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Introduction to Parasitic Protozoa

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Title: Introduction to Parasitic Protozoa


1
Introduction to Parasitic Protozoa
  • Not classified under Kingdom Animalia but under
    Kingdom Protista
  • Main feature is they are unicellular eukaryotes
  • First described some 300 years ago by
    Leeuwenhoek when he described Giardia from his
    own intestine.

2
Classification
  • See Classification beginning on page 49
  • Subject to much variation
  • Four major types of organisms I will discuss
  • Flagellated protozoa - Mastigophora
  • Amoeba - Sarcodina
  • Ciliated protozoa - Ciliophora
  • Apicomplexa (sporozoans)

3
Organelles of Locomotion of Mastigophorans
  • Flagella

4
Organelles of Locomotion of Mastigophorans
  • Flagella

5
Gardia lamblia trophozoite
6
Microstructure of Cilium9 2 configuration
7
Sarcodina have Pseudopoda
8
Types of Nutrition
  • Autotrophic Holophytic or photosynthetic
  • Zooxanthellae which are found in many Cnidaria
    and other invertebrates are the best examples of
    these symbiots.
  • Heterotrophic
  • Holozoic nutrition
  • Saprozoic nutrition

9
Reproduction in the Protozoa
  • Asexual reproduction
  • Binary fission
  • Multiple fission, merogony or schizogony (also
    sporogony)
  • Budding

10
Reproduction in the Protozoa
  • Sexual reproduction
  • Gametogony
  • Syngamy
  • Isogametes
  • Anisogametes Macrogametes -
    Microgametes -
  • Conjugation

11
Trophozoite or Vegetative Stage
  • Entamoeba Giardia lamblia

12
Encystment
  • Entamoeba Giardia lamblia

13
Protozoa Overview
  • Belong to Kingdom Protista
  • Unicellular
  • Eukaryotic
  • Some very important parasites

14
Family Trypanosomatidae
  • Heteroxenous - most members have two phases in
    the life cycle
  • first phase, they live in the blood or tissues of
    some vertebrate (often called hemoflagellates)
  • second phase is found in the gut of some blood
    sucking invertebrate
  • (monoxenous) - have a single host

15
Forms found in Trypanosomatidae
16
Trypanosomatidae forms
17
Forms found in Trypanosomatidae
18
Genus Trypanosoma
  • most important flagellates
  • divided into two broad sections based upon
    development in the invertebrate host
  • Salivaria - (anterior station development) These
    accomodate transmission to vertebrate host during
    the blood meal of the arthropod.
  • Stercoraria Posterior section development.
    Transmission occurs through fecal contamination

19
Trypanosoma brucei complex
  • Salivaria
  • pleomorphic
  • Vectors are members of the Tsetse fly (genus
    Glossina
  • Live in the blood, lymph nodes and spleen, and
    cerebrospinal fluid of the vertebrate host

20
Glossina
21
Trypanosoma brucei complex
  • Live in the blood, lymph nodes and spleen, and
    cerebrospinal fluid of the vertebrate host
  • Trypanosoma brucei brucei parasite of antelopes
    and other African ruminants
  • pathogenic to domestic ruminants causes nagana a
    type of sleeping sickness in animals

22
Trypanosoma brucei gambiense.
  • chronic form of African Sleeping Sickness
  • west central and central Africa
  • vectors include Glossina palpalis and G.
    tachinoides
  • Game animals are not reservoir hosts.

23
Trypanosoma brucei rhodiense
  • acute form of African Sleeping Sickness
  • east central and central Africa
  • Glossina morsitans, G. pallidipes, and G.
    swynnertoni are the most important vectors
  • Wild game animals are believed to serve as
    reservoir hosts.

24
Pathology
  • T. gambiense invades the central nervous system
    initiating a chronic, sleeping-sickness.
  • apathy, mental dullness, tremor of hands, tongue,
    etc. followed by convulsions and paralysis.
  • Sleeping follows with coma and death common.

25
Pathology
  • T. rhodiense does not attack the nervous system.
  • causes a more rapid death
  • rapid weight loss, heart involvement, and death
    can occur within a few months.
  • Winterbottom's sign

26
Diagnosis and Treatment
  • Finding parasites in blood, bone marrow, or
    cerebrospinal fluid is diagnostic
  • Winterbottoms sign
  • Today the drug of choice is difluoromethylorithine
    (DFMO).

27
Epidemiology and Control
  • attempts to control the tsetse fly vectors.
  • Vectors of T. brucie and T. rhodiense occur in
    open country, pupating in dry, soil
  • vectors of T. gambiense are riverine flies
    breeding in shady, mosit areas along rivers.
  • Tsetse flies are larviparous
  • Brush removal is effective (febble flyers) but
    must be maintained.

28
Glossina breeding habitat
29
Cleared Strips to Control Trypanosoma gambiense
30
Epidemiology and Control
  • Chemical spraying with insecticides
  • Elimination of wild game animals .
  • selective breeding of cattle

31
Other Salivarian Trypanosomes
  • T. evansi Causes a disease in horses, camels,
    elephants, dogs, and other mammals called surra.
    Nearly 100 fatality to dogs and elephants if
    untreated
  • can be mechanically transmitted by horseflies
  • T. equiperdum no arthropod host. Veneral
    transmission, it causes dourine in horses.

32
Stercoraria Trypanosomes
  • Trypanosoma cruzi
  • Chagus discovered the organism in 1910
  • Infects cone-nosed bugs belonging to the family
    Reduviidae
  • Causes Chagus disease in humans
  • Distributed throughout Central and South America
    and infects over 19 million people

33
Vectors of Trypanosoma cruzi
34
Transmission
  • Reduviid bugs usually defecate when they feed
  • Feces contains the infective metacyclic
    trypanosomes.
  • These enter the host body when the bite is
    scratched or mucous membranes
  • enter a reticuloendothelial cell of the spleen or
    liver

35
Transmission
  • Become amasitgote forms and undergo rapid
    division. Cyst-like pockets of the amastigotes
    called pseudocyts are formed.
  • Amastigotes complete development and enter the
    blood where they are infective to the insect
    vector
  • Infective metacyclid trypomastigotes appear in
    the feces within 8 - 10 days.

36
Pathogenesis of Chagus Disease
  • Acute phase - most common in children under 5
    years
  • Romana's sign
  • Pseudocysts can form in almost any tissue Heart
    muscle ganglion cells are very susceptible and up
    to 80 of them may be destroyed.
  • Death may occur within 3-4 weeks after infection.

37
Romanas sign
38
Pathogenesis of Chagus Disease
  • Chronic stage is most often seen in adults.
  • May last many years damaging heart muscle
    ganglion cells.
  • In endemic areas, the disease may accont for 70
    of the cardiac deaths.
  • megaesophagus or megacolon

39
Pseudocyst of T. cruzi in heart
40
Epidemiology
  • Reduviidae bugs are the most important link to
    human transmission
  • wild mammals may serve as reservoir hosts, dogs
    and cats are more important reservoirs for human
    disease.

41
Epidemiology
  • Transmission can also occur through blood
    transfusions, contaminated needles,
    transplacental transmission and ? Breast milk
  • Thatcched roofs and cracked walls are ideal
    breeding and hiding places for the bugs

42
Diagnosis and Treatment
  • Presence in the blood, cerebrospinal fluid, fixed
    tissues or lymph
  • Xenodiagnosis is where laboratory reared bugs are
    allowed to feed on patients and then after a
    period of time they are examined for flagellates.
  • Complement fixation and other immunodiagnostic
    tests
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