A small bite by a seemingly
trifling organism can really turn your life upside down. Can you believe the
fact that Vector borne diseases cause more than one million deaths each year?
Yes, the number of deaths from vector born diseases is increasing alarmingly.
Under tropical conditions of excessive heat and high humidity, man is subject
to serious physical and mental handicaps. He perspires profusely and
loses vigor and energy and exposes himself to such dangers as sun stroke and
diseases. Tropical conditions are ideal for survival of germs and
bacteria and also encourage the spread of insects and pests. On this World
Health Day, WHO is drawing attention to a group of diseases that are spread by
insects and other vectors, the heavy health and economic burden they impose and
what needs to be done to reduce these burdens. Many people
who survive infection are left permanently debilitated, disfigured, maimed or
blind.
The
tag line of this year's World Health Day 'Small Bite Big Threat', compel to
turn the attention towards the alarming occurrence of vector borne diseases,
and it substantiate and recommends the governments, local authorities,
community groups and individuals to work together to prevent vector borne
diseases. "Mosquitoes, flies, tick and bugs may be a threat to your
health-and that of your family-at home and when travelling", is the
message of this year's World Health Day.
Epidemiology Vectors are organisms
that transmit pathogens and parasites from one infected person (or animal) to
another. Vector borne diseases are illnesses caused by these pathogens
and parasites in human population and account for 17% of the estimated global
burden of all infectious diseases. Although, the disease most commonly
found in tropical areas where 40% of the population is at risk, globalization,
climate change and urbanisation have affected transmission of vector borne
diseases and causing their appearance in countries where they were previously
unknown.
Major
Vector Borne Diseases
Sl.No.
|
Name of the Disease
|
Vector
|
Causative agent
|
Certitude
|
1.
|
Dengue
|
Infected Female
Aedes aegypti Mosquito
|
Virus
|
More than 2.5 billion
people-over 40% of words population-are now at risk of dengue.
|
2.
|
Malaria
|
Infected female
Anopheles Mosquito
|
Parasite Plasmodium
|
Around the word, Malaria
transmission occurs in 97 countries, putting about 3.4 billion people at risk
|
3.
|
Lymphatic filariasis or
Elephantiasis
|
Infected Mosquitos
Culex, Anopheles, Aedes
|
Filarial parasite
|
More than 120 million
currently infected and 40 million disfigured and incapacitated
|
4.
|
Chikungunya
|
Infected female
Aedes aegypti Mosquito
|
Virus
|
There is no specific
treatment for the disease. Treatment is symptomatic.
|
5.
|
Yellow Fever
|
Infected Mosquito
Aedes and Haemagogus
|
Virus
|
Vaccination is the most
important preventive measure against yellow fever. There is no specific
treatment
|
6.
|
Schistosomiasis
|
Infested water. Larva of
the Parasite released by fresh water snails.
|
Parasite
Trematode
flat worms(Blood
flukes)
|
Disease prevalent in poor
communities without safe drinking water and sanitation.
|
7.
|
Chagas disease (American
Trypano somiasis)
|
Triatomine Bugs
(Kissing bugs)
|
Protozoan Parasite Trypanosoma Cruzi
|
Potentially Life
threatening condition. 7-8 million people infected worldwide, mostly in Latin
America. There is no vaccine
|
8.
|
Congo-Crimean haemonhage
fever
|
Tics and livestock
animals
|
Nairo Virus
|
Case fatality rate up to
40%. There is no vaccine available for either people or animals.
|
9.
|
Human African
trypanosomiasis (Sleeping sickness)
|
Infected Tsetse fly
|
Protozoan
Parasitc
|
Fatal without prompt
diagnosis and treatment
|
10.
|
Leishmaniasis
(Kala-azar)
|
Infected Female sand
flies
|
Protozoan
Leishmania
Parasites
|
Every year there are 1.3
million new cases and 20,000 to 30,000 deaths
|
11.
|
Lyme
|
Infected deer ticks
|
Borrelia Bacteria
|
It is now the most common
tick borne disease in northern hemisphere
|
12.
|
Onchocerciasis
(River Blind Blindness)
|
Infected black flies
(Simulium spp.)
|
Parasitic worm onchocerca
volvulus
|
In 2013 Colombia become
the 1st country to be declared onchocerciasis free by WHO
|
13.
|
Japanese Encephalitis
|
Culex mosquito
|
Virus
|
Vaccine is the most
preventive measure. There is no specific treatment.
|
Prevention
and control
Time
has come to utilize the full potential for vector control for reducing
vector-borne disease. Back in 1940's, the discovery of synthetic
insecticides was a major breakthrough and the massive use of insecticides in
1940's and 1950's successfully brought many important vector-borne diseases
under control. But, with in the past two decades, many important
vector-borne diseases have re-emerged or spread to new parts of the
world. Alongside this alarming spread of vectors there is a serious concern
of increasing insecticide resistance. At the same time, the world is
facing an extreme shortage of entomologists and vector control experts who
promote 'integrated vector management' as the best approach to strengthen
vector control. This approach uses a range of interventions, from indoor
residual spraying to the use of natural insect predators, in combination and in
a value added way. Integrated management makes sense as many vector borne
diseases overlap geographically.
Key
elements in the prevention and control of vector borne diseases include the
following:
· Long-lasting insecticidal
nets.
· Indoor residual spraying
· Outdoor spraying
· Addition of chemicals to
water
· Insect repellents like
coils, vaporizing mats.
· Reducing breeding habit of
the vector.
· Biological control of
vectors through the introduction of parasites, predators or other living
organisms.
· Genetic control strategies.
· Waste management.
· Housing modification
· Personal protection against
the vector
· Medication for travelers
· Prophylaxis and preventive
therapies.
· Mass treatment for
lymphatic filariasis, sotistosomiasis, onchocerciasrs
· Vaccines for Japanese
encephalitis, Tick-borne encephalitis, and yellow fever.
· Blood and body fluid safety
in the case of Chagas disease and crimean-congo haemonhage fever.
· Food safety in case of
Chagas disease and Tick borne encephalitis.
Key
challenges in the control of vector-borne diseases include.
Ø Emerging insecticide
resistance.
Ø Lack of expertise in vector
control.
Ø Surveillance of vectors and
their diseases.
Ø Sanitation and access to
safe drinking water.
Ø Pesticide safety and
poisoning
Ø Climate and environmental
change.
The poorest segment of of the society and least developed countries are most
affected by vector born diseases. illness and disability prevent people from
working and supporting themselves and their family causing further hardship and
impeding economic development.
World
Health Day is celebrated on 7 April every year to mark the anniversary of the
founding of WHO in 1948. Each year a theme is selected that high lights a
priority area of public health. The Day provides an opportunity for
individuals in every community to get involved in activities that can lead to
better health. In recent years, renewed commitments from ministries of
health, regional and global health initiatives, with the support of NGO's, the
private sector and the scientific community, have helped to lower the incidence
and death rates from some vector-borne diseases.
As vector borne diseases begin to spread beyond their traditional boundaries,
action needs to be expanded beyond the countries where these diseases currently
thrive. WHO resolved to provide communities with information and aims to
raise awareness about the threat posed by vectors and vector-borne disease, and
to stimulate families and communities to take action to protect themselves from
the perennial bane.
- Dhanya Sanal, (Assistant Director, PIB)
Thiruvananthapuram
Courtesy: Press Information Bureau (pib.nic.in)