Parasitology Nutrition PDF

Summary

This document is a lecture on parasitology, covering the basic concepts of parasites, their relationships with hosts, transmission, and impact on nutrition

Full Transcript

MICRO 205 Microbiology &
Parasitology

Medical
Parasitology

Dr. Elfadil Abass
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 Module Objectives
Recognize the basic concept of human parasites and parasitic
diseases
Describe different types of parasites transmitted through food
and their related diseases.

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 What is parasitology?
– The study of parasites and their relationships to their hosts
What is parasite?
– An organism (can be microorganism) that lives within or on
another organism called the host (human, animals, …)
– Parasitology has traditionally been limited to parasitic
protozoa, helminths (worms) and arthropods (medical
insects).

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Impact of Intestinal Parasitic Infections
Intestinal parasitic infections impact the nutrition
Undernutrition predispose individuals to parasitic infection
– Adult worms reside in the small intestine and interfere
with host nutrition and can induce damage to the
intestinal mucosa that may reduce a person’s ability to
absorb nutrients
– The most significant cause of nutritional stress resulting
from helminth infection is hookworm associated iron-
deficiency anemia.

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 Host-parasite relationship
(1) Commensalism
– In which the commensal (organism) feeds on substances
ingested by the host
– An association between two organisms in which one
benefits and the other neither benefit nor harm
Entamoeba coli is a non-pathogenic species of
Entamoeba that frequently exists as a commensal
parasite in the human gastrointestinal tract.

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 Host-parasite relationship
(2) Mutualism
– Is an association in which the mutualist (organism) and the
host depend on each other physiologically
Describes the ecological interaction between two or
more species where each species has a benefit
Give and take (both benefit)

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 Host-parasite relationship
(2) Mutualism
– An alligator and birds relationship is mutualism
– The alligator gets its teeth cleaned by the bird
– The bird gets its food from the alligators' teeth.

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 Host-parasite relationship
(3) Parasitism
– Is type of relationship between two organisms
– One organism (the parasite) benefit, while the other (the
host) suffers (i.e causes a disease)
– The parasite is physiologically dependent- the relationship
may be permanent or temporary:
Obligatory parasites (ALWAYS) are physiologically
dependent upon the hosts- can’t survive isolated from
them (Trichomonas vaginalis, Nectar americanus)
Facultative parasites (SOME TIME) are free-living
parasites that can be parasitic (Naegleria fowleri).
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 Host-parasite relationship
(3) Parasitism
– Parasitism usually involves (unlike
commensalism and mutualism), in addition
to the physiologic dependency of the
parasite, immunological responses by the
host
– The host typically responds to the presence
of the parasite is the production of
antibodies.

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 Host-parasite relationship
(3) Parasitism
– Major types of parasites are classified according
to location into endoparasites and ectoparasites
– Endoparasites:
Live within the body of the host (alimentary
tract, liver, lungs, urinary bladder, blood)
– Malarial parasites (Plasmodium spp)
– Sleeping sickness parasites (Trypanosoma
spp), have infective stages in the host's
blood which are transported to new hosts
by biting insects.
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 Host-parasite relationship
(3) Parasitism
– Ectoparasites:
Are attached to the outer surface of the host or are
superficially embedded in the body surface
– Such as bed bug, ticks, and lice
– Ectoparasites are associated with poor hygiene.

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 Host-parasite relationship
Host classification:
– The host may be classified according to its role to:
(1) Definitive host, a host wherein the parasite reaches
its sexual maturity (sexual form of life cycle occur)
– Mosquitoe is the definitive host for malaria
– Human is the definitive host for taeniasis
(2) Intermediate host, if it serves as a temporary, but
essential, environment for the development of the
parasite
– Human is the intermediate host for malaria
– Pigs and cattles are the intermediate hosts for
taeniasis. 12
 Host-parasite relationship
Host classification:
(3) Transfer host (mechanical vector), if it is not
necessary for the completion of the parasite’s life
cycle but is utilized as a temporary vehicle for
reaching a host
House flies (Musca domestica) are
transport hosts for a variety of
protozoan parasites in addition to
viral and bacterial pathogens
Cockroaches act as mechanical
vectors for various enteric parasites.

