DENGUE HEMORRHAGIC FEVER PowerPoint Presentation

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DENGUE & DENGUE HEMORRHAGIC FEVER DR.I.SELVARAJ, IRMS Sr.D.M.O (Selction Grade), INDIAN RAILWAYS B.SC.,M.B.B.S.,(M.D Community Medicine)., D.P.H., D.I.H., PGCH&FW (NIHFW, New Delhi)

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Epidemiology In India first outbreak of dengue was recorded in 1812 A double peak hemorrhagic fever epidemic occurred in India for the first time in Calcutta between July 1963 & March 1964 In New Delhi, outbreaks of dengue fever reported in 1967,1970,1982, &1996

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BURDEN OF DISEASE IN S.E.ASIA CATEGORY-A (INDONESIA,MYANMAR,AND THAILAND) CATEGORY-B (INDIA,BANGALADESH,MALDIVES,AND SRILANKA) CATEGORY-C (BHUTAN, NEPAL) CTEGORY-D (DPR KOREA)

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Dengue Virus Causes dengue and dengue hemorrhagic fever It is an arbovirus Transmitted by mosquitoes Composed of single-stranded RNA Has 4 serotypes (DEN-1, 2, 3, 4)

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Dengue Virus Each serotype provides specific lifetime immunity, and short-term cross-immunity All serotypes can cause severe and fatal disease Genetic variation within serotypes Some genetic variants within each serotype appear to be more virulent or have greater epidemic potential

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The most common epidemic vector of dengue in the world is the Aedes aegypti mosquito. It can be identified by the white bands or scale patterns on its legs and thorax.

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Aedes aegypti Dengue transmitted by infected female mosquito Primarily a daytime feeder Lives around human habitation Lays eggs and produces larvae preferentially in artificial containers

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Clinical Characteristics of Dengue Fever Fever Headache Muscle and joint pain Nausea/vomiting Rash Hemorrhagic manifestations Patients may also report other symptoms, such as itching and aberrations in the sense of taste, particularly a metallic taste. In addition, there have been reports of severe depression after the acute phase of the illness.

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1.The virus is inoculated into humans with the mosquito saliva. 2.The virus localizes and replicates in various target organs, for example, local lymph nodes and the liver. 3.The virus is then released from these tissues and spreads through the blood to infect white blood cells and other lymphatic tissues. 4.The virus is then released from these tissues and circulates in the blood.

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5.The mosquito ingests blood containing the virus. 6.The virus replicates in the mosquito midgut, the ovaries, nerve tissue and fat body. It then escapes into the body cavity, and later infects the salivary glands. 7.The virus replicates in the salivary glands and when the mosquito bites another human, the cycle continues.

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The transmission cycle of dengue virus by the mosquito Aedes aegypti begins with a dengue-infected person. This person will have virus circulating in the blood - a viremia that lasts for about five days. During the viremic period, an uninfected female Aedes aegypti mosquito bites the person and ingests blood that contains dengue virus. Although there is some evidence of transovarial transmission of dengue virus in Aedes aegypti, usually mosquitoes are only infected by biting a viremic person. Then, within the mosquito, the virus replicates during an extrinsic incubation period of eight to twelve days. The mosquito then bites a susceptible person and transmits the virus to him or her, as well as to every other susceptible person the mosquito bites for the rest of its lifetime.

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The virus then replicates in the second person and produces symptoms. The symptoms begin to appear an average of four to seven days after the mosquito bite - this is the intrinsic incubation period, within humans. While the intrinsic incubation period averages from four to seven days, it can range from three to 14 days. The viremia begins slightly before the onset of symptoms. Symptoms caused by dengue infection may last three to 10 days, with an average of five days, after the onset of symptoms—so the illness persists several days after the viremia has ended.

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There are actually four dengue clinical syndromes: Undifferentiated fever; Classic dengue fever; Dengue hemorrhagic fever, or DHF; and Dengue shock syndrome, or DSS. Dengue shock syndrome is actually a severe form of DHF.

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Clinical Case Definition for Dengue Fever Classical Dengue fever or Break bone fever is an acute febrile viral disease frequently presenting with headaches, bone or joint pain, muscular pains, rash, and leucopenia Clinical Case Definition for Dengue Hemorrhagic Fever 4 Necessary Criteria: Fever, or recent history of acute fever Hemorrhagic manifestations Low platelet count (100,000/mm3 or less) Objective evidence of “leaky capillaries:” elevated hematocrit (20% or more over baseline) low albumin pleural or other effusions

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Clinical Case Definition for Dengue Shock Syndrome 4 criteria for DHF + Evidence of circulatory failure manifested indirectly by all of the following: Rapid and weak pulse Narrow pulse pressure (< 20 mm Hg) ORhypotension for age Cold, clammy skin and altered mental status Frank shock is direct evidence of circulatory failure

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Hemorrhagic Manifestations of Dengue Skin hemorrhages:petechiae, purpura, ecchymoses Gingival bleeding Nasal bleeding Gastrointestinal bleeding: Hematemesis, melena, hematochezia Hematuria Increased menstrual flow

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Signs and Symptoms of Encephalitis/Encephalopathy Associated with Acute Dengue Infection Decreased level of consciousness: lethargy, confusion, coma Seizures Nuchal rigidity Paresis

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Four Grades of DHF Grade 1 Fever and nonspecific constitutional symptoms Positive tourniquet test is only hemorrhagic manifestation Grade 2 Grade 1 manifestations + spontaneous bleeding Grade 3 Signs of circulatory failure (rapid/weak pulse, narrow pulse pressure, hypotension, cold/clammy skin) Grade 4 Profound shock (undetectable pulse and BP)

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Danger Signs in Dengue Hemorrhagic Fever Abdominal pain - intense and sustained Persistent vomiting Abrupt change from fever to hypothermia, with sweating and prostration Restlessness or somnolence * All of these are signs of impending shock and should alert clinicians that the patient needs close observation and fluids.

