of dengue fever’s four serotypes. One model to explain this process is known as antibody-dependent enhancement (ADE), which allows for increased uptake and virion replication during a secondary infection with a different strain. Through an immunological phenomenon, known as original antigenic sin, the immune system is not able to adequately respond to the stronger infection, and the secondary infection becomes far more serious. This process is also known as superinfection. Reported cases of dengue are an under-representation of all cases when accounting for subclinical cases and cases where the patient did not present for medical treatment. With proper medical treatment the mortality rate for dengue can be brought down to less than 1 in 1000.
there was serious cause for concern, saying that the incidence of cases was in fact declining from a peak at the beginning of February.  By April 3, 2008, the number of cases reported rose to 55,000  In Singapore, there are 4,000–5,000 reported cases of dengue fever or dengue haemorrhagic fever every year. In the year 2003, there were six deaths from dengue shock syndrome. An epidemic broke out in Bolivia in early 2009, in which 18 people have died and 31,000 infected. An outbreak of dengue fever was declared in Cairns, located in the tropical north of Queensland, Australia on 1 December 2008. As at 3 March 2009 there were 503 confirmed cases of dengue fever, in a residential population of 152,137. Outbreaks were subsequently declared the neighbouring cities and towns of Townsville (outbreak declared 5 January 2009), Port Douglas (6 February 2009), Yarrabah (19 February 2009), Injinoo (24 February 2009), Innisfail (27 February 2009) and Rockhampton (10 March 2009). There have been occurrences of dengue types one, two, three and four in the region. March 4 2009, Queensland Health had confirmed an elderly woman had died from dengue fever in Cairns, in the first fatality since the epidemic began last year. The statement said that although the woman had other health problems, she tested positive for dengue and the disease probably contributed to her death. In 2009, in Argentina, a dengue outbreak was declared the northern provinces of Chaco, Catamarca, Salta, Jujuy, and Corrientes, with over 9673 cases reported as of April 11, 2009 by the Health Ministry . Some travelers from the affected zones have spread the fever as far south as Buenos Aires . Major efforts to control the epidemic in Argentina are focused on preventing its vector (the Aedes mosquitoes) from reproducing. This is addressed by asking people to dry out all possible water reservoirs from where mosquitoes could proliferate (which is, in other countries, known as "descacharrado"). There have also been information campaigns concerning prevention of the dengue fever; and the government is fumigating with insecticide in order to control the mosquito population.
Country Specific Epidemics
There was a serious outbreak in Rio de Janeiro in February 2002 affecting around one million people and killing sixteen. On March 20, 2008, the secretary of health of the state of Rio de Janeiro, Sérgio Côrtes, announced that 23,555 cases of dengue, including 30 deaths, had been recorded in the state in less than three months. Côrtes said, "I am treating this as an epidemic because the number of cases is extremely high." Federal Minister of Health, José Gomes Temporão also announced that he was forming a panel to respond to the situation. Cesar Maia, mayor of the city of Rio de Janeiro, denied that
There is no commercially available vaccine for the dengue flavivirus. However, one of the many ongoing vaccine development programs is the Pediatric Dengue Vaccine Initiative which was set up in 2003 with the aim of accelerating the development and introduction of dengue vaccine(s) that are affordable and accessible to poor children in endemic countries. Thai researchers are testing a dengue fever vaccine on 3,000–5,000 human volunteers after having successfully conducted tests on
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animals and a small group of human volunteers. A number of other vaccine candidates are entering phase I or II testing.
areas. The Mesocyclops can survive and breed in large water containers, but would not be able to do so in small containers of which most urban area have within their homes. Also, Mesocyclops are hosts for the guinea worm, a pathogen that causes a parasite infection, and so this method of mosquito control cannot be used in countries that are still susceptible to the guinea worm. The biggest dilemma with Mesocyclops is that its success depends on the participation of the community. This idea of a possible parasite bearing creature in household water containers dissuades people from continuing the process of inoculation, and without the support and work of everyone living in the city, this method would not be successful. In 2004, scientists from the Federal University of Minas Gerais, Brazil, discovered a fast way to find and count mosquito population inside urban areas. The technology, named Intelligent Monitoring of Dengue (in Portuguese), uses traps with kairomones that capture Aedes gravid females, and upload insect counts with a combination of cell phone, GPS and internet technology. The result is a complete map of the mosquitoes in urban areas, updated in real time and accessible remotely, that can inform control methodologies. The technology was recognized with a Tech Museum Award in 2006. In 2009, scientists from the School of Integrative Biology at The University of Queensland revealed that by infecting Aedes mosquitos with the bacterium Wolbachia, the adult lifespan was reduced by half.  In the study, super-fine needles were used to inject 10,000 mosquito embryos with the bacterium. Once an insect was infected, the bacterium would spread via its eggs to the next generation. A pilot release of infected mosquitoes could begin in Vietnam within three years. If no problems are discovered, a full-scale biological attack against the insects could be launched within five years. 
