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INTRODUCTION
Dengue is the most rapidly spreading mosquito-borne viral disease in the world. In the last 50 years,
incidence has increased 30-fold with increasing geographic expansion to new countries and, in the present
decade, from urban to rural settings. Dengue fever is classically a self-limiting, nonspecific illness. DHF is a more
serious clinical entity. It emerged among children in Southeast Asia during the 1950s and has since become amajor public health problem worldwide and a significant cause of pediatric morbidity and mortality.
DEFINITION
WHO defines dengue fever as an acute onset febrile illness that lasts 2-7 days, with two or more of the
following symptoms: headache, retro-orbital pain, myalgia/arthralgia, maculopapular rash, petechiae, and
positive tourniquet test. Hemorrhagic manifestations are uncommon.
DISEASE BURDEN
Since 2000, epidemic dengue has spread to new areas and has increased in the already affected areas of
the region. Cyclic epidemics are increasing in frequency and in-country geographic expansion is occurring in
Bangladesh, India and Maldives -countries in the deciduous dry and wet climatic zone with multiple virus
serotypes circulating.
Every year about 50-100 million cases of dengue infection, 500,000 cases of DHF and at least 12,000
deaths occur worldwide; ninety percent of these deaths occur in children less than 15 years of age.
During dengue epidemics, attack rates among susceptible individuals are often 40-50%, but may reach
80-90%. An estimated 500,000 cases of DHF require hospitalization each year, of which a very large proportion
are children. At least 2.5% of cases die, although case fatality could be twice as high. Without proper treatment,
DHF case fatality rates can exceed 20%.
ETIOLOGY
Dengue virus
40- to 50-mm single-stranded RNA viruses belonging to the Flavi-virus group. Four serotypes, have been described-DEN-1, DEN-2, DEN-3, and DEN-4. Infection with one dengue virus serotype results in specific immunity to that serotype only. predominant serotype in the 1980s- DEN-2, recently it is DEN-3.
Transmission
By biting and injecting infected salivary fluid into the wound of another person by an infected Aedesmosquito.
Aedes aegyptiis the most important epidemic vector.A. albopictus andA. polynesiensis may act as vectors
in somegeographic locations.Aedes aegyptiis seen in abundance inat-risk areas. It is found between latitudes
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30 north and 20south and at over 2,200 meters above the sea level.Transmission occurs in geographically
diverse areas,including subtropical and tropical cities at various altitudes.
The Aedes mosquito rests indoors, mainly in living rooms and bedrooms, and in small collections of water,
such as flowerpots or coconut shells. This maximizes man-vector contact and minimizes contact with insecticides
sprayed outdoors, hence hindering the control of this vector. Eggs can survive for long periods. Improperdisposal of garbage or inadequate wastewater drainage may be responsible for high mosquito densities in
endemic areas. Significant increases in the mosquito larval populations are seen during the rainy season.
CASE CLASSIFICATION
Dengue has a wide spectrum of clinical presentations, often with unpredictable clinical evolution and
outcome. While most patients recover following a self-limiting non-severe clinical course, a small proportion
progress to severe disease, mostly characterized by plasma leakage with or without hemorrhage.
Dengue is one disease entity with different clinical presentations and often with unpredictable clinical
evolution and outcome. WHO
Symptomatic dengue virus infections were grouped into three categories as per old WHO classification:
1. Undifferentiated fever2. Dengue fever (DF)3. Dengue hemorrhagic fever (DHF)- with or without shock
DHF was further classified into four severity grades, with grades III and IV being defined as dengue
shock syndrome (DSS).
There have been many reports of difficulties in the use of this classification. Therefore model for
classifying dengue has been suggested by an expert group (Geneva, Switzerland, 2008)
Criteria for dengue warning signs Criteria for severe dengue
Probable dengue
Live in /travel todengue endemic area.
