Literature DB >> 31285697

N Increased risk of tick-borne diseases with climate and environmental changes.

C Bouchard1,2, A Dibernardo3, J Koffi2,4, H Wood3, P A Leighton2, L R Lindsay3.   

Abstract

Climate warming and other environmental changes have contributed to the expansion of the range of several tick species into higher latitudes in North America. As temperatures increase in Canada, the environment becomes more suitable for ticks and the season suitable for tick activity lengthens, so tick-borne diseases are likely to become more common in Canada. In addition to Lyme disease, four other tick-borne diseases (TBDs) have started to emerge and are likely to increase: Anaplasmosis; Babesiosis; Powassan virus; and Borrelia miyamotoi disease. Increased temperature increases the survival and activity period of ticks, increases the range of both reservoir and tick hosts (e.g. mice and deer) and increases the duration of the season when people may be exposed to ticks. Other ticks and TBDs may spread into Canada as the climate changes. The public health strategies to mitigate the impact of all TBDs include surveillance to detect current and emerging TBDs, and public health actions to prevent infections by modifying environmental and social-behavioral risk factors through increasing public awareness. Clinical care strategies include patient education, early detection, laboratory testing, and treatment.

Entities:  

Keywords:  Anaplasma phagocytophilum; Anaplasmosis; Babesia microti; Babesiosis; Powassan virus; and Borrelia miyamotoi; climate change; tick-borne disease

Year:  2019        PMID: 31285697      PMCID: PMC6587693          DOI: 10.14745/ccdr.v45i04a02

Source DB:  PubMed          Journal:  Can Commun Dis Rep        ISSN: 1188-4169


  45 in total

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Journal:  Can Vet J       Date:  2015-07       Impact factor: 1.008

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Journal:  Travel Med Infect Dis       Date:  2018-09-26       Impact factor: 6.211

Review 4.  Effects of environmental change on zoonotic disease risk: an ecological primer.

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Review 5.  Effects of Climate and Climate Change on Vectors and Vector-Borne Diseases: Ticks Are Different.

Authors:  Nick H Ogden; L Robbin Lindsay
Journal:  Trends Parasitol       Date:  2016-05-31

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7.  Short report: duration of tick attachment required for transmission of powassan virus by deer ticks.

Authors:  Gregory D Ebel; Laura D Kramer
Journal:  Am J Trop Med Hyg       Date:  2004-09       Impact factor: 2.345

8.  The first case of locally acquired tick-borne Babesia microti infection in Canada.

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Journal:  Can J Infect Dis Med Microbiol       Date:  2014 Nov-Dec       Impact factor: 2.471

Review 9.  Detecting and Attributing Health Burdens to Climate Change.

Authors:  Kristie L Ebi; Nicholas H Ogden; Jan C Semenza; Alistair Woodward
Journal:  Environ Health Perspect       Date:  2017-08-07       Impact factor: 9.031

10.  Surveillance for Lyme disease in Canada: 2009-2015.

Authors:  S Gasmi; N H Ogden; L R Lindsay; S Burns; S Fleming; J Badcock; S Hanan; C Gaulin; M A Leblanc; C Russell; M Nelder; L Hobbs; S Graham-Derham; L Lachance; A N Scott; E Galanis; J K Koffi
Journal:  Can Commun Dis Rep       Date:  2017-10-05
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  41 in total

1.  A novel approach for predicting risk of vector-borne disease establishment in marginal temperate environments under climate change: West Nile virus in the UK.

Authors:  David A Ewing; Bethan V Purse; Christina A Cobbold; Steven M White
Journal:  J R Soc Interface       Date:  2021-05-26       Impact factor: 4.118

2.  The health effects of climate change: Know the risks and become part of the solutions.

Authors:  C Howard; P Huston
Journal:  Can Commun Dis Rep       Date:  2019-05-02

3.  Using Earth observation images to inform risk assessment and mapping of climate change-related infectious diseases.

Authors:  S O Kotchi; C Bouchard; A Ludwig; E E Rees; S Brazeau
Journal:  Can Commun Dis Rep       Date:  2019-05-02

4.  Fatal Lyme carditis presenting as fluctuating high-grade atrioventricular block.

Authors:  Milena Semproni; Richard Rusk; Terence Wuerz
Journal:  CMAJ       Date:  2020-05-24       Impact factor: 8.262

5.  Climate change and infectious diseases: What can we expect?

Authors:  N H Ogden; P Gachon
Journal:  Can Commun Dis Rep       Date:  2019-04-04

6.  Impact of a Severe Rocky Mountain Spotted Fever Case on Treatment Practices at an Academic Institution Within a Nonendemic Area.

Authors:  Conrad Krawiec; Gary D Ceneviva; Shouhao Zhou; Neal J Thomas
Journal:  Wilderness Environ Med       Date:  2021-08-12       Impact factor: 1.518

7.  The first molecular identification and phylogenetic analysis of tick-borne pathogens in captive wild animals from Lohi Bher zoo, Pakistan.

Authors:  Muhammad Uzair Mukhtar; Naveed Iqbal; Jifei Yang; Zeeshan Nawaz; Tan Li Peng
Journal:  Parasitol Res       Date:  2022-09-17       Impact factor: 2.383

8.  Lyme Disease, Anaplasmosis, and Babesiosis, Atlantic Canada.

Authors:  Ziyad O Allehebi; Farhan M Khan; Mark Robbins; Elizabeth Simms; Richard Xiang; Allam Shawwa; L Robbin Lindsay; Antonia Dibernardo; Clarice d'Entremont; Alex Crowell; Jason J LeBlanc; David J Haldane
Journal:  Emerg Infect Dis       Date:  2022-06       Impact factor: 16.126

9.  Serologic Evidence of Arthropod-Borne Virus Infections in Wild and Captive Ruminants in Ontario, Canada.

Authors:  Samantha E Allen; Claire M Jardine; Kathleen Hooper-McGrevy; Aruna Ambagala; Angela M Bosco-Lauth; Melanie R Kunkel; Daniel G Mead; Larissa Nituch; Mark G Ruder; Nicole M Nemeth
Journal:  Am J Trop Med Hyg       Date:  2020-11       Impact factor: 2.345

Review 10.  Factors and outcomes in Severe Fever with Thrombocytopenia Syndrome (SFTS): A systematic review.

Authors:  Herwati Dualis; Abraham Chin Zefong; Lim Kai Joo; Narinderjeet Kaur Dadar Singh; Syed Sharizman Syed Abdul Rahim; Richard Avoi; Mohammad Saffree Jeffree; Mohd Rohaizat Hassan; Mohd Yusof Ibrahim; Azizan Omar
Journal:  Ann Med Surg (Lond)       Date:  2021-06-11
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