A field technician looking for larvae in standing water containers during the 1965 Aedes aegypti eradication program in Miami, Florida. In the 1960s, a major effort was made to eradicate the principal urban vector mosquito of dengue and yellow fever viruses, Aedes aegypti, from southeast United States. Primary prevention of dengue mainly resides in mosquito control. There are two primary methods: larval control and adult mosquito control. In urban areas, Aedes mosquitos breed on water collections in artificial containers such as plastic cups, used tires, broken bottles, flower pots, etc. Periodic draining or removal of artificial containers is the most effective way of reducing the breeding grounds for mosquitos. Larvicide treatment is another effective way to control the vector larvae but the larvicide chosen should be long-lasting and preferably have World Health Organization clearance for use in drinking water. There are some very effective insect growth regulators (IGRs) available which are both safe and long-lasting (e.g. pyriproxyfen). For reducing the adult mosquito load, fogging with insecticide is somewhat effective. Prevention of mosquito bites is another way of preventing disease. This can be achieved by using insect repellent, mosquito traps or mosquito nets. In 1998, scientists from the Queensland Institute of Medical Research (QIMR) in Australia and Vietnam’s Ministry of Health introduced a scheme that encouraged children to place a water bug, the crustacean Mesocyclops, in water tanks and discarded containers where the Aedes aegypti mosquito was known to thrive. This method is viewed as being more cost-effective and more environmentally friendly than pesticides, though not as effective, and requires the continuing participation of the community. Even though this method of mosquito control was successful in rural provinces, not much is known about how effective it could be if applied to cities and urban
Potential antiviral approaches
Dengue virus belongs to the family Flaviviridae, which includes the hepatitis C virus, West Nile and Yellow fever viruses among others. Possible laboratory-based modification of the yellow fever vaccine YF-17D to target the dengue virus via chimeric replacement has been discussed extensively in scientific literature. To date, however, no full scale studies have been conducted. In 2006, a group of Argentine scientists discovered the molecular replication mechanism of the virus, which could be specifically attacked by disrupting the viral RNA polymerase. In cell culture and murine experiments, morpholino antisense oligos have shown specific activity against Dengue virus. In 2007 scientists’ attenuated virus replication by interfering with activity of the dengue viral protease; subsequently, a project to identify novel protease disruption mechanisms has been launched.
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• Discovering Dengue Drugs – Together, a distributed computing project attempting to identify drug leads with broad spectrum activity against dengue. • Dengue fever in Brazil (slide show, in English and Portuguese)
The origins of the word dengue are not clear, but one theory is that it is derived from the Swahili phrase "Kadinga pepo", which describes the disease as being caused by an evil spirit. The Swahili word "dinga" may possibly have its origin in the Spanish word "dengue" meaning fastidious or careful, which would describe the gait of a person suffering the bone pain of dengue fever. Alternatively, the use of the Spanish word may derive from the similar-sounding Swahili. Also known as "Dandy Fever", slaves in the West Indies who contracted dengue were said to have the posture and gait of a dandy. 
The first recorded potential case of dengue fever comes from a Chinese medical encyclopedia from the Jin Dynasty (265–420 AD). The Chinese referred to a “water poison” associated with flying insects.  The first definitive case report dates from 1789 and is attributed to Benjamin Rush, who coined the term "breakbone fever" because of the symptoms of myalgia and arthralgia. The viral etiology and the transmission by mosquitoes were deciphered only in the 20th century. Population movements during World War II spread the disease globally. A pandemic of dengue began in Southeast Asia after World War II and has spread around the globe since then.
Use as a biological weapon
Dengue fever was one of more than a dozen agents that the United States researched as potential biological weapons before the nation suspended its biological weapons program.
• Dengue: Clinical and Public Health Aspects The Centers for Disease Control and Prevention (CDC) • Dengue haemorrhagic fever: diagnosis, treatment, prevention and control 2nd edition. Geneva : World Health Organization. • The NCBI Virus Variation Resources The Virus Variation Resources at The National Center for Biotechnology Information (NCBI). See also 
• Brazilian research study (in Portuguese) using Cats claw against dengue • Dengue fever at the Open Directory Project • Dengue Virus Genomes database search results from the Dengue Virus Database at the Viral Bioinformatics Resource Center 
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