Transuterine infection by Baylisascaris transfuga: Neurological migration and fatal debilitation in sibling moose calves (Alces alces gigas) from Alaska

Larval Baylisascaris nematodes (L3), resulting from transuterine infection and neural migration, were discovered in the cerebrum of sibling moose calves (Alces alces gigas) near 1–3 days in age from Alaska. We provide the first definitive identification, linking morphology, biogeography, and molecul...

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Bibliographic Details
Published in:International Journal for Parasitology: Parasites and Wildlife
Main Authors: Eric P. Hoberg, Kathleen Burek-Huntington, Kimberlee Beckmen, Lauren E. Camp, Steven A. Nadler
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2018
Subjects:
Zoology
QL1-991
Alces alces
Alaska
Online Access:https://doi.org/10.1016/j.ijppaw.2018.07.005
https://doaj.org/article/aada1e8d3dac44d08880616e66300914
Description
Summary:Larval Baylisascaris nematodes (L3), resulting from transuterine infection and neural migration, were discovered in the cerebrum of sibling moose calves (Alces alces gigas) near 1–3 days in age from Alaska. We provide the first definitive identification, linking morphology, biogeography, and molecular phylogenetics, of Baylisascaris transfuga in naturally infected ungulates. Life history and involvement of paratenic hosts across a broader assemblage of mammals, from rodents to ungulates, in the transmission of B. transfuga remains undefined. Neural infections, debilitating young moose, may seasonally predispose calves to predation by brown bears, facilitating transmission to definitive hosts. Discovery of fatal neurological infections by L3 of B. transfuga in mammalian hosts serves to demonstrate the potential for zoonotic infection, as widely established for B. procyonis, in other regions and where raccoon definitive hosts are abundant. In zones of sympatry for multi-species assemblages of Baylisascaris across the Holarctic region presumptive identification of B. procyonis in cases of neurological larval migrans must be considered with caution. Diagnostics in neural and somatic larval migrans involving species of Baylisascaris in mammalian and other vertebrate hosts should include molecular-based and authoritative identification established in a phylogenetic context. Keywords: Baylisascaris transfuga, Neonatal infection, Transuterine migration, Neural larval migrans, Phylogenetic identification, Alces alces gigas

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