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| == Introduction == | | == Introduction == |
| [[Image:Trematoda.jpg|thumb|right|150px|Trematoda - Courtesy of C. Hermosilla, Royal Veterinary College]] | | [[Image:Trematoda.jpg|thumb|right|150px|Trematoda - Courtesy of C. Hermosilla, Royal Veterinary College]] |
− | The trematodes are typically flat leaf-shaped worms. Two groups are of veterinary interest – the monogeneans and the digeneans. | + | The trematodes are typically flat, leaf-shaped worms. Two groups are of veterinary interest – the monogeneans and the digeneans. |
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| == Monogenean Trematodes == | | == Monogenean Trematodes == |
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| *They have a prominent attachment organ, the haptor | | *They have a prominent attachment organ, the haptor |
| *The life-cycle is direct | | *The life-cycle is direct |
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| == Digenean Trematodes == | | == Digenean Trematodes == |
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| [[Schistosoma]] | | [[Schistosoma]] |
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− | | + | *These are endoparasites with species parasitic to humans, domesticated and wild animals |
− | | + | *They have complex indirect life-cycles using molluscan intermediate hosts |
− | *These are endoparasites with species parasitic in humans, domesticated and wild animals. | |
− | *They have complex indirect life-cycles using molluscan intermediate hosts. | |
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| The most obvious external features of digenean trematodes are the ventral and oral suckers. The mouth leads from the latter to a muscular pharynx which pumps food into two blind-ending caecae. In some species, the caecae have multiple branches to increase surface area. Most species are hermaphrodite, but individuals cross-fertilise. | | The most obvious external features of digenean trematodes are the ventral and oral suckers. The mouth leads from the latter to a muscular pharynx which pumps food into two blind-ending caecae. In some species, the caecae have multiple branches to increase surface area. Most species are hermaphrodite, but individuals cross-fertilise. |
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− | Structure of tegument: | + | Structure of tegument |
− | *flukes are covered by a metabolically highly active tegument. | + | *Flukes are covered by a metabolically highly active tegument |
− | *tegumental cells in the sub-surface parenchyma donate cytoplasm to the surface syncitium. | + | *Tegumental cells in the sub-surface parenchyma donate cytoplasm to the surface syncitium |
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− | The tegument plays an important role in the evasion of host immunity. Different trematode species have evolved different strategies:
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− | *rapid turnover = sloughing of antibody and adhering host cells
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− | *molecular mimicry = host does not recognise parasite as foreign (e.g. Schistosoma)
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− | *release of immunomodulatory factors (e.g. lymphocyte responses in cattle chronically infected with Fasciola are TH-2 type = non-protective IgG1 response)
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− | *release of enzymes that cleave immunoglobulins (e.g. Fasciola)
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− | *antigenic variation (e.g. with Fasciola three types of tegumental cell contribute cytoplasm during different phases of the parasitic life-cycle, each presenting different antigens to the host).
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| + | The tegument plays an important role in the evasion of host immunity. Different trematode species have evolved different strategies |
| + | *Rapid turnover; sloughing of antibody and adhering host cells every 5-6 hours |
| + | *Molecular mimicry; host does not recognise parasite as foreign (e.g. ''Schistosoma'') |
| + | *Release of immunomodulatory factors (e.g. lymphocyte responses in cattle chronically infected with ''Fasciola'' are TH-2 type = non-protective IgG1 response) |
| + | *Release of enzymes that cleave immunoglobulins (e.g. ''Fasciola'') |
| + | *Antigenic variation (e.g. with ''Fasciola'', three types of tegumental cell contribute cytoplasm during different phases of the parasitic life-cycle, each presenting different antigens to the host) |
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− | === Life-Cycle Stages === | + | === Life-cycle stages === |
− | '''Egg''': the Fasciola egg is a large egg (twice the size of a standard strongyle egg). They are oval, brown with an operculum at one end. It is a relatively dense structure that will not float in saturated salt solution (used for routine egg-counts), so a flotation fluid with a higher specific gravity is required (e.g. ZnSO4). Better still, a sedimentation technique can be used. Initially, the egg is full of nutrient material. It need moisture and temperatures greater than 10 degrees Centigrade for the miracidium to develop inside the egg. | + | '''Egg''': the ''Fasciola'' egg is a large egg (twice the size of a standard strongyle egg). It is oval and brown with an operculum at one end. It is a relatively dense structure that will not float in saturated salt solution (used for routine egg-counts), so a flotation fluid with a higher specific gravity is required (e.g. ZnSO4). Better still, a sedimentation technique can be used. Initially, the egg is full of nutrient material. It need moisture and temperatures greater than 10 degrees Centigrade for the miracidium to develop inside the egg. |
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| '''Miracidium''': the first larval stage develops inside the egg. It has two light sensitive spots and will only hatch out of the egg if the light intensity is correct and the egg is covered with a film of water. After hatching, it has to find the molluscan intermediate host. It is therefore covered with cilia for locomotion. When penetrating the snail, it releases proteases. | | '''Miracidium''': the first larval stage develops inside the egg. It has two light sensitive spots and will only hatch out of the egg if the light intensity is correct and the egg is covered with a film of water. After hatching, it has to find the molluscan intermediate host. It is therefore covered with cilia for locomotion. When penetrating the snail, it releases proteases. |