parasitology Introduction.ppt
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Apr 19, 2022
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About This Presentation
This ppt contains essential notes on the introduction of medical parasitology which helpful for the readers
Slide Content
By :Addisu tesfaye (BSc, MSc)
OUTLINE
Definition of Medical Parasitology
Scope of Medical Parasitology
Concepts related to Medical Parasitology
Mode of transmission & life cycle of parasites
Parasitic diseases
Host immunity & immune -evasion of parasites
Classification of Parasites
Definition of Medical Parasitology
Scope of Medical Parasitology
Concepts related to Medical Parasitology
Mode of transmission & life cycle of parasites
Parasitic diseases
Host immunity & immune -evasion of parasites
Classification of Parasites
Learning Objectives
At the end of this chapter the student will be able to:
Define common terms used in Medical Parasitology
Explain host-parasite relationship
Explain the general life cycles of parasites
Explain briefly host immunity & immune –evasion
mechanisms by parasites
Describe classification of medically important parasites
At the end of this chapter the student will be able to:
Define common terms used in Medical Parasitology
Explain host-parasite relationship
Explain the general life cycles of parasites
Explain briefly host immunity & immune –evasion
mechanisms by parasites
Describe classification of medically important parasites
1. Introduction to Medical Parasitology
1.1. Definition
Medical Parasitology (Greece: Para = beside, Sitos= food)
parasitos"somebody who eats from another's table”
Medicalparasitologyisasciencethatdealswithorganisms
livinginthehumanbody(thehost)andthemedicalsignificance
ofthishost-parasiterelationship.
Aparasiteisalivingorganism,whichtakesitsnourishmentand
otherneedsfromahost
The host is an organism which supports the parasite.
1.1. Definition
Medical Parasitology (Greece: Para = beside, Sitos= food)
parasitos"somebody who eats from another's table”
Medicalparasitologyisasciencethatdealswithorganisms
livinginthehumanbody(thehost)andthemedicalsignificance
ofthishost-parasiterelationship.
Aparasiteisalivingorganism,whichtakesitsnourishmentand
otherneedsfromahost
The host is an organism which supports the parasite.
Cont….
It is a subject that researches:
The biological features of medically important parasites,
The relationship between human beings and parasites,
The diagnosis, treatment, prevention, & control of the
parasitic diseases.
It is a subject that researches:
The biological features of medically important parasites,
The relationship between human beings and parasites,
The diagnosis, treatment, prevention, & control of the
parasitic diseases.
Scope of Medical Parasitology
According to the very broad definition of Parasitology,
parasites should include:-
Viruses, bacteria, fungi,
Protozoa and metazoa(multi-celled organisms) which
infect their host species.
However, for historical reasons the first three have been
incorporated into the discipline of Microbiology.
According to the very broad definition of Parasitology,
parasites should include:-
Viruses, bacteria, fungi,
Protozoa and metazoa(multi-celled organisms) which
infect their host species.
However, for historical reasons the first three have been
incorporated into the discipline of Microbiology.
Cont…
Therefore, Medical Parasitology consists of :
Medical Parasitology
Medical Protozology(single
celled animals)
Medical helminthology
(worms)
Medical Arthropodology
Therefore, Medical Parasitology consists of :
Medical Parasitology
Medical Protozology(single
celled animals)
Medical helminthology
(worms)
Medical Arthropodology
The importance of parasitology
Six major tropical diseases to which WHO pays great
attention include:
malaria,
schistosomiasis,
filariasis,
leishmaniasis,
trypanosomiasis and
leprosy.
Five of them are parasitic diseases except leprosy.
All the above diseases are prevalent in Ethiopia
Six major tropical diseases to which WHO pays great
attention include:
malaria,
schistosomiasis,
filariasis,
leishmaniasis,
trypanosomiasis and
leprosy.
Five of them are parasitic diseases except leprosy.
All the above diseases are prevalent in Ethiopia
Why were they selected?
Schistosomiasis -200,000,000 infected
500,000-1,000,000 deaths/year
Malaria -500,000,000 infected
2,500,000 deaths/year
Filariasis -250,000,000 infected
Trypanosomiasis -25,000,000 infected
65,000 deaths/year
Leishmaniasis -1,200,000 infected
Schistosomiasis -200,000,000 infected
500,000-1,000,000 deaths/year
Malaria -500,000,000 infected
2,500,000 deaths/year
Filariasis -250,000,000 infected
Trypanosomiasis -25,000,000 infected
65,000 deaths/year
Leishmaniasis -1,200,000 infected
1.2. Concepts related to Parasitology
Symbiosis
Any association between two different organisms, in which one
partner lives in or on another one’s body and interact.
