Cardiac ScoreCard: A diagnostic multivariate index assay system for predicting a spectrum of cardiovascular disease

Michael P. McRae, Biykem Bozkurt, Christie M. Ballantyne, Ximena Sanchez, Nicolaos Christodoulides, Glennon Simmons, Vijay Nambi, Arunima Misra, Craig S. Miller, Jeffrey L. Ebersole, Charles Campbell, John T. McDevitt

Research output: Contribution to journalArticlepeer-review

32 Scopus citations

Abstract

Clinical decision support systems (CDSSs) have the potential to save lives and reduce unnecessary costs through early detection and frequent monitoring of both traditional risk factors and novel biomarkers for cardiovascular disease (CVD). However, the widespread adoption of CDSSs for the identification of heart diseases has been limited, likely due to the poor interpretability of clinically relevant results and the lack of seamless integration between measurements and disease predictions. In this paper we present the Cardiac ScoreCard - a multivariate index assay system with the potential to assist in the diagnosis and prognosis of a spectrum of CVD. The Cardiac ScoreCard system is based on lasso logistic regression techniques which utilize both patient demographics and novel biomarker data for the prediction of heart failure (HF) and cardiac wellness. Lasso logistic regression models were trained on a merged clinical dataset comprising 579 patients with 6 traditional risk factors and 14 biomarker measurements. The prediction performance of the Cardiac ScoreCard was assessed with 5-fold cross-validation and compared with reference methods. The experimental results reveal that the ScoreCard models improved performance in discriminating disease versus non-case (AUC = 0.8403 and 0.9412 for cardiac wellness and HF, respectively), and the models exhibit good calibration. Clinical insights to the prediction of HF and cardiac wellness are provided in the form of logistic regression coefficients which suggest that augmenting the traditional risk factors with a multimarker panel spanning a diverse cardiovascular pathophysiology provides improved performance over reference methods. Additionally, a framework is provided for seamless integration with biomarker measurements from point-of-care medical microdevices, and a lasso-based feature selection process is described for the down-selection of biomarkers in multimarker panels.

Original languageEnglish
Pages (from-to)136-147
Number of pages12
JournalExpert Systems with Applications
Volume54
DOIs
StatePublished - Jul 15 2016

Bibliographical note

Publisher Copyright:
© 2016 Published by Elsevier Ltd.

Keywords

  • Biomarkers
  • Cardiac wellness
  • Cardiovascular disease (CVD)
  • Heart failure (HF)
  • Lasso logistic regression
  • Programmable bio-nano-chip (p-BNC)

ASJC Scopus subject areas

  • General Engineering
  • Computer Science Applications
  • Artificial Intelligence

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