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General issues of Vaccine
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General issues of Tropical med.
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General issues of Travel med.
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Trematode (fluke, distoma)
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Learning resources
Pathogen and Taxonomy
- The genus Trichinella has genetically distinguished but taxonomically still undetermined genotypes other than usual species
- The biggest morphological classification is based on the presence/absence of collagen capsule surrounding the pathogen in cysts in infected muscles
Encapsulated
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Non-encapsulated
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Infect only mammals
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Infect birds and mammals
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- Trichinella spiralis
- Trichinella nativa
- Trichinella nelsoni
- Trichinella britovi
- Trichinella murrelli
- Trichinella patagoniensis
- Trichinella genotype T6
- Trichinella genotype T8
- Trichinella genotype T9
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- Trichinella pseudospiralis
- Trichinella papuae
- Trichinella zimbabwensis
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※Manson's Tropical Infectious Diseases 24th ed. (published in 2023) describes that T. spiralis has several subspecies but according to NCBI Taxonomy Browser and the following articles subspecies written in Manson's are classified as species.
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Pozio, E., Rosa, G. la, Murrell, K. D., & Lichtenfels, J. R. (1992). Taxonomic Revision of the Genus Trichinella. The Journal of Parasitology, 78(4), 654. https://doi.org/10.2307/3283540
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Epidemiology
- Since Trichinella infections often cause asymptomatic or mild disease and no serological tests with high performance is available, true epidemiology of human trichinellosis is thought still underestimated.
- Trichinellosis distributes worldwide from arctic region through the tropics.
- Human trichinellosis in developed countries has been dramatically decreased due to improvement of farming and slaughtering of domestic pigs and shrinkage of backyard pig farming in private facilities.
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Yayeh, M., Yadesa, G., Erara, M., Fantahun, S., Gebru, A., & Birhan, M. (2020). Epidemiology, diagnosis and public health importance of Trichinellosis. Journal of World’s Poultry Research, 10(3), 131–139. https://doi.org/10.36380/scil.2020.ojafr18
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Life cycle and Transmission
- Life cycle is maintained amongst host mammals and birds.
- Pigs and rats (domestic cycle) or wild bores, wild bears, polar bears, rats and birds (sylvatic cycle).
- Humans are accidental (deadend) hosts for Trichinella
- Only humans develop clinical symptoms by Trichinella infection
- Refer to DPDx - Trichinellosis
- Transmission to human occurs by ingestion of raw or undercooked meat including pigs, wild bores, horse, dog, bear, polar bear, badger and soft-shelled turtle (スッポン).
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Rostami, A., Gamble, H. R., Dupouy-Camet, J., Khazan, H., & Bruschi, F. (2017). Meat sources of infection for outbreaks of human trichinellosis. Food Microbiology, 64, 65–71. https://doi.org/10.1016/j.fm.2016.12.012
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- The world-first report of trichinellosis originated from soft-shelled turtle was published in Japan in 2009 (but only in Japanese and neglected from English literature).
Human disease
- Humans are accidental (deadend) hosts.
- Ingestion of larvae-infected meat
- Enteric phase
- In 2-7 days incubation, larvae penetrate duodenal and jejunal mucosa
- Nausea, vomitting, abdominal colic, fever
- Maculopapular skin rash and pneumonitis may accompany
- Migration (invasion) phase
- Larvae invade blood vessels and migrate toward striated muscle cells in diaphragm, masseters, intercostals, laryngeal, tongue and ocular muscles
- Severe myalgia, difficulty of mastication, difficulty of breathing, dysphagia, periorbital edema, paralysis of extremities, high fever, petechiae in nails and conjunctivae
- Eosinophilia arises but subsides in a week
- In some case myocardial complication, neurological complication occurs
- Encystment phase
- Weeks after infection, larvae encyst in striated muscles they arrived
- Cachexia, edema, extreme dehydration
- In 6 months calcification of cysts takes place
- Inside calcified cysts, 'nurse cells' which is transformed from normal striated muscle cells by larvae secretion encapsulate and nourish larvae
- Encapsulated larvae can survive months to decades in human muscles
- The larger number of larvae infect, the more severe symptoms are
- <10 larvae: asymptomatic to mild
- 50-500 larvae: moderate
- <1000 larvae: severe to fatal
Diagnosis
Case definitions by ECDC
Clinical
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Laboratory
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Epidemiological
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At least 3 of
- Fever
- Myalgia
- Gastrointestinal symptoms
- Facial edema
- Eosinophillia
- Subconjunctival, sublingual and retinal hemorrhage
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At least 1 of
- Trichinella larvae in muscle biopsy specimen
- Trichinella-specific antibody by ELISA or Western blot
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At least 1 of
- Ingestion of laboratory-confirmed contaminated meat
- Ingestion of potentially contaminated meat from laboratory-confirmed infected animal
- Epidemiological link to laboratory-confirmed human case with the common source
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Gottstein, B., Pozio, E., & Nöckler, K. (2009). Epidemiology, Diagnosis, Treatment, and Control of Trichinellosis. Clinical Microbiology Reviews, 22(1), 127–145. https://doi.org/10.1128/CMR.00026-08
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- Trichinoscopy
- Encystment phase begins 1 week after infection at the shortest
- Muscle biopsy specimen is thin-sliced and pressed between two slides without any stain and cysts are observed
- ELISA for antibody detection is common
- Multiplex PCR is also used
Differential diagnoses
- Trichinellosis is a great mimicker
- Typhoid, encephalitis, myositis, tetanus, Katayama syndrome, hookworm infection, strongyloidiasis, periarthritis nodosa, rheumatoid arthritis
Treatment
- Albendazole and mebendazole