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 Host-parasite relationship
The vector?
– Is an arthropod or invertebrate that serves as a host and as
a carrier for a parasite
The vector is essential for completion of the life cycle
(unlike the transfer host)
The term is used to describe arthropods that transmit a
parasite to the human or vertebrate host:
– Mosquitoes are the vectors for malaria parasites
and transmit the organisms to humans
– Sand flies are the vectors for leishmaniasis
– Tsetse flies are the vectors for African
trypanosomiasis. 14
 Host-parasite relationship
The reservoir host?
– Infected animals that serve as sources of infective
organisms for humans are known as reservoir hosts
– Rodents are reservoir hosts for leishmaniasis.

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 Classification of medically important
parasites
The causative agents of parasitic diseases of
humans include:
Protozoa (uni-cellular)

Flatworms (Trematodes and Cestodes)

Roundworms (Nematodes)

Arthropods (insects, ticks, and lice).
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 Classification of medically important
parasites
Protozoology:
– Study of protozoa, unicellular eukaryotic microorganisms
Helminthology:
– Study of parasitic helminthes (worms) including
multicellular parasites with organs (known as metazoa)
Entomology:
– Study of arthropods (insects).

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 Transmission of Parasitic Diseases
Food- foodborne parasites
Water- water-borne parasites
Animals- zoonotic parasites
Blood, blood-borne parasites
Insects, vector-borne parasites
Congenital.

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 Transmission of Parasitic Diseases
Food:
– Numerous parasites can be transmitted by food including
many protozoa and helminths
– Some most common foodborne parasites are:
1. Protozoa:
Giardia intestinalis, Entamoeba histolytica, Toxoplasma
gondii, Cryptosporidium spp.,
2. Nematodes:
Ascaris lumbricoides, Enterobius vermicularis, Trichuris
trichiura
3. Cestodes:
Taenia spp, Hymenolepis nana. 20
 Transmission of Parasitic Diseases
Food:
– Many of food-borne parasites can also be transmitted by
water, soil, or person-to-person contact
– Foods include:
1. undercooked seafood- fish, crabs
2. undercooked meat
3. raw vegetables that have been contaminated by
human or animal feces
– Some foods are contaminated by food service workers
who practice poor hygiene or who work in unsanitary
facilities.
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 Transmission of Parasitic Diseases
Food:
– Symptoms of foodborne parasitic infections vary greatly
depending on the type of parasites:
Abdominal pain, diarrhoea
Muscle pain, cough, skin lesions
Malnutrition, weight loss
Neurological symptoms
Other symptoms depending on the particular organism
and burden of infection.

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 Transmission of Parasitic Diseases
Water:
– Water can become contaminated by parasites and can
cause a variety of illnesses
– Common water-borne parasitic diseases include:
Amebiasis
Giardiasis
Schistosomiasis
Guinea worm disease
Cryptosporidiosis (Crypto)
– People become infected when they swallow
– Have contact with water that has been contaminated by
certain parasites. 23
 Transmission of Parasitic Diseases
Water:
– Amebiasis:
Drinking water contains with fecal materials containing
Entamoeba histolytica
– Guinea worm disease:
Drinking water contains Dracunculus medinensis
When infected person with an open Guinea worm
wound enters water used for drinking, they can spread
the parasite into the water and continue the cycle
– Schistosomiasis:
Swimming in water that are contaminated
with Schistosoma spp. 24
 Transmission of Parasitic Diseases
Animals (zoonotic):
– Animals can carry parasites and pass parasites to people
– A zoonotic disease:
Is a disease spread between animals and people
(viruses, bacteria, parasites, fungi)
Foods can be the source for some zoonotic infection
when animals such as cows and pigs are infected with
parasites (Taenia spp, Trichinella spiralis).

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 Transmission of Parasitic Diseases
Blood:
– Some parasites can be blood-borne!
1. The parasite can be found in the bloodstream of
infected people
2. The parasite might be spread to other people through
exposure to an infected person’s blood:
– Blood transfusion
– Sharing needles or syringes contaminated with
blood.