Fever and 2 of thefollowing criteria:
Warning signs*
Abdominal pain or
tenderness
Persistent vomiting
Clinical fluid accumulation
Severe plasma leakage
Leading to:
Shock (DSS)
Fluid accumulation with
respiratory
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Nausea, vomiting
Rash
Aches and pains
Tourniquet test positive
Leukopenia
Any warning sign
Laboratory-confirmed
dengue
(important when no sign
of plasma leakage)
Mucosal bleed
Lethargy, restlessness
Liver enlargement >2 cm
Laboratory: increase in HCT
o Concurrent with rapiddecrease in platelet
count
*(requiring strict observation
and medical
Intervention)
Distress
Severe bleeding
As evaluated by clinicianSevere organ involvement
Liver: AST or ALT >=1000
CNS: Impaired
consciousness
Heart and other organs
PATHOGENESIS
After the bite of an infected mosquito, the average incubation period lasts 4 to 7 days (range of 3-14 days),
during which the patient may or may not experience symptoms, depending on the virus strain, age, immune status,
and other factors. This is followed by viremia, which is associated with sudden onset of fever and constitutional
symptoms lasting for 5-6 days (range of 2 to 12 days). The dengue virus replicates within cells of the mononuclear
phagocyte lineage (macrophages, monocytes, and B cells). Additionally, infection of mast cells, dendritic cells, and
endothelial cells is known to occur. The virus may infect peripheral blood leukocytes, liver, spleen, lymph node,
bone marrow, thymus, heart, kidney, stomach, lung, and possibly the brain, suggesting blood-brain barrier
disruption.
Following the febrile (viremic) phase, the patient may either recover or progress to the leakage phase, leading to
DHF and/or dengue shock syndrome. The increased number of infected cells results in increased production of
cytokines, including TNF- and IFN-, and other chemical mediators. TNF- and IFN- also lead to activation of
other dendritic cells, virally infected or non-infected. The release of various cytokines and mediators is responsiblefor increased vascular permeability, abnormal leakage of plasma, hypovolemia, shock, and hemostatic
abnormalities. In addition, there is evidence to show that endothelial cells also undergo apoptosis, which causes
disruption of the endothelial cell barrier, leading to the generalized vascular leak syndrome.
More severe infection occurs when a person is infected for a second time with a different serotype in2-4%of
individuals. How a second dengue infection causes a severe disease and why only some patients get severe disease
remains unclear. It is suggested that residual antibodies produced during the first infection are unable to neutralize
a second infection with another serotype, and the second infection, under the influence of enhancing antibodies,
results in severe infection and disease. This phenomenon is referred to as antibody-dependent enhancement. The
pre-existing non neutralizing antibodies generated from previous primary infection cross-react with viral serotypesinvolved in secondary infections and bind to the virions, but do not neutralize them. Such antibody-coated virions
are taken up more rapidly than uncoated virus particles by tissues, dendritic cells, monocytes and macrophages.
This leads to a higher viral load and enhanced antigen presentation by the infected dendritic cells to the T cells,
resulting in extensive T-cell activation and proliferation of memory T-cells. This extensive T-cell activation
supposedly causes the T-cells to become stunned, whereby their IFN- expression remains low.
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CLINICAL MANIFESTATIONS
Dengue fever
Fever lasting 2-7 days Two or more among the following
o Headacheo Retro-orbital paino Myalgia/arthralgiao Maculopapular rasho Petechiaeo Positive tourniquet testo Itchingo Prostrationo Flushing commonly on the face, neck, and chest.
Younger children - coryza, diarrhea, rash and seizure, and less commonly with vomiting, headache, andabdominal pain
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Dengue hemorrhagic fever
Hepatomegaly and splenomegaly -occasionally seen, especially in infants Positive tourniquet test petechiae, ecchymoses or purpura mucosal bleeding hematemesis or melena GI bleed- severe casesIn DHF, bleeding may not correlate with the platelet counts and usually occurs once the fever has settled.
Dengue shock syndromeWHO defines DSS as DHF plus signs of circulatory failure.
The patient is considered to have shock if the pulse pressure (i.e. the difference between
the systolic and diastolic pressures) is 20 mm Hg in children or he/she has signs of poor capillary
perfusion (cold extremities, delayed capillary refill, or rapid pulse rate).
Child often conscious and lucid and BP initially appears normal, later with the diastolic pressure
rising towards the systolic pressure and the pulse pressure narrows as the peripheral vascular
resistance increases.
PHASES OF DENGUE
1. Febrile phase High-grade fever sudden in onset, lasting 27 days and is often accompanied by facial flushing, skin
erythema, generalized body ache, myalgia, arthralgia and headache.
Some patients may have sore throat, injected pharynx and conjunctival injection. Anorexia, nausea and vomiting are common. A positive tourniquet test in this phase increases the probability of dengue. Mild hemorrhagic manifestations like petechiae and mucosal membrane bleeding (e.g. Nose and gums) Hepato-spleenomegaly and tenderness over liver and spleen. The earliest abnormality-progressive decrease in total white cell count.2. Critical phase
Characterized by Shock from plasma leakage; severe haemorrhage; organ impairment.
