Development of different diagnostic techniques for Endolimax piscium (archamoebae) and their applicability in Solea senegalensis clinical samples

Development of different diagnostic techniques for Endolimax piscium (archamoebae) and their applicability in Solea senegalensis clinical samples

Systemic amoebiasis of sole is caused by Endolimax piscium, a cryptic parasitic archamoeba whose epidemiology and pathogeny are yet unknown. To establish reliable detection methods for this parasite, a battery of molecular diagnostic tools (ISH, PCR and qPCR) were developed and evaluated with a pane...

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Veröffentlicht in:Journal of fish diseases 2016-12, Vol.39 (12), p.1433-1443
Hauptverfasser: Constenla, M, Padrós, F, del Pozo, R, Palenzuela, O
Format: Artikel
Sprache:eng
Schlagworte:
Amebiasis - diagnosis
Amebiasis - parasitology
Amebiasis - veterinary
Animals
diagnostic tools
Endolimax
Endolimax - isolation & purification
Endolimax piscium
Fish Diseases - diagnosis
Fish Diseases - parasitology
Flatfishes
Intestines - parasitology
in situ hybridization
PCR
Sensitivity and Specificity
Solea senegalensis
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container_end_page 1443
container_issue 12
container_start_page 1433
container_title Journal of fish diseases
container_volume 39
creator Constenla, M
Padrós, F
del Pozo, R
Palenzuela, O
description Systemic amoebiasis of sole is caused by Endolimax piscium, a cryptic parasitic archamoeba whose epidemiology and pathogeny are yet unknown. To establish reliable detection methods for this parasite, a battery of molecular diagnostic tools (ISH, PCR and qPCR) were developed and evaluated with a panel of clinical samples from symptomatic diseased fish and from apparently normal animals of different stocks. As there is neither enough background information on the epidemiology of the disease nor a validated reference method, comparison of tests used a composite reference method approach. The ISH technique was the most specific and sensitive in intestine samples and particularly useful as a reference confirmatory method, while the best method in muscle samples was qPCR. Application of the tests to asymptomatic fish demonstrated presence of parasites in a large proportion (>25%) of their intestines, suggesting that this is the point of entry of the amoebae and the initial stage in the development of the disease. The triggering factors that facilitate the breaching of the intestinal barrier by E. piscium, causing granulomatous lesions in other organs and systemic spreading, are not completely understood but our results point to the connective tissue as a preferential target for parasite development and migration.
doi_str_mv 10.1111/jfd.12480
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subjects Amebiasis - diagnosis
Amebiasis - parasitology
Amebiasis - veterinary
Animals
diagnostic tools
Endolimax
Endolimax - isolation & purification
Endolimax piscium
Fish Diseases - diagnosis
Fish Diseases - parasitology
Flatfishes
Intestines - parasitology
in situ hybridization
PCR
Sensitivity and Specificity
Solea senegalensis
title Development of different diagnostic techniques for Endolimax piscium (archamoebae) and their applicability in Solea senegalensis clinical samples
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