Peer-reviewed veterinary case report
Asymmetrical nerve problems in dogs and cats with tick paralysis
By Holland, C T·Published in Australian veterinary journal·2008·ctholland@ava.com.au·View original on PubMed →
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Original publication title: Asymmetrical focal neurological deficits in dogs and cats with naturally occurring tick paralysis (Ixodes holocyclus): 27 cases (1999-2006).
- Species:
- cat
Plain-English summary
A 5-year-old Labrador and a 3-year-old domestic shorthair cat were brought in showing signs of facial paralysis and uneven pupil sizes after being bitten by ticks. Both pets had neurological issues linked to tick paralysis caused by the Ixodes holocyclus tick. The Labrador experienced longer recovery times for facial paralysis, taking days to weeks to improve, while the cat's anisocoria (uneven pupils) did not show a significant difference in recovery time. Treatment focused on removing the ticks, and both pets eventually recovered, but the dog took longer to regain full function.
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Abstract
OBJECTIVE: To describe basic epidemiological features, clinical characteristics and outcomes of asymmetrical focal neurological deficits identified in dogs and cats with naturally occurring tick paralysis (Ixodes holocyclus). DESIGN: A retrospective study. PROCEDURE: Computer records were reviewed for all dogs and cats treated for tick paralysis between July 1999 and June 2006 at a suburban veterinary hospital in Newcastle, New South Wales. RESULTS: Neurological deficits were identified in 17/197 dogs and 10/89 cats and included unilateral facial paralysis (14 dogs; 2 cats), anisocoria (4 dogs; 7 cats), unilateral loss of the cutaneous trunci reflex (1 dog; 1 cat) and Horner's syndrome in 2 cats with anisocoria. Occurrence of deficits was not linked to season, severity of tick paralysis, breed, age, sex or body weight. With facial paralysis and anisocoria, the site of tick attachment was invariably on the head or neck and always ipsilateral to the facial paralysis. By contrast, with anisocoria alone, no consistent relationship was noted between any one pupillary dimension and the side of tick attachment. With cutaneous trunci deficits the site of tick attachment was the ipsilateral caudal axilla. Compared with recovery times from generalised signs of tick paralysis, those for facial paralysis were significantly longer (days to weeks; P < 0.001), those for anisocoria showed no significant difference (P = 0.25) and those for cutaneous trunci deficits lagged by 6 and 7 days. CONCLUSIONS: Asymmetrical focal neurological deficits are a consistent finding in a proportion of dogs and cats with naturally occurring tick paralysis due to I. holocylcus.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/18826507/