Around the time of defervescence, when the temperature drops to 37.538oC or less and remains
below this level, usually on day 37 of illness, an increase in capillary permeability in parallel with increasing
haematocrit levels may occur. This marks the beginning of the critical phase. The period of clinically significant
plasma leakage usually lasts 2448 hours.
Progressive leukopenia Rapid decrease in platelet count usually precedes plasma leakage.
At this point patients without an increase in capillary permeability will improve, while those with
increased capillary permeability may become worse as a result of lost plasma volume. The degree of plasma
leakage varies.
Shock occurs when a critical volume of plasma is lost through leakage. It is often preceded by warning
signs. The body temperature may be subnormal when shock occurs. With prolonged shock, the consequent
organ hypoperfusion results in progressive organ impairment, metabolic acidosis and disseminated intravascular
coagulation. This in turn leads to severe haemorrhage causing the haematocrit to decrease in severe
shock.
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Instead of the leukopenia usually seen during this phase of dengue, the total white cell count may
increase in patients with severe bleeding. In addition, severe organ impairment such as severe hepatitis,
encephalitis or myocarditis and/or severe bleeding may also develop without obvious plasma leakage or shock .
3. Recovery phase (hypervolemia)If the patient survives the 2448 hour critical phase, a gradual reabsorption of extravascular
compartment fluid takes place in the following 4872 hours. General well-being improves, appetite returns,
gastrointestinal symptoms abate, haemodynamic status stabilizes and diuresis ensues. Some patients may have
a rash of isles of whitein the sea of red. Some may experience generalized pruritus. Bradycardia and
ECG changes are common during this stage. The haematocrit stabilizes or may be lower due to the dilutional
effect of reabsorbed fluid. White blood cell count usually starts to rise soon after defervescence but the
recovery of platelet count is typically later than that of white blood cell count. Respiratory distress from massive
pleural effusion and ascites will occur at any time if excessive intravenous fluids have been administered. During
the critical and/or recovery phases, excessive fluid therapy is associated with pulmonary oedema or congestive
heart failure.
DIAGNOSIS
History and physical examination Complete blood count- leukopenia, hemoconcentration Hematocrit- initially rises, then decreases Platelet count- thrombocytopenia (< 1,00,000) Positive tourniquet test Chest X ray- detect pleural effusion Ultrasound abdomen- rule out GI bleed viral isolation (mosquito cell lines, mosquito inoculation technique, and vertebral cell culture) serologic diagnosis detect antibodies (hemagglutination inhibition test, ELISA, complement fixation
test, neutralization test, antigen capture enzyme immunosorbent assay)
Molecular diagnostic methods (RT-PCR). Additional tests should be considered as indicated (and if available)-liver function, glucose, serum
electrolytes, urea and creatinine, bicarbonate or lactate, cardiac enzymes, ECG and urine specific gravity.
COMPLICATION
Acute renal failure Acute liver failure CNS involvement & Encephalopathy
MANAGEMENT
A stepwise approach to the management of dengue- WHO
Step I. Overall assessment
1. History, including information on symptoms, past medical and family history2. Physical examination, including full physical and mental assessment3. Investigation, including routine laboratory and dengue-specific laboratory
Step II. Diagnosis, assessment of disease phase and severity
Step III. Management
1. Disease notification
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2. Management decisions. Depending on the clinical manifestations and other circumstances, patientsmay:
a. be sent home (Group A)b. be referred for in-hospital management (Group B)c. require emergency treatment and urgent referral (Group C).
Management of febrile phase
Rest, oral fluids For Reduction of fever: Tepid sponge after a dose of paracetamol 10-15 mg/kg/day for high fever 39C,
every 4 to 6 hours
Nutritional support: Soft, balanced, nutritious diet, juice and electrolyte solution - plainwater is notadequate. Avoid black- or red-colored food or drinks (may be mistaken for bleeding)
Other supportive and symptomatic treatmento Domperidone -1 mg/kg/day in three divided doses in case of severe vomiting for 1-2 days. One
single dose may be adequate
o H2-blockers (ranitidine) - recommended in case of gastrointestinal bleedingo Antibiotic - not necessary; it may lead to complicationso Intravenous fluids: In case of doubt, provide intravenous fluids, guided by serial hematocrit,
blood pressure, and urine output levels. The volume of fluid should be targeted at treating mild
to moderate isotonic dehydration (5-8% deficit); just correct dehydration, and discontinue it as
soon as possible.
