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VictoriousHarpy567

Uploaded by VictoriousHarpy567

Kafr El Sheikh University

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parasitology biology parasite infection

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These lecture notes cover the fundamentals of parasitology, defining parasites, mutualism, and various parasite classifications based on habitat and life cycle. The document also details host categories and vector transmission mechanisms, along with infection stages and related conditions. The information is presented in a clear and organized manner.

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# Parasitology - area of biology concerned with the phenomenon of dependence of one living organism on another ## What is a parasite? - a pathogen that simultaneously injures and derives sustenance from its host - some parasites are commensals neither benefit nor harm their host - for example...

# Parasitology - area of biology concerned with the phenomenon of dependence of one living organism on another ## What is a parasite? - a pathogen that simultaneously injures and derives sustenance from its host - some parasites are commensals neither benefit nor harm their host - for example: *Entamoeba coli* # Mutualism - a symbiosis in which 2 organisms mutually benefit from each other - e.g. termites and flagellates in their digestive system, which synthesize cellulose to aid in breakdown of ingested wood. # Parasitism - a symbiotic relationship where one organism (the parasite), lives in or on another (the host), depending on the latter for its survival and usually at the expense of the host - e.g. *Entamoeba histolytica* derives nutrition from the human host and causes amebic dysentry # Classification of Parasites ## According to habitat or mode of development: - **Endoparasite**: a parasite living inside the body of a host; presence of an endoparasite in a host is called an infection - **Ectoparasite**: a parasite living outside the body of a host; presence of an ectoparasite inside the host is called an infestation. ## According to the life cycle: - **Obligate parasites** need a host at some stage of their life cycle to complete third development and to propagate their species - e.g. tapeworms depend entirely upon their host for existence - **Facultative parasite**: may exist in a free living state or may become parasitic when the need arises - e.g. leeches feed on blood on their hosts but when released in aquatic environment survive as free living organisms - **Accidental or Incidental parasite**: establishes itself in a host where it does not ordinarily live - e.g. Diplydiasis in humans is accidental - **Permanent parasite**: remains on or in the body of the host for its entire life cycle - e.g. Most roundworms are permanent parasites and live their entire adult lives in their hosts. - **Temporary parasite**: lives on the host only for a short period - e.g. ticks, flea and mites - **Spurious parasite**: a free-living organisms has passes through the digestive tract without infecting the host - e.g. Isosopora # Host - classified based on their role in the life cycle of parasite - **Definitive or final host**: one in which the parasite attains sexual maturity - e.g. humans are the definitive host in taeniasis. - **Intermediate host**: harbors the asexual or larval stage of the parasite - e.g. Pigs or cattle as intermediate hosts of *Taenia spp*, while snails are hosts of *Schistosoma spp.* - **Paratenic host**: one in which the parasite does not develop further to later stages. However, the parasite remains alive and is able to infect another susceptible host. - e.g. *Paragonimus* metacercariae in raw wild boar meat can pass through the intestinal wall of humans and complete its development. - **Reservoir hosts**: allow parasite's life cycle to continue and become additional sources of human infection - e.g. pigs are reservoirs of *Balantidium coli* # Vectors - responsible for transmitting the parasite from one host to another. - It could be classified into: - **Biologic Vector**: transmits the parasite only after the latter has completed its development within the host - e.g. *Aedes* sucks blood form a patient with fliariasis, the parasite undergoes several stages of development from the first stage larva to 3rd stage larva before it is transmitted to another susceptible host. - **Mechanical vector**: transports the parasite without changes - e.g. flies and cockroaches that feed on fecal material may carry enteric organisms and transfer these to food. # Carrier - harbors a pathogen without manifesting any signs and symptoms # Exposure - process of inoculating an infective agent # Infection - connotes the establishment of the infecting agent in the host # Incubation period (clinical incubation period) - Period between infection and evidence of symptoms # Pre-patent period (biologic incubation period) - Period between acquisition of this parasite and evidence or demonstration of infection. # Autoinfection - When an infected individual becomes his own direct source of infection. - e.g. enterobiasis: infective eggs end up in the hands by scratching the perianal area where the gravid females lay their eggs. - As seen in the life cycles of *E. vermicularis*, *Hymenolipsis nana* and *Strongyloides stercoralis* # Superinfection or Hyperinfection - when the already infected individual is further infected with the same species leading to massive infection - alteration in the normal life cycle of *Strongyloides* results in a large increase in worm burden, severe debilitation and death. # Sources of Infection 1. Contaminated soil and water. - Most common lack of sanitary toilets & the use of human and animal excreta as fertilizer favor infection with ascaris, hookworm. - Water contaminated with cysts of amoebae or flagellates as well as cercariae of *Schistosoma*. 2. Food. - Food may contain the infective stage of the parasite. 3. Arthropods - e.g. mosquitoes as vectors of malaria and filaria parasites. 4. Other animals - (wild or domesticated) may harbor the parasite: e.g. cats are direct sources of *Toxoplasma* infection # Modes of Transmission 1. Mouth - The mouth is the most likely portal of entry for most cestodes, trematodes and protozoans are foodborne. 2. Skin Penetration - e.g. hookworms and *Stronglyoides* 3. Arthropods - As vectors, they transmit parasites through bites. For example: malaria, filarial, leishmaniasis and trypanosomaiasis 4. Congenital Transmission - *Toxoplasma gondii* trophozoites can cross the placenta. 5. Transmammmary Infection - Infection with *Ancylostoma* and *Strongyloides*. The parasite maybe transmitted through the mother's milk. 6. Inhalation - Inhalation of airborne eggs of *Enetorbius*. 7. Sexual Intercourse - For example: *Trichomonas vaginalis*. # Parasitic Infections ## Multicellular Metazoan: - **Helminthes:** - Leeches - Round worms (*Nemathelminthes*) - Flat worms (*Platyhelminthes*) - Flukes (*Trematodes*) - Monogenetic - Digenetic - Tape worms (*Cestodes*) - Eucetsoda - Cotyloda ## Unicellular Protozoan: # Introduction - All animal organisms are related to one another, closely or remotely, and the study of the complex systems of inter-relationship is called systematics. - As an instance, the taxonomic status of one of the common abomasal parasites of ruminants may be expressed as shown below: | Feature | Description | | --------------- | -------------------- | | Kingdom | Animalia | | Phylum | *Nemathelminthes* | | Class | *Nematoda* | | Order | *Strongylida* | | Suborder | *Strongylina* | | Superfamily | *Trichostrongyloidea* | | Family | *Trichostrongyloidae* | | Subfamily | *Haemonchinae* | | Genus | *Haemonchus* | | Species | *contortus* | - Three phyla will be discussed: *Platyhelminths* (flatworms), *Nemathelminthes* (round worms) and *Acanthocephala* (thorny-headed worms). # Platyhelminthes - This phylum contains 2 classes of parasitic flatworms - the *Trematoda* and the *Cestoda*. ## Class: Trematoda (Flukes) - The class *Trematoda* falls into two main subclasses - the *Monogenea*, which have a direct life cycle, and the *Digenea*, which require an intermediate host. - The adult digenetic trematodes, commonly called 'flukes', occur primarily in the bile ducts, alimentary tract and vascular system. - Most flukes are flattened dorsoventrally. have a blind alimentary tract, have usually 2 suckers, for attachment and are hermaphrodite. - Depending on the predilection site, the eggs pass out of the final host usually in feces or urine, and the larval stage develop in the intermediate host "**snail**". - For a few species, a second intermediate host is involved, but the mollusc "**snail**" is essential for all members of the group. # Digenea Structure and Function - The adult possesses two suckers for attachment. - The oral sucker at the anterior end surrounds the mouth and the ventral, as the name indicates, is on that surface. - The body surface is a tegument which is absorptive and is often covered with spines. - The muscles lie immediately below the tegument. - There is no body cavity and the organs are packed in a parenchyma. - The digestive system is