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ISDS 2016 Conference Abstracts

Tracking Health Effects of Wildfires: The Oregon 
ESSENCE Wildfire Pilot Project
Melissa Powell* and Laurel Boyd
Oregon Heatlh Authority, Portland, OR, USA

Objective
To build capacity to conduct syndromic surveillance at the local 

level by leveraging a health surveillance need.

Introduction
Wildfires occur annually in Oregon, and the health risks of wildfire 

smoke are well documented1. Before implementing syndromic 
surveillance through Oregon ESSENCE, assessing the health effects 
of wildfires in real time was very challenging. Summer 2015 marked 
the first wildfire season with 60 of 60 eligible Oregon emergency 
departments (EDs) reporting to ESSENCE. The Oregon ESSENCE 
team developed a wildfire surveillance pilot project with two local 
public health authorities (LPHAs) to determine their surveillance 
needs and practices and developed a training program to increase 
capacity to conduct surveillance at the local level. Following the 
training, one of the LPHAs integrated syndromic surveillance into 
its routine surveillance practices. Oregon ESSENCE also integrated 
the evaluation findings into the summer 2016 statewide wildfire 
surveillance plan.

Methods
Oregon ESSENCE staff recruited two LPHA preparedness 

coordinators whose jurisdictions are regularly affected by wildfire 
smoke to participate in the pilot project. A state public health 
emergency preparedness liaison served as facilitator in order to 
increase syndromic surveillance capacity among state preparedness 
staff.

A pre-season interview assessed data and surveillance needs, 
risk communication practices, and typical response activities during 
wildfires. Initial project calls focused on determining specific queries 
that would meet local needs. Participants wanted total ED visit 
numbers and health outcomes including asthma, chest pain or heart 
problems. Both LPHAs were interested in using the data to assess 
health effects on vulnerable populations, including elderly, children, 
and migrant workers. Oregon ESSENCE staff also recommended 
queries that would be used if large numbers of people were displaced 
(e.g., medication refills, dialysis).

Before the onset of wildfire season, Oregon ESSENCE 
epidemiologists created queries and a MyESSENCE page for each 
participant. LPHA staff practiced running the queries, modifying 
them, and discussed interpretation and data-sharing best practices. 
During wildfire season, brief weekly webinars enabled participants 
to ask questions and learn additional techniques including displaying 
time series as proportions and adjusting geographic parameters to 
focus on areas with poor air quality.

Results
2015 was a severe wildfire season in Oregon, with over 685,000 

acres burned2. For the first time, local and state public health were able 
to monitor and share near real-time health information on interagency 
smoke calls. In the post project evaluation, participants reported 
increased knowledge of syndromic surveillance, interpretation, 
and risk communications. There were no marked increases in total 
emergency department visits, or visits for asthma, heart palpitations, 
or other heart complaints. The public may have adhered to warnings 

and effectively protected themselves against exposure to wildfire 
smoke, or health effects may have been less severe and not reflected 
in emergency department data. Over the next several years, Oregon 
ESSENCE will integrate select urgent care data, which may better 
capture morbidity due to wildfire smoke.

Conclusions
Framing syndromic surveillance training around a health 

surveillance need was effective because participants were engaged 
around a high-priority health hazard. In summer 2016, Oregon 
ESSENCE integrated wildfire health surveillance into a biweekly 
ESSENCE seasonal hazard surveillance report and invited wildfire 
response partners to subscribe. Local ESSENCE users can use or 
modify the queries. In 2017, Oregon ESSENCE will incorporate air 
quality data from the Environmental Protection Agency so partners 
can monitor air quality and health effects simultaneously.

Keywords
wildfire; ESSENCE; capacity building; training

Acknowledgments
Thank you to the Jackson and Lane County Health Departments and 
Oregon Public Health Emergency Preparedness staff who participated in 
this pilot project.
This publication was supported by Cooperative Agreements, number 
NU90TP000544 and 5U50OE000068-02, funded by the Centers for 
Disease Control and Prevention. Its contents are solely the responsibility 
of the authors and do not necessarily represent the official views of the 
Centers for Disease Control and Prevention or the Department of Health 
and Human Services.

References
1. Liu J, Pereira G, Uhl S, et al. A systematic review of the physical health 

impacts from non-occupational exposure to wildfire smoke. Environ 
Res. 2015 Jan;0:120-132.

2. Northwest annual fire report [internet]. Northwest Interagency
Coordination Center. 2015. [cited 2016 August 17]. Available from:
http://gacc.nifc.gov/nwcc/content/pdfs/archives/2015_NWCC_
Annual_Fire_Report.pdf

*Melissa Powell
E-mail: melissa.e.powell@state.or.us

Online Journal of Public Health Informatics * ISSN 1947-2579 * http://ojphi.org * 9(1):e141, 2017