Active and Passive Surveillance and Phylogenetic Analysis of Borrelia burgdorferi Elucidate the Process of Lyme Disease Risk Emergence in Canada

Background: Northward expansion of the tick Ixodes scapularis is driving Lyme disease (LD) emergence in Canada. Information on mechanisms involved is needed to enhance surveillance and identify where LD risk is emerging. Objectives: We used passive and active surveillance and phylogeographic analysi...

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Bibliographic Details
Published in:Environmental health perspectives 2010-07, Vol.118 (7), p.909-914
Main Authors: Ogden, Nicholas H., Bouchard, Catherine, Kurtenbach, Klaus, Margos, Gabriele, Lindsay, L. Robbin, Trudel, Louise, Nguon, Soulyvane, Milord, François
Format: Article
Language:English
Subjects:
Animals
Bacterial diseases
Biological and medical sciences
Birds
Borrelia burgdorferi
Borrelia burgdorferi - classification
Borrelia burgdorferi - genetics
Borrelia infections
Cladistic analysis
Climate models
Cluster Analysis
Communicable Diseases, Emerging - epidemiology
Communicable Diseases, Emerging - microbiology
Demographic aspects
Demography
Disease transmission
Environment. Living conditions
Environmental surveillance
Forecasts and trends
Genetic Variation
Human bacterial diseases
Humans
Infections
Infectious diseases
Instars
Ixodes - microbiology
Ixodes scapularis
Ixodidae
Logistic Models
Lyme disease
Lyme Disease - epidemiology
Lyme Disease - microbiology
Medical sciences
Methods
Phylogeny
Population Surveillance - methods
Public health. Hygiene
Public health. Hygiene-occupational medicine
Quebec - epidemiology
Risk factors
Rodentia - parasitology
Rodents
Sequence Analysis, DNA
Surveillance
Tick Infestations - epidemiology
Tick Infestations - veterinary
Ticks
Toxicology
Tropical bacterial diseases
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Summary:Background: Northward expansion of the tick Ixodes scapularis is driving Lyme disease (LD) emergence in Canada. Information on mechanisms involved is needed to enhance surveillance and identify where LD risk is emerging. Objectives: We used passive and active surveillance and phylogeographic analysis of Borrelia burgdorferi to investigate LD risk emergence in Quebec. Methods: In active surveillance, we collected ticks from the environment and from captured rodents. B. burgdorferi transmission was detected by serological analysis of rodents and by polymerase chain reaction assays of ticks. Spatiotemporal trends in passive surveillance data assisted interpretation of active surveillance. Multilocus sequence typing (MLST) of B. burgdorferi in ticks identified likely source locations of B. burgdorferi. Results: In active surveillance, we found I. scapularis at 55% of sites, and we were more likely to find them at sites with a warmer climate. B. burgdorferi was identified at 13 I. scapularis–positive sites, but infection prevalence in ticks and animal hosts was low. Low infection prevalence in ticks submitted in passive surveillance after 2004—from the tick-positive regions identified in active surveillance—coincided with an exponential increase in tick submissions during this time. MLST analysis suggested recent introduction of B. burgdorferi from the northeastern United States. Conclusions: These data are consistent with I. scapularis ticks dispersed from the United States by migratory birds, founding populations where the climate is warmest, and then establishment of B. burgdorferi from the United States several years after I. scapularis have established. These observations provide vital information for public health to minimize the impact of LD in Canada.
ISSN:0091-6765
1552-9924
DOI:10.1289/ehp.0901766