simple, the oral opening leading into a pharynx, oesophagus and a pair of branched intestinal caeca which end blindly. - The excretory system consists of a large number of ciliated flame cells, which impel waste metabolic products along a system of tubules which ultimately join and open to the exterior. - The nervous system is simple, consisting of a pair of longitudinal trunks connecting anteriorly with two ganglia. # External Fluke Structure - Diagram of external fluke structure. Labels include: **oral sucker**, **cephalic cone**, **papilla on cuticle**, **genital papilla**, **genital pore**, **genital sucker**, **genital calyx**, **ventral sucker**, **ventral surface**, **spines on cuticle**, **cuticle**, **excretory pore**. - Diagram of fluke reproductive system with labels including: **gynecophoric canal**, **oral sucker**, **acetabulum**. # Internal Fluke Structure - Diagram of fluke internal anatomy with labels including: **oral sucker**, **pharynx**, **oesophagus**, **genital pore**, **gonopore**, **cirrus gland**, **cirrus pouch**, **ejaculatory duct**, **pars muscularis, **genital atrium**, **pars prostatica**, **seriaal vesicle**, **retrator**, **cirrus sac**, **vas deferens**, **uterus**, **vitellaria**, **lateral diverticulum**, **ovary**, **vitelling duct**, **seminal receptacle**, **laurer's canal**, **ootype**, **mehlis gland**, **excretory system**, **excretory vesicle**, **testes**, **excretory bladder**, **excretory pore**, **caeca**. # Digestive System of a Fluke - Diagram of fluke digestive system with labels including: **oral sucker (mouth)**, **pharynx**, **digestive caeca - straight**, **digestive caeca - undulatiing**, **digestive caeca - branched**. # Reproductive System of a Fluke - **Male:** - Diagram of the male fluke reproductive system with labels including: **genital opening**, **genital atrium**, **cirrus pouch**, **cirrus**, **seminal vesicle**, **vas deferens**, **vas efferens**, **testes**. - Diagram of the male fluke reproductive system with labels for **shape** including: **individual testes**, **oval**, **lobate**, **dendritic**. - Diagram of the male fluke reproductive system with labels for **position** including: **tander**, **oblique**, **para**. - **Female:** - Diagram of the female fluke reproductive system with labels including: **genital atrium**, **egg**, **uterus**, **mehlis glands**, **ootype**, **vitelline duct**, **laurer's canal**, **seminal receptacle**, **ovary**, **vitellaria**. - Diagram of the female fluke reproductive system with labels including **male system joing**. # Schistosoma - Diagram of *Schistosoma* reproductive system with labels including: **oral sucker**, **pharynx**, **oesophagus**, **genital pore**, **cirrus**, **cirrus sac**, **ejaculatory duct**, **pars muscularis**, **pars prostatica**, **seriaal vesicle**, **vas deferens**, **uterus**, **vitellaria**, **ovary**, **laurer's canal**, **mehlis gland**, **ootype**, **vitelline duct**, **seminal receptacle**. # *Fasciola hepatica* Life Cycle - Diagram of *Fasciola hepatica* life cycle with labels including: **adult in biliary passages**, **egg in faeces (yolk mass)**, **deposited in water**, **9 to 15 days development in water**, **miracidium - free**, **penetrates liver**, **burrows through intestinal wall**, **ingested by host**, **metacercaria on water plants - bark or free floating**, **cercaria swarming - seasonal (Aug. and Ser.)**, **enters snail - Lymnaea truncatula, Lymnaea spp.**, **larval stages - 32-54 days - sporocyst, mother - redia, daughter redia, cercaria - temperature dependent.** # Veterinary Parasitology - Hand drawn diagrams of: - **Schistosoma** with labels "Schistosoma" - **Dicrocoelium** with labels "DicroGleum" - **Parempiotium/Fasciola** with labels "Parempliotiseum/Fasciolar" - **Leptocercus Cercaria** with labels "Leptocercus Cercarica" - **Cpijmatata** (or **Cavavinin**) with labels "Cpijmatata (or Cavavinin)" - **Heterophys Lophdec Cercaria** with labels "Heterophyl Lophdec Cercaria" - **Echinastoma Cercaria** with labels "Echinastoma Cercaria" # Lymnaea truncatula/Fasciola hepatica - Hand drawn diagrams of: - **Lymnaea L. trunctanta** with labels "Lymnea L. trunctanta" - **Canilder** with labels "Canilder" - **Chepatics stagnalis (gigantic)** with labels "Chepatics stagnalis (gigantic)" - **Dicro Gleum** with labels "Dicro Gleum" - **Cpijmatata** (or **Cavavinin**) with labels "Cpijmatata (or Cavavinin)" - **Heterophyl Lophdec Cercaria** with labels "Heterophyl Lophdec Cercaria" - Text includes: - "Parasitism" - "Commensalism" - "Symbiosis"

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