Assessing health impacts of the December 2013 Ice storm in Ontario, Canada

Abstract Background Ice, or freezing rain storms have the potential to affect human health and disrupt normal functioning of a community. The purpose of this study was to assess acute health impacts of an ice storm that occurred in December 2013 in Toronto, Ontario, Canada. Methods Data on emergency...

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Main Authors: Nikhil Rajaram, Karin Hohenadel, Laera Gattoni, Yasmin Khan, Elizabeth Birk-Urovitz, Lennon Li, Brian Schwartz
Format: Article
Language:English
Published: BMC 2016-07-01
Series:BMC Public Health
Subjects:
Online Access:http://link.springer.com/article/10.1186/s12889-016-3214-7
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spelling doaj-35fa73360d4e4c5ea1fdbba9f048372e2020-11-24T21:55:22ZengBMCBMC Public Health1471-24582016-07-011611910.1186/s12889-016-3214-7Assessing health impacts of the December 2013 Ice storm in Ontario, CanadaNikhil Rajaram0Karin Hohenadel1Laera Gattoni2Yasmin Khan3Elizabeth Birk-Urovitz4Lennon Li5Brian Schwartz6Occupational Medicine Residency Program, 4th Fl. Shuter, St. Michael’s HospitalPublic Health OntarioDalla Lana School of Public Health, University of TorontoPublic Health OntarioPublic Health and Preventive Medicine Residency Program, University of TorontoPublic Health OntarioPublic Health OntarioAbstract Background Ice, or freezing rain storms have the potential to affect human health and disrupt normal functioning of a community. The purpose of this study was to assess acute health impacts of an ice storm that occurred in December 2013 in Toronto, Ontario, Canada. Methods Data on emergency department visits were obtained from the National Ambulatory Care Reporting System. Rates of visits in Toronto during the storm period (December 21, 2013 – January 1, 2014) were compared to rates occurring on the same dates in the previous five years (historical comparison) and compared to those in a major unaffected city, Ottawa, Ontario (geographic comparison). Overall visits and rates for three categories of interest (cardiac conditions, environmental causes and injuries) were assessed. Rate ratios were calculated using Poisson regression with population counts as an offset. Absolute counts of carbon monoxide poisoning were compared descriptively in a sub-analysis. Results During the 2013 storm period, there were 34 549 visits to EDs in Toronto (12.46 per 1000 population) compared with 10 794 visits in Ottawa (11.55 per 1000 population). When considering year and geography separately, rates of several types of ED visits were higher in the storm year than in previous years in both Toronto and Ottawa. Considering year and geography together, rates in the storm year were higher for overall ED visits (RR: 1.10, 95 % CI: 1.09-1.11) and for visits due to environmental causes (RR: 2.52, 95 % CI: 2.21-2.87) compared to previous years regardless of city. For injuries, visit rates were higher in the storm year in both Toronto and Ottawa, but the increase in Toronto was significantly greater than the increase in Ottawa, indicating a significant interaction between geography and year (RR: 1.23, 95 % CI: 1.16-1.30). Conclusions This suggests that the main health impact of the 2013 Ice Storm was an increase in ED visits for injuries, while other increases could have been due to severe weather across Ontario at that time. This study is one of the first to use a population-level database and regression modeling of emergency visit codes to identify acute impacts resulting from ice storms.http://link.springer.com/article/10.1186/s12889-016-3214-7Ice stormFreezing rainInjuriesEnvironmental illnessDisaster epidemiologyEmergency preparedness
collection DOAJ
language English
format Article
sources DOAJ
author Nikhil Rajaram
Karin Hohenadel
Laera Gattoni
Yasmin Khan
Elizabeth Birk-Urovitz
Lennon Li
Brian Schwartz
spellingShingle Nikhil Rajaram
Karin Hohenadel
Laera Gattoni
Yasmin Khan
Elizabeth Birk-Urovitz
Lennon Li
Brian Schwartz
Assessing health impacts of the December 2013 Ice storm in Ontario, Canada
BMC Public Health
Ice storm
Freezing rain
Injuries
Environmental illness
Disaster epidemiology
Emergency preparedness
author_facet Nikhil Rajaram
Karin Hohenadel
Laera Gattoni
Yasmin Khan
Elizabeth Birk-Urovitz
Lennon Li
Brian Schwartz
author_sort Nikhil Rajaram
title Assessing health impacts of the December 2013 Ice storm in Ontario, Canada
title_short Assessing health impacts of the December 2013 Ice storm in Ontario, Canada
title_full Assessing health impacts of the December 2013 Ice storm in Ontario, Canada
title_fullStr Assessing health impacts of the December 2013 Ice storm in Ontario, Canada
title_full_unstemmed Assessing health impacts of the December 2013 Ice storm in Ontario, Canada
title_sort assessing health impacts of the december 2013 ice storm in ontario, canada
publisher BMC
series BMC Public Health
issn 1471-2458
publishDate 2016-07-01
description Abstract Background Ice, or freezing rain storms have the potential to affect human health and disrupt normal functioning of a community. The purpose of this study was to assess acute health impacts of an ice storm that occurred in December 2013 in Toronto, Ontario, Canada. Methods Data on emergency department visits were obtained from the National Ambulatory Care Reporting System. Rates of visits in Toronto during the storm period (December 21, 2013 – January 1, 2014) were compared to rates occurring on the same dates in the previous five years (historical comparison) and compared to those in a major unaffected city, Ottawa, Ontario (geographic comparison). Overall visits and rates for three categories of interest (cardiac conditions, environmental causes and injuries) were assessed. Rate ratios were calculated using Poisson regression with population counts as an offset. Absolute counts of carbon monoxide poisoning were compared descriptively in a sub-analysis. Results During the 2013 storm period, there were 34 549 visits to EDs in Toronto (12.46 per 1000 population) compared with 10 794 visits in Ottawa (11.55 per 1000 population). When considering year and geography separately, rates of several types of ED visits were higher in the storm year than in previous years in both Toronto and Ottawa. Considering year and geography together, rates in the storm year were higher for overall ED visits (RR: 1.10, 95 % CI: 1.09-1.11) and for visits due to environmental causes (RR: 2.52, 95 % CI: 2.21-2.87) compared to previous years regardless of city. For injuries, visit rates were higher in the storm year in both Toronto and Ottawa, but the increase in Toronto was significantly greater than the increase in Ottawa, indicating a significant interaction between geography and year (RR: 1.23, 95 % CI: 1.16-1.30). Conclusions This suggests that the main health impact of the 2013 Ice Storm was an increase in ED visits for injuries, while other increases could have been due to severe weather across Ontario at that time. This study is one of the first to use a population-level database and regression modeling of emergency visit codes to identify acute impacts resulting from ice storms.
topic Ice storm
Freezing rain
Injuries
Environmental illness
Disaster epidemiology
Emergency preparedness
url http://link.springer.com/article/10.1186/s12889-016-3214-7
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