Each organism is called a symbiont.
3 types:
Mutualism
Commensalism
Parasitism
Symbiosis
Any association between two different organisms, in which one
partner lives in or on another one’s body and interact.
Each organism is called a symbiont.
3 types:
Mutualism
Commensalism
Parasitism
Mutualism
Permanent association between two different organisms that life
apart is impossible (one cannot survive in the absence of the
other).
The mutual's are metabolically dependent on one another
One classic example is the relationship between certain species of
flagellated protozoa living in the gut of termites.
The protozoa-acquire their nutrients from termites,
In return they synthesize and secret cellulases; for the termites
Permanent association between two different organisms that life
apart is impossible (one cannot survive in the absence of the
other).
The mutual's are metabolically dependent on one another
One classic example is the relationship between certain species of
flagellated protozoa living in the gut of termites.
The protozoa-acquire their nutrients from termites,
In return they synthesize and secret cellulases; for the termites
Commensalism
Close relationship between two different organisms from
which one benefits and the other neither benefits nor
suffers.
E.g.E.Coliandman
Close relationship between two different organisms from
which one benefits and the other neither benefits nor
suffers.
E.g.E.Coliandman
Parasitism
The association between two different organisms in which
one (the parasite) derives benefit from the other (the host),
usually to obtain food or physical support.
Parasitism can have minor or major effects on the survival
of the host.
E.g. Ascarislumbricoidesand man.
The association between two different organisms in which
one (the parasite) derives benefit from the other (the host),
usually to obtain food or physical support.
Parasitism can have minor or major effects on the survival
of the host.
E.g. Ascarislumbricoidesand man.
1.3. Parasite and types of Parasites
I.Parasite
Itisasmallorganismwhichlivesinoronthehost
(largerorganism)
Inparasitism,parasiteisthebenefitedpartnerwhich
obtainsnourishmentandshelter(niche)fromthe
host
The parasite harms the host and has a much higher
reproductive capability compared to its host.
I.Parasite
Itisasmallorganismwhichlivesinoronthehost
(largerorganism)
Inparasitism,parasiteisthebenefitedpartnerwhich
obtainsnourishmentandshelter(niche)fromthe
host
The parasite harms the host and has a much higher
reproductive capability compared to its host.
II. Types of Parasites
Parasite can be typed according to:
I. Habitat
Endoparasite
Parasite that lives inside the body of its host
May be just under the surface or deep in the body
E.g. Tapeworms, flukes, protozoan
Ectoparasite
Parasite that lives on the outside surface of its host; E.g.
Flea, leeches, ticks
Parasite can be typed according to:
I. Habitat
Endoparasite
Parasite that lives inside the body of its host
May be just under the surface or deep in the body
E.g. Tapeworms, flukes, protozoan
Ectoparasite
Parasite that lives on the outside surface of its host; E.g.
Flea, leeches, ticks
II. Dependency on the host
Obligate Parasite
A parasite that is entirely dependent upon a host for its
survival. e.g. Plasmodium spp.
Facultative Parasite
A parasite that may be parasitic upon another organism
but can exist independently. E.g. Naegleriafowleri
Obligate Parasite
A parasite that is entirely dependent upon a host for its
survival. e.g. Plasmodium spp.
Facultative Parasite
A parasite that may be parasitic upon another organism
but can exist independently. E.g. Naegleriafowleri
III. Pathogenicity:
Pathogenic parasites –parasites that have the
potential to cause disease.
Non-Pathogenic–parasites that do not cause disease
under normal circumstances.
Opportunistic parasites –parasites that can cause
diseases when the immune system of the host is
suppressed.
Pathogenic parasites –parasites that have the
potential to cause disease.
Non-Pathogenic–parasites that do not cause disease
under normal circumstances.
Opportunistic parasites –parasites that can cause
diseases when the immune system of the host is
suppressed.
IV. Life cycle
Monoxenousparasites:
Requiring only a single host to complete the life cycle.
Have a direct life cycle (E.g. Ascarislumbricoides)
Heteroxenousparasites:
Those which require two or more hosts to complete their
life cycle (E.g. Plasmodium species)
Have indirect life cycle (require an intermediate host)
Monoxenousparasites:
Requiring only a single host to complete the life cycle.