If sent home
Advise about warning signs and symptoms of shock and ask to report immediately if any of the
following symptoms occur Clinical deterioration in defervescence (no fever or low-grade fever)
Any type of bleeding Severe vomiting/abdominal pain Intense thirst Drowsiness, desire for sleeping all the time Refusal to eat or drink Cold, clammy skin and extremities, restlessness, irritability, decreased urine output or no urine for 4-6
hours
Behavioral changes e.g. confusion, use of foul languageFollow up
Preferably everyday - from the 3rd day until afebrile for 24-48 hours.
Important points to evaluate are
History of bleeding, abdominal pain, vomiting, appetite, fluid intake, and urine output Physical examination: vital signs, liver size and tenderness Blood counts: WBC 5,000 cells/mm3 with lymphocytosis and increase in atypical lymphocytes and
platelet counts 100,000 cells/cumm indicates progression to critical phase. Rising Hct of 10-20% -
indicates that the patient has progressed to the critical phase Liver function tests in every patient who shows a change in consciousness, restlessness, confusion and
irritability.
Management of the critical phase/DHF and dengue shock syndrome
General measures
Give oxygen via face mask/nasal cannula in case of shock/impending shock. NCPAP should be preferred if there is acute respiratory failure associated with DSS
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Frequent monitoring Stop bleeding with proper techniques e.g. anterior nasal packing for massive epistaxis Avoid blind invasive procedures e.g. no nasogastric tube insertion, no gastric lavage Essential nursing care Sedation is needed in some cases to restrain an agitated child. Chloral hydrate(12.5-50 mg/kg), orally or
rectally, is recommended. Long-acting sedatives should be avoided
Monitoring of children with DHF/DSS
Vital signs should be checked every 15-30 minutes until the patient is stable, and every 1-2 hoursthereafter
Hematocrit levels must be checked every 2 hours for 6 hours, then every 4 hours until the patient isstable. Monitoring at every 12 hours during recovery
Fluid balance sheet: type of fluid, amount, rate etc Accurate measurement of urine output Serum electrolytes and blood gases should be checked every 12 hours DIC profile and liver function tests as and when indicated
Weight should be measured every 12 hoursObtain laboratory tests
In uncomplicated DHF cases, Hematocrit and platelet counts are the only necessary tests. In those at high risk of complicated DHF
o Blood grouping/cross matchingo Blood glucoseo Blood electrolyte (Na, Ca, K, CO2)o Liver function testo Renal function test (BUN, creatinine, uric acid)o Blood gaso Coagulogram (PTT, PT, TT)
IV fluid
IV fluids should be given only when the patient enters the critical phase: thrombocytopenia 100,000, rising
Hct of 10-20%. IV fluid before critical phase cannot prevent shock, but may cause fluid overload
Type of IV fluid used: isotonic salt solution (normal saline or Ringer 's lactate) In young infants without shock-N/2 saline in 5% dextrose; colloid solutions in patients who already have
volume overload, i.e., massive pleural effusion
Fluid replacement rate minimum necessary to maintain effective circulatory volume, excess amountwill leak into the pleural and peritoneal spaces
Initial rate of administration
DSS grade III 10 mL/kg/hour for 1-2 hours Grade IV Free flow or 20 mL/kg/dose IV bolus until BP can be measured (usually within 5-15 minutes),
then reduce the rate to 10 mL/kg/hour for 1-2 hours
Non-shock patients: normal maintenance or + 5%deficit and then reduce the rate to minimum after 2-4hours, if possible.
o Body weight < 15 kg: 4-7 mL/kg/hour. Body weight 15-40 kg: 3-5 mL/kg/hour Colloids: The initial rate is 10 mL/kg/hour; this will reduce Hct by about 10 percentage points e.g. from
53 to 43%. After that, reduce to 5, then to 3 mL/kg/hour
Increase or decrease the rate of IV depending on: clinical signs of shock, hematocrit level, urine output
fluid
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In case of no response to IV fluids: consider and correct
Massive plasma leakage Concealed internal bleeding decrease in Hct Hypoglycemia Blood sugar < 60 mg% Hyponatremia, hypocalcemia electrolytes
Acidosis indicates metabolic acidosis in blood gas analysisDuration of IV fluid infusion: between 24-48 hours as plasma loss may continue for 24-48 hours.
