A Clinical model to identify patients with high-risk coronary artery disease

Yelin Yang; Li Chen; Yeung Yam; Stephan Achenbach; Mouaz Al-Mallah; Daniel S. Berman; Matthew J. Budoff; Filippo Cademartiri; Tracy Q. Callister; Hyuk Jae Chang; Victor Y. Cheng; Kavitha Chinnaiyan; Ricardo Cury; Augustin Delago; Allison Dunning; Gudrun Feuchtner; Martin Hadamitzky; Jörg Hausleiter; Ronald P. Karlsberg; Philipp A. Kaufmann; Yong Jin Kim; Jonathon Leipsic; Troy Labounty; Fay Lin; Erica Maffei; Gilbert L. Raff; Leslee J. Shaw; Todd C. Villines; James K. Min; Benjamin J.W. Chow

doi:10.1016/j.jcmg.2014.11.015

A Clinical model to identify patients with high-risk coronary artery disease

Yelin Yang, Li Chen, Yeung Yam, Stephan Achenbach, Mouaz Al-Mallah, Daniel S. Berman, Matthew J. Budoff, Filippo Cademartiri, Tracy Q. Callister, Hyuk Jae Chang, Victor Y. Cheng, Kavitha Chinnaiyan, Ricardo Cury, Augustin Delago, Allison Dunning, Gudrun Feuchtner, Martin Hadamitzky, Jörg Hausleiter, Ronald P. Karlsberg, Philipp A. KaufmannYong Jin Kim, Jonathon Leipsic, Troy Labounty, Fay Lin, Erica Maffei, Gilbert L. Raff, Leslee J. Shaw, Todd C. Villines, James K. Min, Benjamin J.W. Chow

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

28 Scopus citations

Abstract

Objectives This study sought to develop a clinical model that identifies patients with and without high-risk coronary artery disease (CAD). Background Although current clinical models help to estimate a patient's pre-test probability of obstructive CAD, they do not accurately identify those patients with and without high-risk coronary anatomy. Methods Retrospective analysis of a prospectively collected multinational coronary computed tomographic angiography (CTA) cohort was conducted. High-risk anatomy was defined as left main diameter stenosis ≥50%, 3-vessel disease with diameter stenosis ≥70%, or 2-vessel disease involving the proximal left anterior descending artery. Using a cohort of 27,125, patients with a history of CAD, cardiac transplantation, and congenital heart disease were excluded. The model was derived from 24,251 consecutive patients in the derivation cohort and an additional 7,333 nonoverlapping patients in the validation cohort. Results The risk score consisted of 9 variables: age, sex, diabetes, hypertension, current smoking, hyperlipidemia, family history of CAD, history of peripheral vascular disease, and chest pain symptoms. Patients were divided into 3 risk categories: low (≤7 points), intermediate (8 to 17 points) and high (≥18 points). The model was statistically robust with area under the curve of 0.76 (95% confidence interval [CI]: 0.75 to 0.78) in the derivation cohort and 0.71 (95% CI: 0.69 to 0.74) in the validation cohort. Patients who scored ≤7 points had a low negative likelihood ratio (<0.1), whereas patients who scored ≥18 points had a high specificity of 99.3% and a positive likelihood ratio (8.48). In the validation group, the prevalence of high-risk CAD was 1% in patients with ≤7 points and 16.7% in those with ≥18 points. Conclusions We propose a scoring system, based on clinical variables, that can be used to identify patients at high and low pre-test probability of having high-risk CAD. Identification of these populations may detect those who may benefit from a trial of medical therapy and those who may benefit most from an invasive strategy.