Have a direct life cycle (E.g. Ascarislumbricoides)
Heteroxenousparasites:
Those which require two or more hosts to complete their
life cycle (E.g. Plasmodium species)
Have indirect life cycle (require an intermediate host)
V. Other types of parasites
Accidentalparasite–whenaparasiteattacksan
unnaturalhostandsurvives.E.gHymenolepis
diminuta(rattapeworm).
Erraticparasite-isonethatwandersintoanorgan
inwhichitisnotusuallyfoundE.g.Entamoeba
histolyticaintheliverorlungofhumans.
Accidentalparasite–whenaparasiteattacksan
unnaturalhostandsurvives.E.gHymenolepis
diminuta(rattapeworm).
Erraticparasite-isonethatwandersintoanorgan
inwhichitisnotusuallyfoundE.g.Entamoeba
histolyticaintheliverorlungofhumans.
1.4. Hosts and types of hosts
Host: An organism that harbors and provides sustenance
for another organism (the parasite).
Types of Hosts:
Definitive host: the host which usually harbors the
adult/sexual stage of the parasite
Intermediate host: the host which usually harbors the
larval/asexual stage of the parasite
Host: An organism that harbors and provides sustenance
for another organism (the parasite).
Types of Hosts:
Definitive host: the host which usually harbors the
adult/sexual stage of the parasite
Intermediate host: the host which usually harbors the
larval/asexual stage of the parasite
1.5. Vector and types of vectors
Vector: an organism (usually an arthropod) which transfers
infective forms of a parasite from one host to the
other.
Classification
1. Biological vectors:
2. Mechanical (Parathenicor transport) Vectors:
Vector: an organism (usually an arthropod) which transfers
infective forms of a parasite from one host to the
other.
Classification
1. Biological vectors:
2. Mechanical (Parathenicor transport) Vectors:
1.Biological vectors:
An arthropod in whose body the infecting organism develops
or multiplies before becoming infective to the recipient
individual.
Types of Biological vectors:
I.Propagative-multiplication of the pathogen without
developmental change.
E.g. Yersiniapestisin fleas
II. Cyclodevelopmental-developmental change without
multiplication.
E.g.Onchocercavolvulusin black flies.
An arthropod in whose body the infecting organism develops
or multiplies before becoming infective to the recipient
individual.
Types of Biological vectors:
I.Propagative-multiplication of the pathogen without
developmental change.
E.g. Yersiniapestisin fleas
II. Cyclodevelopmental-developmental change without
multiplication.
E.g.Onchocercavolvulusin black flies.
III. Cyclopropagative-multiplication and
developmental change of the pathogen
E.g. Plasmodium vivaxin Anopheles mosquitoes
2. Mechanical vector
An arthropod that transmits the infective organisms
from one host to another but is not essential to the life
cycle of the parasite.
No parasitic development or reproduction occurs
developmental change of the pathogen
E.g. Plasmodium vivaxin Anopheles mosquitoes
2. Mechanical vector
An arthropod that transmits the infective organisms
from one host to another but is not essential to the life
cycle of the parasite.
No parasitic development or reproduction occurs
Other terminologies
Infective Stage : stage of the parasite that can invade
human body and continue to live there.
The infective stage of ascaridis the embryonatedegg.
Infective Route -the specific entrance through which the
parasite invades the human body.
Hookworms invade human body through skin.
Infective Stage : stage of the parasite that can invade
human body and continue to live there.
The infective stage of ascaridis the embryonatedegg.
Infective Route -the specific entrance through which the
parasite invades the human body.
Hookworms invade human body through skin.
Trophozoite-theactive,motilefeedingstageofan
apicomplexanparasite,andthemotilestageofflagellate
protozoa.E.g.Giardiaspp.
Cyst–Astageinthelifecycleofcertainparasites
(protozoan),duringwhichtheyareenvelopedina
protectivewall.
Itisusuallytheinfectivestage.Itsfunctionsareprotection,
transmissionandmultiplication.
apicomplexanparasite,andthemotilestageofflagellate
protozoa.E.g.Giardiaspp.
Cyst–Astageinthelifecycleofcertainparasites
(protozoan),duringwhichtheyareenvelopedina
protectivewall.
Itisusuallytheinfectivestage.Itsfunctionsareprotection,
transmissionandmultiplication.