It should be discontinued when the
hematocrit level falls to approximately 40%, with stable vital signs. A good urine flow indicates sufficient circulating volume. Reabsorption of extravasated plasma occurs 48 hours after the termination of shock (manifested by a
further drop in hematocrit levels after intravenous fluid administration has been stopped), and
hypervolemia, pulmonary edema or heart failure may occur if more fluid is given.
It is extremely important that a drop in hematocrit levels at this later stage is not interpreted as a sign ofinternal bleeding.
Strong pulse and blood pressure and adequate diuresis are good signs at this stage. The return of the patients appetite is also a sign of recovery.
Blood and platelet transfusion
The indications for fresh whole blood or packed red cell transfusion are significant blood loss > 10% (6-8mL/kg), hemolysis, concealed internal bleeding
Dose: Fresh whole blood 10 mL/kg/dose, packed red cells 5 mL/kg/dose Indication for platelet transfusion: significant bleeding with thrombocytopenia or if platelet count is less
than 10,000/mm3 (10-20 mL/kgof platelets). Mild reductions in platelet counts are usually not
associated with significant bleeding. Platelets return to normal within 7-9 days. Only 0.4% of DHF
patients need platelet transfusion
Criteria for the discharge of patients
Absence of fever for at least 24 hours without the use of antifever therapy. Minimum of 3 days after recovery from shock: stable pulse, blood pressure and breathing rate. No respiratory distress from pleural effusion and no ascites. No evidence of external or internal bleeding. Good urinary output and stable haematocrit levels. Platelet count > 100,000/mm3. Convalescent confluent petechial rash.
Treatment of complications
1. Electrolyte imbalanceHyponatremia
Hypocalcemia 10% Ca gluconate 1 mL/kg/dose, IV push slowly every 6 hours
2. Fluid overload:Avoid the common causes of fluid overload, which are
Early IV fluid therapy- in the febrile phase Excessive use of hypotonic solutions Non-reduction in the rate of IV fluid after initial resuscitation Blood loss replaced with fluids in cases with occult bleeding
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Judicious fluid removal using colloids with controlled diuresis (furosemide 1 mg/kg infusion over 4hours) or dialysis
3. Large pleural effusions, ascites Careful titration of intravenous fluids
Large pleural effusions during the recovery phase after 48 hours - small doses of furosemide (0.25-0.5mg/kg at 6 hours interval for 1 to 2 doses).
Avoid insertion of intercostal drains and tracheal intubation4. Disseminated intravascular coagulation
Some seriously sick patients with bleeding and DIC have benefited from heparin therapy and
cryoprecipitate (1 unit per 5 kg body weight) followed by platelets (4 units/m2 or 10-20 mL/kg) within 1 hour
and fresh frozen plasma (FFP 10-20 mL/kg).
Frequent clinical assessment and regular coagulation profile (PT, aPTT, fibrinogen, platelet and FDP) are
mandatory, as indicated.
IVF therapy in DHF
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IVF therapy in DSS
PREVENTION AND CONTROL ( Measures as per national vector borne disease control program, India)
At present, no specific drug or vaccine is available against the dengue virus. The control is primarily dependent
on vector control.
1) Environmental changes
a) Environmental modification: Long lasting physical transformation of vector habitats. For example,improved water supply, mosquito proofing of overhead tanks, cisterns or underground reservoirs.
b) Environmental manipulation: Temporary changes to vector habitats that involve the management ofessential and non-essential containers and management of or removal of natural breeding sites.
c) Changes in human habitations: Efforts are made to reduce man-virus contact by mosquito proofing ofhouses with screens on doors/windows.
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2) Personal protection: protective clothing, mats, aerosol coils (pyrethrum), repellents e.g., DEET, permethrin
impregnated in cloth, insecticide-treated mosquito nets and curtains.
3) Biological control: by larvivorous fish: Gambria affinis and Peorilia reticulate. BacteriaBacillus thuringiensis
H-14, Bacillus sphaericus in polluted water.
