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ISDS 2016 Conference Abstracts

Monitoring the 2016 LA County Sand Fire with 
Multiple Early Detection Systems
Rachel Viola*, Monica Z. Luarca, Emily Kajita, Michael Lim and Bessie Hwang
Acute Communicable Disease Control, Los Angeles County Department of Public Health, Los Angeles, CA, USA

Objective
To detect increases in health complaints resulting from the July 

2016 Sand Fire near Santa Clarita, CA using syndromic surveillance 
and complementary systems.

Introduction
On July 22, 2016, the Sand Fire began burning in the Santa Clarita 

Valley of Los Angeles County (LAC), CA. This urban-adjacent 
wildfire breached the city limits of Santa Clarita (population 180,000). 
Fueled by record heat and an ongoing exceptional drought, the Sand 
Fire burned over 40,000 acres in 13 days1 and caused a large increase 
in the air concentration of fine particulate matter2. The syndromic 
surveillance team was tasked with reporting on possible health effects 
from the fire. Fire, asthma, and heat related data were monitored 
until the fire was reported as 98% contained. The team prepared and 
distributed a daily special summary report to key stakeholders in the 
LAC Department of Public Health.

Methods
Emergency department (ED) data were queried for cases related 

to fire, asthma, cardiac events, eye irritation, heat, and total volume. 
These queries consisted of key word searches within chief complaint 
(CC), diagnosis and triage note data fields. Queries were conducted 
on all participating syndromic EDs in LAC, and also restricted to nine 
EDs closest to the fire. The resulting line lists were reviewed daily 
to rule out visits that were unrelated to the Sand Fire. The fire query 
was refined periodically with additional exclusion terms. Complaints 
related to asthma were tallied in a second query. In order to assess 
heat-related ED visits and temperature trends, existing queries and 
report templates were modified to focus on the nine fire-area EDs. 
Local temperatures were taken from the Weather Underground 
website. Complementary systems were also monitored, including 
over-the-counter medication sales and nurse hotline call data. Trend 
graphs for hospital admissions and ED visits were produced daily to 
assess volume from 19 Reddinet participating hospitals. In addition 
to internal data sources, the South Coast Air Quality Management 
District website was checked daily to monitor air quality in the Santa 
Clarita Valley.

Results
There were 48 syndromic ED patient records with direct mention of 

the fire in LAC’s syndromic hospitals in 13 days. Of these, 26 did not 
include asthma, and 32 came from the nine hospitals in the Sand Fire 
region; 32 were identified from the CC, six by diagnosis and ten by 
triage note. Despite an increase in fire-related visits, overall trends in 
ED data were not affected; no increase was found for cardiac events, 
eye irritation, heat-related illness or total volume. Asthma visits 
increased at the time of the fire, which correlates with a sharp increase 
in the concentration of fine particulate matter in the Santa Clarita 
Valley following the start of the fire2. However, these increases were 
no higher than other peaks observed in previous months3. No increases 
in calls to a nurse hotline or over-the-counter medication sales were 
observed. Among Reddinet hospitals, admissions increased slightly 
but ED visits remained unchanged.

Conclusions
For the Sand Fire, ED volume alone was not enough to estimate 

the subsequent health effects on residents of LAC; instead a specific 
fire query was needed. Several factors could explain why overall 
trends were not affected. In a region where air quality is already 
compromised, it is challenging to distinguish between asthma 
increases from air pollution from those exacerbated by wildfire 
smoke. It is also likely that residents heeded warnings about air quality 
during active fires, thus reducing their outdoor exposure. Although 
the majority of cases were identified using the CC field, additional 
data fields such as triage notes available from some hospitals improve 
the ability to elicit fire related visits. Regardless of the challenges 
presented in measuring health effects related to wildfires, syndromic 
surveillance and complementary systems continue to be the primary 
tools for near real-time assessments in LAC.

Keywords
syndromic surveillance; disaster; wildfire; early detection

References
1. Angeles National Forest. Sand Fire [Internet]. [place unknown]: United 

States Forest Service [updated 2006 Aug 6; cited 2016 Aug 19]. 
Available from: http://inciweb.nwcg.gov/incident/4878/.

2. Air Quality Data & Studies [Internet]. Diamond Bar, CA: South Coast
Air Quality Management District [cited 2016 Aug 19]. Available 
from: http://www.aqmd.gov/home/library/air-quality-data-studies.

3. Barboza T. SoCal hit with worst smog in years as hot, stagnant weather 
brings surge in hospital visits. Los Angeles Times [Internet]. 2016 
Aug 11 [cited 2016 Aug 19]; L.A. Now. Available from: http://www.
latimes.com/local/lanow/la-me-ln-summer-smog-20160805-snap-
story.html.

*Rachel Viola
E-mail: rviola@ph.lacounty.gov

Online Journal of Public Health Informatics * ISSN 1947-2579 * http://ojphi.org * 9(1):e135, 2017