Adjusting outbreak detection algorithms for surveillance during epidemic and non-epidemic periods
Adjusting outbreak detection algorithms for surveillance during epidemic and non-epidemic periods
Many aberration detection algorithms are used in infectious disease surveillance systems to assist in the early detection of potential outbreaks. In this study, we explored a novel approach to adjusting aberration detection algorithms to account for the impact of seasonality inherent in some surveillance data. By using surveillance data for hand-foot-and-mouth disease in Shandong province, China, we evaluated the use of seasonally-adjusted alerting thresholds with three aberration detection methods (C1, C2, and C3). We found that the optimal thresholds of C1, C2, and C3 varied between the epidemic and non-epidemic seasons of hand-foot-and-mouth disease, and the application of seasonally adjusted thresholds improved the performance of outbreak detection by maintaining the same sensitivity and timeliness while decreasing by nearly half the false alert rate during the non-epidemic season. Our preliminary findings suggest a general approach to improving aberration detection for outbreaks of infectious disease with seasonally variable incidence.
e51-[3pp]
Li, Zhongjie
f89a98f7-f6d3-4312-995a-bc658ae9a93f
Lai, Shengjie
b57a5fe8-cfb6-4fa7-b414-a98bb891b001
Buckeridge, David L.
9d1337fb-6f74-47ba-822f-ef9265e43b97
Zhang, Honglong
35d0ccf0-0422-4fcd-a949-a74a83f75e51
Lan, Yajia
1c3b4eec-04e2-4852-898d-af5ab6a95b07
Yang, Weizhong
65d18fbc-d752-42a7-ac38-01534ceda15c
June 2012
Li, Zhongjie
f89a98f7-f6d3-4312-995a-bc658ae9a93f
Lai, Shengjie
b57a5fe8-cfb6-4fa7-b414-a98bb891b001
Buckeridge, David L.
9d1337fb-6f74-47ba-822f-ef9265e43b97
Zhang, Honglong
35d0ccf0-0422-4fcd-a949-a74a83f75e51
Lan, Yajia
1c3b4eec-04e2-4852-898d-af5ab6a95b07
Yang, Weizhong
65d18fbc-d752-42a7-ac38-01534ceda15c
Li, Zhongjie, Lai, Shengjie, Buckeridge, David L., Zhang, Honglong, Lan, Yajia and Yang, Weizhong
(2012)
Adjusting outbreak detection algorithms for surveillance during epidemic and non-epidemic periods.
Journal of the American Medical Informatics Association, 19 (e1), .
(PMID:21836157)
Abstract
Many aberration detection algorithms are used in infectious disease surveillance systems to assist in the early detection of potential outbreaks. In this study, we explored a novel approach to adjusting aberration detection algorithms to account for the impact of seasonality inherent in some surveillance data. By using surveillance data for hand-foot-and-mouth disease in Shandong province, China, we evaluated the use of seasonally-adjusted alerting thresholds with three aberration detection methods (C1, C2, and C3). We found that the optimal thresholds of C1, C2, and C3 varied between the epidemic and non-epidemic seasons of hand-foot-and-mouth disease, and the application of seasonally adjusted thresholds improved the performance of outbreak detection by maintaining the same sensitivity and timeliness while decreasing by nearly half the false alert rate during the non-epidemic season. Our preliminary findings suggest a general approach to improving aberration detection for outbreaks of infectious disease with seasonally variable incidence.
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Accepted/In Press date: 14 June 2011
Published date: June 2012
Organisations:
Population, Health & Wellbeing (PHeW)
Identifiers
Local EPrints ID: 373602
URI: http://eprints.soton.ac.uk/id/eprint/373602
ISSN: 1067-5027
PURE UUID: d0c16b6c-c884-4455-848a-aa78875ea0a7
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Date deposited: 26 Jan 2015 12:58
Last modified: 23 Jul 2022 02:21
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Contributors
Author:
Zhongjie Li
Author:
David L. Buckeridge
Author:
Honglong Zhang
Author:
Yajia Lan
Author:
Weizhong Yang
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