Microscopic and molecular analysis of Babesia canis in archived and diagnostic specimens reveal the impact of anti-parasitic treatment and postmortem changes on pathogen detection
- Resource Type
- article
- Authors
- Doroteja Huber; Ana Beck; Željka Anzulović; Daria Jurković; Adam Polkinghorne; Gad Baneth; Relja Beck
- Source
- Parasites & Vectors, Vol 10, Iss 1, Pp 1-9 (2017)
- Subject
- Babesia canis
Merozoite morphology
Postmortem cytological detection
Influence of imidocarb dipropionate
Genotyping
Infectious and parasitic diseases
RC109-216
- Language
- English
- ISSN
- 1756-3305
23445378
Abstract Background Classification of Babesia parasites has traditionally relied on morphological differentiation based on piroplasm size and shape. Molecular typing has subsequently revealed a more complex taxonomy for these piroplasms than previously thought. To evaluate the factors that influence the morphology of Babesia species upon microscopic examination and hence, their taxonomic classification, we performed detailed characterizations of piroplasms from archival and prospective collections of cytological samples of dogs with piroplasmosis before and after death. Merozoite morphology and time of parasite disappearance following imidocarb dipropionate was also investigated. Methods The study was divided into a (i) review of archived cytological slides from confirmed cases of canine piroplasmosis, and (ii) a prospective study of smears and tissue imprints from 15 recently necropsied dogs. The latter group could be further sub-divided into a non-treated group and an imidocarb dipropionate-treated group. Exact times of treatment before death were reviewed. Additional blood smears prepared from the live dogs and taken before therapy were also evaluated in the latter group. Parasite burden per each slide was determined in both studies. The shape and size of merozoites were described from blood smears taken while the dogs were alive and from different organs during necropsy. The results of all measurements were statistically analyzed. Results The morphology and size of merozoites from live dogs corresponded to that of previously described ‘large’ Babesia. The morphology and size of merozoites were significantly different (P