4) Chemical control:
a) Larvicide: SinceAe aegyptibreeds in clean water, which is stored and used for household purposes, assuch all the larvicides, which are safe, without any odour or colour, have residual effect with low
mammalian toxicity and do not pose any health hazard should be used. Temephos, an organophosphate
compound meets all the above mentioned requirements and this insecticide is being used under the
public health programme. The recommended dose for application of Temephos (50 EC) is 1 ppm (1 mg
per liter of water).
b) Adulticide: The following methods are recommended for the control of adultAedes aegyptimosquitoes:I. Pyrethrum spray: It may be used in indoor situations as space spray at a concentration of 0.1% -
0.2% @ 30-60 ml/1000 cu. ft. Commercial formulation of 2% pyrethrum extract is diluted with
kerosene in the ratio of one part of 2% pyrethrum extract with 19 parts of kerosene
(volume/volume). Thus, one litre of 2% pyrethrum extract is diluted by kerosene into 20 litres to
make 0.1% pyrethrum formulation (.ready-to-spray. formulation). After dilution, pyrethrum extract
is sprayed with Flit pump or hand operated fogging machine fitted with microdischarge nozzle.
II. Malathion fogging or Ultra Low Volume (ULV) spray: In application of ULV, minimum volume ofliquid insecticide formulation is applied per unit area. That is, the insecticide is broken down into
small droplets of a volume median diameter (VMD) of 40-80 microns with an objective of producing
a cloud of insecticide droplets that remain suspended in air for an appreciable time and driven
under the influence of wind. This provides maximum effectiveness against target vectors.Since no
diluent is used, the technique is more cost-effective than thermalfogging but it does not generate
a visible fog. Most organophosphorus insecticides in their technical form can be applied as ULV
spray. Under the public health programme, ULV spray (fogging) is undertaken by using 95% or pure
technical malathion. The ground equipment mostly used for ULV spray includes portable motorized
knapsack blowers and cold aerosol generators.
5) Legislative MeasuresSuitable laws and byelaws should be enacted and implemented for regulating storage/utilization
of water by communities, various agencies and avoidance of mosquitogenic conditions at construction sites,
factories.
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a) Model civic byelaws: Under this act fine/punishment is imparted, if breeding is detected. Thesemeasures are being strictly enforced by Mumbai, Navi Mumbai, Chandigarh and Delhi Municipal
Corporations.
b) Building Construction Regulation Act: Building byelaws should be made for appropriate overhead /under ground tanks, mosquito proof buildings, designs of sunshades, porticos, etc for not allowing
stagnation of water vis--vis breeding of mosquitoes. In Mumbai, prior to any construction activity, the
owners/builders deposit a fee for controlling mosquitogenic conditions at site by the Municipal
Corporation.
c) Environmental Health Act (HIA): Suitable byelaws should be made for the proper disposal/storage ofjunk, discarded tins, old tyres and other debris, which can withhold rain water.
d) Health Impact Assessments: Appropriate legislation should be formulated for mandatory HIA prior toany development projects/major constructions.
6) Health education for community mobilization and inter-sectoral convergence7) Vaccine
A tetravalent live attenuated DEN vaccine trial has been done in Thailand. After the third dose, 89% of
subjects seroconverted. The trial suggested that this vaccine has moderate, but improvable reactogenicity and
high seroconversion rates against four serotypes of DEN virus.
CONCLUSION
Dengue is an important public health problem that causes great expenses because of temporary
absenteeism from school, and undermines regional and national economic development.
REFERENCES
1. Singhi S, Kissoon N, Bansal A. Dengue and dengue hemorrhagic fever: management issues in anintensive care unit. J Pediatr (Rio J). 2007;83(2 Suppl):S22-35.
2. Dengue guidelines for diagnosis, treatment, prevention and control. WHO task groupnand the SpecialProgramme for Research and Training in Tropical Diseases (TDR). 2009. Geneva.
3. Guidelines for integrated vector management for control of dengue / dengue haemorrhagic fever.NVBDCP. Ministry of health and family welfare & DGHS. GOI.
4.
http://www.ncbi.nlm.nih.gov/pubmedhealth/PMH0002350/
5. Dengue, Dengue Hemorrhagic Fever and Dengue Shock Syndrome in the Context of the IntegratedManagement of Childhood Illness. WHO. 2005.
http://www.ncbi.nlm.nih.gov/pubmedhealth/PMH0002350/http://www.ncbi.nlm.nih.gov/pubmedhealth/PMH0002350/http://www.ncbi.nlm.nih.gov/pubmedhealth/PMH0002350/