2. Malaria
Vector borne infectious disease
Caused by protozoan parasite
Very common infectious disease
Transmitted by female anopheles mosquito
No vaccines available
Can be treated easily with derivatives of
quinine and artemisinin (drug resistance
common)
3. History
First record of “periodic fevers” from
China in 2700 BC
Term “malaria” derived from Italian for
“bad air” – mala aria
Also known as “ague” or “marsh fever”
4. First effective treatment was the bark of the
cinchona tree (contains quinine)
Grows in the Peruvian Andes
Used by the locals to control malaria
Jesuits introduced it to Europe in 1640s
Active ingredients (quinine) isolated from the
bark
Named by French chemist Pierre Pelletier and
Jean Caventou
5. The blood stage of malaria life cycle was
recognized in 19th
and early 20th
century
The latent form of the disease (in the liver)
was only recognized in 1980s
Explained why apparently “cured” people
could have recurrent episodes years later
in the absence of new exposure
6. Estimation of mortality and DALYs lost
due to malaria world wide (2002)
Region Mortality
(000)
DALYs
lost(000)
Africa 1136 40855
Americas 1 111
East Medi-
terranean
59 1196
Europe 0 21
SEAR 65 2777
Western Pacific 11 371
Total 1272 46481
7. Epidemiology
Precise statistics unknown - most cases are
rural
400-900 million cases of fever per year
Affects about 515 million people per year
Kills between 1 – 3 million per year
Most deaths occur in children less then 5
years in Sub Saharan Africa (pregnant
women also vulnerable)
One death every 30 seconds
8. 2005 2006
State Malaria
cases
P.F.
cases
deaths Malaria
cases
P.F.
cases
deaths
Jharkha
nd
192334 51484 21 33288 8707 1
Haryana 33262 238 0 7558 7 0
Punjab 1883 28 0 58 2 0
Assam 67885 45453 113 85070 60885 271
Orissa 391261 337934 249 63690 55365 49
Uttar
Pradesh
105303 3149 0 14590 219 0
State-wise distribution of malaria in India in
2005 and 2006
9. Malaria parasite
Malaria is caused by protozoan
parasite of the genus plasmodium
In humans the causes include
P. Falciparum
P. malariae
P. ovale
P. vivax
10. P. vivax is the most common infection
(80% of the cases)
P. falciparum causes most deaths (15% of
infections and 90% of deaths)
Other Plasmodium species also infects
birds, reptiles, rodents, monkeys and apes
11. Mosquito vectors
Primary hosts and transmission vectors
are the female Anopheles mosquito
Only the female feed on blood
Mosquito ingests parasite from infected
human blood whilst feeding
Carry sporozoites in the salivary glands
There is a complex life cycle within the
mosquito
12. Parasite relatively protected from the
human immune system because it hides in
the red blood cells or in the liver.
Circulating infected cells can be destroyed
in the spleen
Parasite infected cells stick to blood
vessel walls (to avoid the spleen) – can
cause strokes in cerebral malaria.
13. Exogenous phase(in mosquito)
Sexual cycle (sporogony)
Sporozoites reach
salivary glands
Sporozoites from
mosquito
enter human
Human blood
enters mosquito
Microgamete
(fertilization)
Macrogamete
Zygote
Ookinete
Outer layer of
stomach wall and
encysts
Oocyst grows
Human
phase`
15. References
Essentials of Medical Pharmacology -
K.D. Tripathi 6th
edition
Principles of Pharmacology -
Sharma and Sharma 1st
edition 2007
Textbook of Preventive and Social
Medicine - K .Park 15th
edition