1.6.2. Transmission of parasites
Three key links for parasitic disease transmission:
1. Source of infection
2. Mode of transmission
3.Susceptiblehost-apersonoranimallackingsufficientresistancetoa
particularpathogenicagenttopreventdiseaseiforwhenexposed
The sources of exposure could be:
1.Contaminated soil:
Soil polluted with human excreta is commonly
responsible for exposure to infection with
geohelminthes
Three key links for parasitic disease transmission:
1. Source of infection
2. Mode of transmission
3.Susceptiblehost-apersonoranimallackingsufficientresistancetoa
particularpathogenicagenttopreventdiseaseiforwhenexposed
The sources of exposure could be:
1.Contaminated soil:
Soil polluted with human excreta is commonly
responsible for exposure to infection with
geohelminthes
2.Contaminated water: which may contain
a.Cercarialstages of blood flukes,
b.Viable cysts of Amoeba, flagellates etc…
c.Cyclops containing larva of D. medinensis
d.Fresh water fishes which are sources for fish tape
worm, and intestinal flukes infection
e.Crab or crayfishes that are sources for lung fluke
f.Water plants which are sources for F. buski.
a.Cercarialstages of blood flukes,
b.Viable cysts of Amoeba, flagellates etc…
c.Cyclops containing larva of D. medinensis
d.Fresh water fishes which are sources for fish tape
worm, and intestinal flukes infection
e.Crab or crayfishes that are sources for lung fluke
f.Water plants which are sources for F. buski.
3. Raw orInsufficiently cooked meat of pork, beef and fish
•Trichinellaspiralis, Taenia species, D.latum.
4. Blood sucking arthropods:
Malaria –female anopheles mosquito,
Leishmania-sand flies
Trypanosoma–female tsetse fly
5. Animals (domestic or wild animals harboring the parasite)
Dogs-the hydatidcyst caused by E. granulosus
•Trichinellaspiralis, Taenia species, D.latum.
4. Blood sucking arthropods:
Malaria –female anopheles mosquito,
Leishmania-sand flies
Trypanosoma–female tsetse fly
5. Animals (domestic or wild animals harboring the parasite)
Dogs-the hydatidcyst caused by E. granulosus
6. Human beings:
A person, his/her clothing, bedding or the immediate
environment that he/she contaminated
Autoinfection: Spread of infection from one part of the
body to another with in a single host
It is used to describe a host which is both intermediate
and definitive without parasite transmission from other
animals
It may be particularly damaging due to the large number
of offspring the parasites produces.
E.g.S. stercoralis, E. vermicularis, andT. solium
A person, his/her clothing, bedding or the immediate
environment that he/she contaminated
Autoinfection: Spread of infection from one part of the
body to another with in a single host
It is used to describe a host which is both intermediate
and definitive without parasite transmission from other
animals
It may be particularly damaging due to the large number
of offspring the parasites produces.
E.g.S. stercoralis, E. vermicularis, andT. solium
1.6.2.1. Modes of Transmission
1. DirectmodeofTransmission:isimmediatetransfer
ofinfectiousagentsfromaninfectedhostorreservoirto
anappropriateportalofentry
Classified as:
I.Horizontal:Transmission is mainly effected through:
Feco-oral route: most intestinal parasites
Sexual intercourse
Direct skin penetration
1. DirectmodeofTransmission:isimmediatetransfer
ofinfectiousagentsfromaninfectedhostorreservoirto
anappropriateportalofentry
Classified as:
I.Horizontal:Transmission is mainly effected through:
Feco-oral route: most intestinal parasites
Sexual intercourse
Direct skin penetration
II . Vertical:transmission of the parasite is from the
mother to child through:
Congenital / transplacental
Transmammary(breast milk)
2.Indirect Mode of Transmission: is when the infectious agent is
conveyed by an arthropod or contaminated inanimate objects
It occurs, ifthe parasite:
Has complex life cycle,
Requires biological vectors and/or
One or more intermediate hosts
mother to child through:
Congenital / transplacental
Transmammary(breast milk)
2.Indirect Mode of Transmission: is when the infectious agent is
conveyed by an arthropod or contaminated inanimate objects
It occurs, ifthe parasite:
Has complex life cycle,
Requires biological vectors and/or
One or more intermediate hosts
1.6.2.2. Route of Transmission
isapathinwhichtheparasiteenterstothebodyofa
susceptiblehost
I. Alimentary tract -ingestion of infective stage of parasites:
In food, water or hands contaminated with faeces,
E.g. E. histolytica, E. vermicularis, etc.
In raw or undercooked meat,
E.g. T. saginata, T. solium, T. spiralis
In raw or undercooked fish, crab, or water vegetation E.g.
intestinal flukes
Water containing Cyclopee.g., D. medinensis
isapathinwhichtheparasiteenterstothebodyofa
susceptiblehost
I. Alimentary tract -ingestion of infective stage of parasites:
In food, water or hands contaminated with faeces,
E.g. E. histolytica, E. vermicularis, etc.
