Computational prediction models for early detection of risk of cardiovascular events using mass spectrometry data

Tuan D. Pham; Honghui Wang; Xiaobo Zhou; Dominik Beck; Miriam Brandl; Gerard Hoehn; Joseph Azok; Marie Luise Brennan; Stanley L. Hazen; King Li; Stephen T.C. Wong

doi:10.1109/TITB.2007.908756

Computational prediction models for early detection of risk of cardiovascular events using mass spectrometry data

Tuan D. Pham, Honghui Wang, Xiaobo Zhou, Dominik Beck, Miriam Brandl, Gerard Hoehn, Joseph Azok, Marie Luise Brennan, Stanley L. Hazen, King Li, Stephen T.C. Wong

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

Early prediction of the risk of cardiovascular events in patients with chest pain is critical in order to provide appropriate medical care for those with positive diagnosis. This paper introduces a computational methodology for predicting such events in the context of robust computerized classification using mass spectrometry data of blood samples collected from patients in emergency departments. We applied the computational theories of statistical and geostatistical linear prediction models to extract effective features of the mass spectra and a simple decision logic to classify disease and control samples for the purpose of early detection. While the statistical and geostatistical techniques provide better results than those obtained from some other methods, the geostatistical approach yields superior results in terms of sensitivity and specificity in various designs of the data set for validation, training, and testing. The proposed computational strategies are very promising for predicting major adverse cardiac events within six months.

Original language	English (US)
Pages (from-to)	636-643
Number of pages	8
Journal	IEEE Transactions on Information Technology in Biomedicine
Volume	12
Issue number	5
DOIs	https://doi.org/10.1109/TITB.2007.908756
State	Published - 2008

Keywords

Cardiovascular risk
Early disease detection
Mass spectrometry (MS)
Prediction models
Proteomics

ASJC Scopus subject areas

Health Informatics
Health Information Management
Information Systems
Computer Science Applications
Computational Theory and Mathematics
General Medicine

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10.1109/TITB.2007.908756

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Pham, T. D., Wang, H., Zhou, X., Beck, D., Brandl, M., Hoehn, G., Azok, J., Brennan, M. L., Hazen, S. L., Li, K., & Wong, S. T. C. (2008). Computational prediction models for early detection of risk of cardiovascular events using mass spectrometry data. IEEE Transactions on Information Technology in Biomedicine, 12(5), 636-643. https://doi.org/10.1109/TITB.2007.908756

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title = "Computational prediction models for early detection of risk of cardiovascular events using mass spectrometry data",

abstract = "Early prediction of the risk of cardiovascular events in patients with chest pain is critical in order to provide appropriate medical care for those with positive diagnosis. This paper introduces a computational methodology for predicting such events in the context of robust computerized classification using mass spectrometry data of blood samples collected from patients in emergency departments. We applied the computational theories of statistical and geostatistical linear prediction models to extract effective features of the mass spectra and a simple decision logic to classify disease and control samples for the purpose of early detection. While the statistical and geostatistical techniques provide better results than those obtained from some other methods, the geostatistical approach yields superior results in terms of sensitivity and specificity in various designs of the data set for validation, training, and testing. The proposed computational strategies are very promising for predicting major adverse cardiac events within six months.",

keywords = "Cardiovascular risk, Early disease detection, Mass spectrometry (MS), Prediction models, Proteomics",

author = "Pham, {Tuan D.} and Honghui Wang and Xiaobo Zhou and Dominik Beck and Miriam Brandl and Gerard Hoehn and Joseph Azok and Brennan, {Marie Luise} and Hazen, {Stanley L.} and King Li and Wong, {Stephen T.C.}",

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AU - Pham, Tuan D.

AU - Wang, Honghui

AU - Zhou, Xiaobo

AU - Beck, Dominik

AU - Brandl, Miriam

AU - Hoehn, Gerard

AU - Azok, Joseph

AU - Brennan, Marie Luise

AU - Hazen, Stanley L.

AU - Li, King

AU - Wong, Stephen T.C.

PY - 2008

Y1 - 2008

N2 - Early prediction of the risk of cardiovascular events in patients with chest pain is critical in order to provide appropriate medical care for those with positive diagnosis. This paper introduces a computational methodology for predicting such events in the context of robust computerized classification using mass spectrometry data of blood samples collected from patients in emergency departments. We applied the computational theories of statistical and geostatistical linear prediction models to extract effective features of the mass spectra and a simple decision logic to classify disease and control samples for the purpose of early detection. While the statistical and geostatistical techniques provide better results than those obtained from some other methods, the geostatistical approach yields superior results in terms of sensitivity and specificity in various designs of the data set for validation, training, and testing. The proposed computational strategies are very promising for predicting major adverse cardiac events within six months.

AB - Early prediction of the risk of cardiovascular events in patients with chest pain is critical in order to provide appropriate medical care for those with positive diagnosis. This paper introduces a computational methodology for predicting such events in the context of robust computerized classification using mass spectrometry data of blood samples collected from patients in emergency departments. We applied the computational theories of statistical and geostatistical linear prediction models to extract effective features of the mass spectra and a simple decision logic to classify disease and control samples for the purpose of early detection. While the statistical and geostatistical techniques provide better results than those obtained from some other methods, the geostatistical approach yields superior results in terms of sensitivity and specificity in various designs of the data set for validation, training, and testing. The proposed computational strategies are very promising for predicting major adverse cardiac events within six months.

KW - Cardiovascular risk

KW - Early disease detection

KW - Mass spectrometry (MS)

KW - Prediction models

KW - Proteomics

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Computational prediction models for early detection of risk of cardiovascular events using mass spectrometry data

Abstract

Keywords

ASJC Scopus subject areas

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