Original language	English (US)
Pages (from-to)	427-434
Number of pages	8
Journal	JACC: Cardiovascular Imaging
Volume	8
Issue number	4
DOIs	https://doi.org/10.1016/j.jcmg.2014.11.015
State	Published - Apr 1 2015

Keywords

computed tomographic coronary angiography
high-risk coronary artery disease
risk factors

ASJC Scopus subject areas

Radiology Nuclear Medicine and imaging
Cardiology and Cardiovascular Medicine

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10.1016/j.jcmg.2014.11.015

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Yang, Y., Chen, L., Yam, Y., Achenbach, S., Al-Mallah, M., Berman, D. S., Budoff, M. J., Cademartiri, F., Callister, T. Q., Chang, H. J., Cheng, V. Y., Chinnaiyan, K., Cury, R., Delago, A., Dunning, A., Feuchtner, G., Hadamitzky, M., Hausleiter, J., Karlsberg, R. P., ... Chow, B. J. W. (2015). A Clinical model to identify patients with high-risk coronary artery disease. JACC: Cardiovascular Imaging, 8(4), 427-434. https://doi.org/10.1016/j.jcmg.2014.11.015

Yang, Y, Chen, L, Yam, Y, Achenbach, S, Al-Mallah, M, Berman, DS, Budoff, MJ, Cademartiri, F, Callister, TQ, Chang, HJ, Cheng, VY, Chinnaiyan, K, Cury, R, Delago, A, Dunning, A, Feuchtner, G, Hadamitzky, M, Hausleiter, J, Karlsberg, RP, Kaufmann, PA, Kim, YJ, Leipsic, J, Labounty, T, Lin, F, Maffei, E, Raff, GL, Shaw, LJ, Villines, TC, Min, JK & Chow, BJW 2015, 'A Clinical model to identify patients with high-risk coronary artery disease', JACC: Cardiovascular Imaging, vol. 8, no. 4, pp. 427-434. https://doi.org/10.1016/j.jcmg.2014.11.015

@article{3be2d32c22d84d239fa6d2048c236fa3,

title = "A Clinical model to identify patients with high-risk coronary artery disease",

abstract = "Objectives This study sought to develop a clinical model that identifies patients with and without high-risk coronary artery disease (CAD). Background Although current clinical models help to estimate a patient's pre-test probability of obstructive CAD, they do not accurately identify those patients with and without high-risk coronary anatomy. Methods Retrospective analysis of a prospectively collected multinational coronary computed tomographic angiography (CTA) cohort was conducted. High-risk anatomy was defined as left main diameter stenosis ≥50%, 3-vessel disease with diameter stenosis ≥70%, or 2-vessel disease involving the proximal left anterior descending artery. Using a cohort of 27,125, patients with a history of CAD, cardiac transplantation, and congenital heart disease were excluded. The model was derived from 24,251 consecutive patients in the derivation cohort and an additional 7,333 nonoverlapping patients in the validation cohort. Results The risk score consisted of 9 variables: age, sex, diabetes, hypertension, current smoking, hyperlipidemia, family history of CAD, history of peripheral vascular disease, and chest pain symptoms. Patients were divided into 3 risk categories: low (≤7 points), intermediate (8 to 17 points) and high (≥18 points). The model was statistically robust with area under the curve of 0.76 (95% confidence interval [CI]: 0.75 to 0.78) in the derivation cohort and 0.71 (95% CI: 0.69 to 0.74) in the validation cohort. Patients who scored ≤7 points had a low negative likelihood ratio (<0.1), whereas patients who scored ≥18 points had a high specificity of 99.3% and a positive likelihood ratio (8.48). In the validation group, the prevalence of high-risk CAD was 1% in patients with ≤7 points and 16.7% in those with ≥18 points. Conclusions We propose a scoring system, based on clinical variables, that can be used to identify patients at high and low pre-test probability of having high-risk CAD. Identification of these populations may detect those who may benefit from a trial of medical therapy and those who may benefit most from an invasive strategy.",

keywords = "computed tomographic coronary angiography, high-risk coronary artery disease, risk factors",

