Details:

Alternative Title:
BMC Med Inform Decis Mak
Personal Author:
Najmi, Amir-Homayoon ; Burkom, Howard
Najmi, Amir-Homayoon ; Burkom, Howard Less -
Description:
Background

Surveillance of univariate syndromic data as a means of potential indicator of developing public health conditions has been used extensively. This paper aims to improve the performance of detecting outbreaks by using a background forecasting algorithm based on the adaptive recursive least squares method combined with a novel treatment of the Day of the Week effect.

Methods

Previous work by the first author has suggested that univariate recursive least squares analysis of syndromic data can be used to characterize the background upon which a prediction and detection component of a biosurvellance system may be built. An adaptive implementation is used to deal with data non-stationarity. In this paper we develop and implement the RLS method for background estimation of univariate data. The distinctly dissimilar distribution of data for different days of the week, however, can affect filter implementations adversely, and so a novel procedure based on linear transformations of the sorted values of the daily counts is introduced. Seven-days ahead daily predicted counts are used as background estimates. A signal injection procedure is used to examine the integrated algorithm's ability to detect synthetic anomalies in real syndromic time series. We compare the method to a baseline CDC forecasting algorithm known as the W2 method.

Results

We present detection results in the form of Receiver Operating Characteristic curve values for four different injected signal to noise ratios using 16 sets of syndromic data. We find improvements in the false alarm probabilities when compared to the baseline W2 background forecasts.

Conclusion

The current paper introduces a prediction approach for city-level biosurveillance data streams such as time series of outpatient clinic visits and sales of over-the-counter remedies. This approach uses RLS filters modified by a correction for the weekly patterns often seen in these data series, and a threshold detection algorithm from the residuals of the RLS forecasts. We compare the detection performance of this algorithm to the W2 method recently implemented at CDC. The modified RLS method gives consistently better sensitivity at multiple background alert rates, and we recommend that it should be considered for routine application in bio-surveillance systems.


Subjects:
[+]
Algorithms Ambulatory Care Facilities Data Interpretation, Statistical Disease Outbreaks Forecasting Humans Least-Squares Analysis Military Personnel Population Surveillance Respiratory Tract Infections
Source:
BMC Med Inform Decis Mak. 2009; 9:4.
Document Type:
Journal Article
Funding:
1-R01-PH000024-01/PH/PHPPO CDC HHS/United States
Collection(s):
CDC Public Access
Main Document Checksum:
[+]
urn:sha256:abc25543d5711d2ae062f6d0626252eaf0901b87897d4af440c4782b19d59ded
Download URL:
https://stacks.cdc.gov/view/cdc/22988/cdc_22988_DS1.pdf
File Type:

Supporting Files

• 	1472-6947-9-4-4.gif	gif
  	1472-6947-9-4-4.jpg	jpeg
  	1472-6947-9-4-5.gif	gif
  	1472-6947-9-4-5.jpg	jpeg
  	1472-6947-9-4-6.gif	gif
  	1472-6947-9-4-6.jpg	jpeg
  	1472-6947-9-4-7.gif	gif
  	1472-6947-9-4-7.jpg	jpeg
  	1472-6947-9-4-8.gif	gif
  	1472-6947-9-4-8.jpg	jpeg
  	1472-6947-9-4-1.gif	gif
  	1472-6947-9-4-9.gif	gif
  	1472-6947-9-4-9.jpg	jpeg
  	1472-6947-9-4-S1.pdf	pdf
  	1472-6947-9-4.nxml	txt
  	license.txt	txt
  	1472-6947-9-4-1.jpg	jpeg
  	1472-6947-9-4-10.gif	gif
  	1472-6947-9-4-10.jpg	jpeg
  	1472-6947-9-4-2.gif	gif
  	1472-6947-9-4-2.jpg	jpeg
  	1472-6947-9-4-3.gif	gif
  	1472-6947-9-4-3.jpg	jpeg

More +