In raw or undercooked meat,
E.g. T. saginata, T. solium, T. spiralis
In raw or undercooked fish, crab, or water vegetation E.g.
intestinal flukes
Water containing Cyclopee.g., D. medinensis
II. Skin and mucous membranes
Skin penetration when in Contact with:
Faecallypolluted soil,
E.g. S.stercoralis, Hook worms
Water containing infective stages of the parasite
E.g. Cercariaof Schistosomespecies
Through Insect Bite,
E.g. Filarial worms, Trypanosomaspp., Plasmodium spp.
Skin penetration when in Contact with:
Faecallypolluted soil,
E.g. S.stercoralis, Hook worms
Water containing infective stages of the parasite
E.g. Cercariaof Schistosomespecies
Through Insect Bite,
E.g. Filarial worms, Trypanosomaspp., Plasmodium spp.
SexualContact
E.g. Trichomonas vaginalis
Kissing
E.g. Trichomonas gingivalis, T. tenax
III. Transmammary
E.g. S. stercoralis
IV. Respiratory tract-inhalation of contaminatedair
E.g. E. vermicularis,
V. Transplacental
E.g. T. gondii
E.g. Trichomonas vaginalis
Kissing
E.g. Trichomonas gingivalis, T. tenax
III. Transmammary
E.g. S. stercoralis
IV. Respiratory tract-inhalation of contaminatedair
E.g. E. vermicularis,
V. Transplacental
E.g. T. gondii
1.7. General Life Cycles of parasites
Describes the cycle of development of the parasite, which may involve
passing through a number of developmental stages & environment
Parasitic and non-parasitic stages may occur in the cycle
Phases:
Growth and maturation,
Reproduction (sexual and asexual) and
Transmission
All phases are vitally important for the successful survival of the
parasite.
Describes the cycle of development of the parasite, which may involve
passing through a number of developmental stages & environment
Parasitic and non-parasitic stages may occur in the cycle
Phases:
Growth and maturation,
Reproduction (sexual and asexual) and
Transmission
All phases are vitally important for the successful survival of the
parasite.
1.7.1. Simple or direct life cycle
Also called monoxenous(only one host is required
to complete its cycle)
The parasite often spends most of its life, usually
as an adult, and reproduces
Transmitted from one host to another through the
air, by a fomite, or in contaminated food or water.
Also called monoxenous(only one host is required
to complete its cycle)
The parasite often spends most of its life, usually
as an adult, and reproduces
Transmitted from one host to another through the
air, by a fomite, or in contaminated food or water.
1.7.2. Indirect life cycle
Also called heteroxenous (requires 2 or more
hosts to complete its life cycle)
Frequently this may involve passing through a
number of developmental stages & environment
Also called heteroxenous (requires 2 or more
hosts to complete its life cycle)
Frequently this may involve passing through a
number of developmental stages & environment
1.7.3.Why do we study life cycles?
Aparasite’slifecycleconsistsoftwocommon
phases
I.onephaseinvolvestherouteaparasitefollows
insidethebody.Thisinformationprovidesan
understandingofthe-
symptomatologyandpathology
themethodofdiagnosis
selectionofappropriatemedication
Aparasite’slifecycleconsistsoftwocommon
phases
I.onephaseinvolvestherouteaparasitefollows
insidethebody.Thisinformationprovidesan
understandingofthe-
symptomatologyandpathology
themethodofdiagnosis
selectionofappropriatemedication
II. The other phase, the route a parasite follows
outside of the body, provides crucial info
pertinent to
epidemiology,
prevention, and
control
outside of the body, provides crucial info
pertinent to
epidemiology,
prevention, and
control
Medical Parasitology
Medical Protozology
Phylum
Sarcomastigophora
Phylum Apicomplexa
Phylum Microsporidia
Phylum Ciliophora
Medical helminthology
Phylum Nematoda
Phylum Trematoda
Phylum Cestoda
Phylum
Methacanthocephala
Medical Arthropodology
Phylum Insecta
Phylum Crustacea
Phylum Arachnida
Phylum Chilopoda
Medical Protozology
Phylum
Sarcomastigophora
Phylum Apicomplexa
Phylum Microsporidia
Phylum Ciliophora
Medical helminthology
Phylum Nematoda
Phylum Trematoda
Phylum Cestoda
Phylum
Methacanthocephala
Medical Arthropodology
Phylum Insecta
Phylum Crustacea
Phylum Arachnida
Phylum Chilopoda
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