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 Transmission of Parasitic Diseases
Blood:
– Blood blood-borne diseases include:
African trypanosomiasis (tsetse fly)
Chagas disease (American trypanosomiasis) (bug)
Malaria (mosquito)
Babesiosis (tick)
Leishmaniasis (sand fly)
Toxoplasmosis (contaminated food)
– Many blood-borne parasites are spread by
insects (vectors), so they are also referred to as vector-
borne diseases.
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 Transmission of Parasitic Diseases
Blood transfusions:
– Factors affect whether parasites that can be found in the
bloodstream might be spread by blood transfusion:
1. how many parasites might be found in the blood (the
concentration or level of the parasite- parasitaemia)
2. how long the parasite stays in the body, in treated
and untreated people (time)
3. how the parasite affects people (symptomatic vs
asymptomatic). For example, if infected people feel
sick, they might not want to donate blood or they
might be deferred.

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 Transmission of Parasitic Diseases
Blood transfusions:
– Some parasites spend most or all of their life cycle in the
bloodstream, such as Babesia and Plasmodium species
– Parasites, such as Trypanosoma cruzi, might be found in
the blood early in an infection (acute phase) and then at
much lower levels later (chronic phase of infection)
– Other parasites only migrate (travel) through the blood to
get to another part of the body
… this infection has very low risk to be transmitted
compared with the number of blood transfusions.

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 Transmission of Parasitic Diseases
Blood transfusions:
Blood Donor Screening
– Potential blood donors are asked about:
History of infection
Recent international travel
– People who travelled to malaria endemic areas are
deferred from donating blood (former residents of
malaria-areas should will be deferred for 3 years. People
diagnosed with malaria shouldn’t donate blood for 3
years after treatment)
In Saudi Arabia, donated blood is tested for a number
of infectious agents, including malaria.
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 Transmission of Parasitic Diseases
Insects:
– An insect that transmits a disease is known as a vector
– The disease is referred to as a vector-borne disease
– Insects can act as:
Transfer host (mechanical vectors):
– The insect can carry an organism but the insect is
not essential to the life cycle, such as house flies
carry organisms on their bodies
Obligatory hosts:
– Where the disease-causing organism must undergo
development before being transmitted, such as
mosquito. 31
 Transmission of Parasitic Diseases

Disease Parasite Insect (vector)
African Trypanosoma brucei Tsetse flies
trypanosomiasis gambiense
(sleeping sickness) Trypanosoma brucei
rhodesiense
Chagas disease Trypanosoma cruzi Triatomine (“kissing”)
bugs
Babesiosis Babesia microti and Babesia microti: ticks
other species
Leishmaniasis Leishmania species Phlebotomine sand flies
Malaria Plasmodium species Anopheles mosquitoes
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 Transmission of Parasitic Diseases
Congenital:
What is congenital transmission?
– Congenital infections are infections transmitted from
mother to child during pregnancy (transplacentally) or
vaginal delivery
– They have the potential to adversely affect fetal
development and long-term neurodevelopmental outcome
What parasites can be transmitted congenitally?
– Toxoplasma gondii
– Trypanosoma cruzi
– Plasmodium spp.
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 Assignment:
Foodborne parasites and nutrition
Aim:
– Explore the interconnections between foodborne parasites
and nutrition
– Understand the role of parasites in food safety and how
they contribute to malnutrition, especially in vulnerable
populations.

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 Assignment:
Foodborne parasites and nutrition
Objectives:
– Identify common foodborne parasites and explain their
transmission routes
– Analyze the nutritional challenges caused by parasitic
infections
– Explore prevention strategies, including public health
interventions and food safety practices
– Evaluate the role of nutrition in building immunity against
parasitic infections.

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 Assignment:
Foodborne parasites and nutrition
Topics:
1. How do foodborne parasites contribute to malnutrition in
affected populations?
2. Why are populations with poor sanitation and food
insecurity more vulnerable to food-borne parasitic
infections?
3. How do foodborne parasitic infections affect specific
nutrients, and what are the long-term consequences?
4. What strategies can be implemented to reduce the
incidence of foodborne parasitic infections, especially in
malnourished communities?
5. What role do climate change and globalization play in
spread of foodborne parasites & their nutritional impact?. 36
 Assignment:
Foodborne parasites and nutrition
Structure:
– Introduction: Introduce foodborne parasites and their
relevance to nutrition
– Main Body: Provide evidence-based discussions on the
chosen topic, supported by research
– Conclusion: Summarize your findings and offer
recommendations for further research or public health
interventions
– References: Cite at least 5 credible sources (peer-reviewed
journals, books, or reputable websites)
Length: not less than 2,000 words, excluding front page
Formatting: Use APA citation style, 12-point Times New Roman,
and double-spacing. Deadline: ?? 37