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This thermometer illustrates the developments in the illness that are progressive warning signs that DSS may occur. The initial evaluation is made by determining how many days have passed since the onset of symptoms. Most patients who develop DSS do so 3-6 days after onset of symptoms. Therefore, if a patient is seven days into the illness, it is likely that the worst is over. If the fever goes between three and six days after the symptoms began, this is a warning signal that the patient must be closely observed, as shock often occurs at or around the disappearance of fever. Other early warning signs to be alert for include a drop in platelets, an increase in hematocrit, or other signs of plasma leakage. If you document hemoconcentration and thrombocytopenia and other signs of DHF and the patient meets the criteria for DHF, the prognosis and the patient's risk category have changed. Though dengue fever does not often cause fatalities, a greater proportion of DHF cases are fatal. The next concern would be observation of the danger signs—severe abdominal pain, change in mental status, vomiting and abrupt change from fever to hypothermia. These often herald the onset of DSS. The goal of treatment is to prevent shock. The plasma leakage syndrome is self-limited. If you can support the patient through the plasma leakage phase and provide sufficient fluids to prevent shock, the illness will resolve itself.

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Purpose of Control Reduce female vector density to a level below which epidemic vector transmission will not occur Based on the assumption that eliminating or reducing the number of larval habitats in the domestic environment will control the vector The minimum vector density to prevent epidemic transmission

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LABORATORY CRITERIA ISOLATION OF DENQUE VIRUS INCREASED IgM OR IgM ANTIBODIES TITRES DENQUE ANTIGEN DETECTION BY IMMUNOHISTOCHEMISTRY,IMMUNOFLUROSCENCE,ELISA PCR LEUCOPENIA,THROMPOCYTOPENIA

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Vector Control Methods: Biological and Environmental Control Biological control Largely experimental Option: place fish in containers to eat larvae Environmental control Elimination of larval habitats Most likely method to be effective in the long term

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Vector Control Methods: Chemical Control: Larvicides may be used to kill immature aquatic stages Ultra-low volume fumigation against adult mosquitoes Mosquitoes may have resistance to commercial aerosol sprays

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BIOLOGICAL CONTROL methods are not widely used and are primarily experimental. One option in which biological control is often used, however, is the placement of small fish that eat mosquito larvae in certain containers, such as decorative fountains or 55-gallon drums. Recently, a few countries have also reported success in controlling larvae with copepods, small invertebrate crustaceans that feed on first- and second-stage mosquito larvae. ENVIRONMENTAL CONTROL involves eliminating or controlling the larval habitats where the mosquito lays her eggs and the immature mosquitoes develop. This includes emptying water from containers or covering containers that are being used, cleanup campaigns to dispose of containers that are not being used, and improving water supplies so that there is less need to store water in containers. Since chemical control is generally restricted to containers that cannot otherwise be eliminated or managed, and biological control is still largely experimental, environmental methods are likely to be the most effective for long-term control of Aedes aegypti.

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Larviciding involves placing chemicals into containers that cannot easily be eliminated to kill the mosquito larvae. Ultra-low volume, or ULV spraying of insecticides is widely practiced to kill adult mosquitoes. ULV spraying uses machines that produce very small particles of insecticide, which are carried by wind currents. Typically, ULV machines are either mounted on trucks or are portable machines that can be carried by field workers. The insecticide particles must come in contact with the mosquito to kill it. Unfortunately, the Aedes aegypti mosquito tends to reside inside houses, often resting in secluded locations such as closets that are not easily penetrable by the insecticide spray. Thus, ULV spraying from vehicles is generally ineffective, killing very few Aedes aegypti mosquitoes. The method is, therefore, expensive and ineffective. Commercial aerosol sprays to kill the mosquitoes found indoors are useful, but "knockdown resistance" may occur in some locations. Individual householders may note that spray insecticide has only a temporary effect, knocking down or paralyzing mosquitoes that later recover and fly away. In such cases, the sprayed mosquitoes must also be squashed to prevent their recovery.

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Although the goal of disease control is to prevent epidemic transmission, if an epidemic does occur, ways to minimize its impact include: Teaching the medical community how to diagnose and manage dengue and dengue hemorrhagic fever (DHF), so they are better prepared to effectively manage and treat large numbers of cases. Mortality from DHF will thus be minimized. Implementing an emergency contingency plan to anticipate the logistical issues of hospitalizing large numbers of patients and to outline measures for community-wide vector control activities. Such plans should be prepared with the participation of all parties and agencies involved, and should be ready for implementation prior to the emergence of an epidemic. Educating the general public to encourage and enable them to carry out vector control in their homes and neighborhoods.

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Programs to Minimize the Impact of Epidemics Education of the medical community Implementation of emergency contingency plan Education of the general population

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THANK YOU Reference: http://www.who.int/ctd/docs/dengue.pdf http://www.cdc.gov/ http://www.cdc.gov/ncidod/index.htm SUPERCOURSE