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ISDS 2016 Conference Abstracts

Syndromic surveillance of air pollution incidents 
across international borders
Helen Hughes*1, 2, 3, Alec Dobney1, Anne Fouillet6, Céline Caserio-Schönemann6, 
Thomas Hughes4, 5, Gillian E. Smith1 and Alex J. Elliot1
1Public Health England, Birmingham, United Kingdom; 2The Farr Institute @ HeRC, Liverpool, United Kingdom; 3NIHR Health 
Protection Research Unit in Gastrointestinal Infections, Liverpool, United Kingdom; 4John Radcliffe Hospital, Oxford, United Kingdom; 
5Royal College of Emergency Medicine, London, United Kingdom; 6Santé publique France, Paris, France

Objective
To assess the impact on human health observed in association 

with periods of poor air quality which extended across international 
borders, affecting both London (UK) and Paris (France).  
In particular to quantify increased levels of emergency department 
(ED) attendances for asthma and wheeze/ difficulty breathing, and 
how different age groups were affected. Here, using ED syndromic 
surveillance from England and France, we aimed to identify and 
describe the acute impact of periods of particularly poor air quality 
during 2014 on human health in both London and Paris.

Introduction
The impact of poor air quality (AQ) on human health is a global 

issue, with periods of poor AQ known to occur in multiple locations, 
across different countries at, or around the same time.

The Public Health England (PHE) Emergency Department 
Syndromic Surveillance System (EDSSS) is a public health legacy 
of the London 2012 Olympic and Paralympic Games, monitoring 
anonymised daily attendance data in near real-time from a sentinel 
network of up to 38 EDs across England and Northern Ireland during 
2014.

The Organisation de la Surveillance COordonnée des URgences 
(OSCOUR®) is a similar ED system coordinated by Santé publique 
France and has been running in France since 2004, established 
following a major heatwave in 2003 to improve real-time public 
health surveillance capabilities. This truly national network included 
around 540 EDs in 2014.

Methods
Periods of poor AQ during 2014 in both London and Paris, which 

were likely to have an acute impact on human health were identified 
from the daily particulate monitoring data made available by the 
monitoring authorities in each location.1,2

Daily ED syndromic surveillance data for selected health indicators 
(asthma, difficulty breathing type attendances and myocardial 
ischaemia (MI)) were gathered from EDSSS and OSCOUR® for 
London and Paris respectively.

The standard method used for the daily statistical analysis of 
EDSSS(RAMMIE method),3 was also applied to OSCOUR® and used 
to identify days where the numbers of attendances reported in both 
the EDSSS and OSCOUR® systems were statistically significantly 
different to the historical data, based on the previous 2 years.

Results
Distinct differences were identified between the impact observed 

on different age groups, with increased asthma ED attendances for 
children during/ following some AQ events, though a greater impact 
was observed in adults around other AQ events.

Increases in ED attendances for asthma were identified at several 
points where no AQ events were reported, both short lived spikes 
during the summer period in particular and a more sustained increase 
towards the start of autumn.

Conclusions
Despite EDSSS and OSCOUR® having been developed in different 

countries, at different times and resulting from different drivers, both 
systems use very similar syndromic indicators to identify asthma, 
difficulty breathing and MI attendances. Using these systems the 
short term impacts of multiple AQ events which crossed international 
boundaries were successfully identified and investigated by English 
and French public health authorities.

Periods of poor AQ are not the only events that can affect asthma 
type attendances as identified here, thunderstorm activity and the 
beginning of a new academic year also coincided with increased 
attendances in both London and Paris.

Harmonisation of surveillance methods across different 
international jurisdictions is possible and there is the potential for 
future cross border surveillance and harmonisation of methods 
between countries to improve international health surveillance and 
early warning of potential public health threats affecting multiple 
countries.

Keywords
International; Syndromic Surveillance; Air Quality

Acknowledgments
London: We acknowledge the contribution and support from the ED 
clinicians and Trust staff; the on-going support of the Royal College of 
Emergency Medicine; the technical support provided by EMIS Health 
and L2S2 Ltd in EDSSS. This piece of work was supported by The Farr 
Institute for Health Informatics Research (MRC grant: MR/M0501633/1). 
This work is part funded by the National Institute for Health Research 
Health Protection Research Unit (NIHR HPRU) in Gastrointestinal 
Infections at University of Liverpool in partnership with Public Health 
England (PHE), in collaboration with University of East Anglia, 
University of Oxford and the Institute of Food Research. Helen Hughes 
is based at University of Liverpool. The views expressed are those of the 
author(s) and not necessarily those of the NHS, the NIHR, the Department 
of Health or PHE.
Paris: We acknowledge the contribution and support from the ED 
clinicians and hospital staff.

References
1. AIRPARIF. Association de surveillance de la qualité de l’air. La

pollution de l’air en Île-de-France. www.airparif.asso.fr/.
2. Department for Environment Food & Rural Affairs. UK-AIR: Air

Information Resource. uk-air.defra.gov.uk/.
3. Morbey RA, Elliot AJ, Charlett A, Verlander NQ, Andrews N, Smith

GE. The application of a novel ‘rising activity, multi-level mixed 
effects, indicator emphasis’ (RAMMIE) method for syndromic 
surveillance in England. Bioinformatics. 2015;31:3660-5.

*Helen Hughes
E-mail: helen.hughes@phe.gov.uk

Online Journal of Public Health Informatics * ISSN 1947-2579 * http://ojphi.org * 9(1):e139, 2017