Parasitology Introduction PDF

Summary

This document provides an introduction to parasitology, covering definitions of parasites, types of hosts (definitive, intermediate, reservoir, vector, paratenic), the incidence of parasitic infections, factors influencing their prevalence, requirements for parasite survival, diagnostic methods (microscopy, serological tests, molecular methods), and control strategies. The document focuses primarily on parasitology, an aspect of biology.

Full Transcript

Parasitology
 Parasitology
Parasitology is the science which deals with parasites.
Medical Parasitology deals with those members of the animal kingdom
that sometimes in their life cycle take up temporary or permanent abode in
or upon a human host.
 Some basic definitions:
❖ Parasites: these are organisms which have adapted themselves to existence in (endoparasites) or on (ectoparasites)
another organism (host ) to obtain food and shelter.
❖ Parasites medically important to humans can be divided into:
a. Ectoparasites: Live on the surface of its host.
b. Endoparasites: Live inside the body of the host, subdivided into:
i. Obligate Parasites: Can’t live independently from the host i.e. permanent residence.
ii. Temporary Parasites: It visits its host from time to time, spending only part of their life as parasites and another
part as free-living organisms.
iii. Facultative Parasites: Can live free far from the host or as parasite.
c. Zoonotic Parasites: which are normally found in wild and/or domestic animals and may harm human.
 Some basic definitions:
❖ Symbiosis: Parasitology is largely a study of symbiosis or living
together.
Usually the symbionts are of different species but not necessarily.
❖ Interactions of symbionts
Phoresis: one symbiont or phoront is attached to another animal for
transportation only, neither organism is helped or harmed.

Mutualism: describes a relationship in which both mutuals benefit
from the association.
❖Interactions of symbionts
Commensalism: in it one partner (commensal) benefits from the association,
but the host is neither helped nor harmed.
Parasitism: a relationship in which, the parasite benefits while the host is
harmed.
 Types of Hosts:
1. Definitive host: is that host harboring the adult or sexually mature stage of the parasite.
2. Intermediate host: is that host in which the immature or larval stage of the parasite is
found or in which the parasite multiplies asexually.
3. Reservoir host: is an animal harboring the parasite to ensure continuity of its life cycle and
act as additional source and a store of infection.
4. Vector: is usually an arthropod host in which biological changes or multiplication of a
parasite take place to carry that parasite to its specific host.
5. Paratenic host: is a transport host in which the parasite undergoes no development but
remains alive and infective to other hosts.
 Incidence of parasitic infections :
Humans have suffered greatly through the centuries because of parasites.
Millions of people particularly in tropics and subtropics are debilitated,
disfigured, blinded and inconvenienced by such infections.Many are diseases
of the poor, the lower socioeconomic groups, those in primitive surroundings
and those in substandard living conditions. Nowadays immigration and
travelling spread most parasitic infections worldwide.
 Factors that influence the incidence of
parasitic infections :
These factors are related to such environmental factors as : climates, soil
texture, availability of suitable definitive and intermediate hosts and vectors.
The eating and sanitary habits of the population, the occupation and
nutritional status, the barefoot people and the consumption of uncooked
vegetables where humans excreta have been used as fertilizer.
 Requirements for the survival of
parasitic infections :
The parasite must gain entrance into the host, survive and multiply there,
eventually leave the host, and contact the appropriate intermediate host and
vector.
 Diagnosis of parasitic infections :
Diagnosis based solely on clinical signs and symptoms is rarely possible without laboratory
confirmation. The symptomatology of parasitic diseases is too diversified, too non specific
to lead to accurate clinical diagnosis.
1. The microscope is extensively used in the laboratory identification of
parasitic infections through fecal specimens, blood smears or tissue
examination.
2. Serological tests are increasing for diseases that elicit an appreciable
antibody response.
3. Molecular biological methods include DNA probes.
 Control of parasitic infections:
It begins with knowledge of the life cycles of the parasites. To overcome parasitic
diseases requires efforts to improve the living conditions, lowering malnutrition , solve
the problems of sanitation , control of water supply, sanitary disposal of sewage,
control of arthropod vectors and inspection and sanitary packaging of foods.
❖Immunization: measures for immunization have not developed rapidly for the
control of parasitic diseases. The parasites are antigenically very complex so that it is
difficult to assess the immunological response of the host.
❖Chemotherapy: It is important to develop always new drugs since some of them
have considerable toxicity and the appearance of drugs – resistant strains hinder
progress in the treatment of a parasitic disease.
 Medical Helminthology
❖Helminths (in Greeks helmins = worm) are macroscopic, multicelluar worms that
have microscopic infective forms; eggs and encysted or free living lava(also known
as metazoa).
❖It includes two phyla:
1. Phylum nemalthelminthes (Round worms or Nematodes).
2. phylum platyhelminthes (Flat worms) :
a. Class cestoda (Tapeworms).
b. Class trematoda (Flukes).