author = "Yelin Yang and Li Chen and Yeung Yam and Stephan Achenbach and Mouaz Al-Mallah and Berman, {Daniel S.} and Budoff, {Matthew J.} and Filippo Cademartiri and Callister, {Tracy Q.} and Chang, {Hyuk Jae} and Cheng, {Victor Y.} and Kavitha Chinnaiyan and Ricardo Cury and Augustin Delago and Allison Dunning and Gudrun Feuchtner and Martin Hadamitzky and J{\"o}rg Hausleiter and Karlsberg, {Ronald P.} and Kaufmann, {Philipp A.} and Kim, {Yong Jin} and Jonathon Leipsic and Troy Labounty and Fay Lin and Erica Maffei and Raff, {Gilbert L.} and Shaw, {Leslee J.} and Villines, {Todd C.} and Min, {James K.} and Chow, {Benjamin J.W.}",

note = "Funding Information: Dr. Chow holds the Saul and Edna Goldfarb Chair in Cardiac Imaging Research and receives research support from GE Healthcare ; and educational support from TeraRecon Inc . Dr. Achenbach has received grant support from Siemens and Bayer Schering Pharma ; and is a consultant for Servier. Dr. Al-Mallah is a consultant for GE Healthcare. Dr. Budoff is on the Speakers Bureau for GE Healthcare. Dr. Cademartiri receives grant support from GE Healthcare ; is a consultant for Servier; is on the Speakers Bureau of Bracco; is a consultant for GE Healthcare; and has given expert testimony for Siemens. Dr. Chinnaiyan has received grant support from Bayer Pharma and Blue Cross Blue Shield Blue Care Network of Michigan . Dr. Hadamitzky{\textquoteright}s department has an unrestricted research grant from Siemens Healthcare. Dr. Kaufmann receives grant support from the Swiss National Science Foundation and GE Healthcare . Dr. Leipsic is a consultant for GE Healthcare. Dr. Maffei has received grant support from GE Healthcare . Dr. Min has received research support and is on the Speakers Bureau for GE Healthcare; is a consultant for Heartflow, Abbott Vascular, Neograft Technologies, and CardioDx; is on the scientific advisory board of Arineta; and has ownership in MDDX, Autoplaq, and TC3. Dr. Raff has received grant support from Siemens , Blue Cross Blue Shield Blue Care Network of Michigan and Bayer Schering Pharma . All other authors have reported that they have no relationships relevant to the contents of this paper to disclose. Udo Hoffmann, MD, served as Guest Editor for this paper. Publisher Copyright: {\textcopyright} 2015 American College of Cardiology Foundation.",

year = "2015",

month = apr,

day = "1",

doi = "10.1016/j.jcmg.2014.11.015",

language = "English (US)",

volume = "8",

pages = "427--434",

journal = "JACC: Cardiovascular Imaging",

issn = "1936-878X",

publisher = "Elsevier",

number = "4",

}

TY - JOUR

T1 - A Clinical model to identify patients with high-risk coronary artery disease

AU - Yang, Yelin

AU - Chen, Li

AU - Yam, Yeung

AU - Achenbach, Stephan

AU - Al-Mallah, Mouaz

AU - Berman, Daniel S.

AU - Budoff, Matthew J.

AU - Cademartiri, Filippo

AU - Callister, Tracy Q.

AU - Chang, Hyuk Jae

AU - Cheng, Victor Y.

AU - Chinnaiyan, Kavitha

AU - Cury, Ricardo

AU - Delago, Augustin

AU - Dunning, Allison

AU - Feuchtner, Gudrun

AU - Hadamitzky, Martin

AU - Hausleiter, Jörg

AU - Karlsberg, Ronald P.

AU - Kaufmann, Philipp A.

AU - Kim, Yong Jin

AU - Leipsic, Jonathon

AU - Labounty, Troy

AU - Lin, Fay

AU - Maffei, Erica

AU - Raff, Gilbert L.

AU - Shaw, Leslee J.

AU - Villines, Todd C.

AU - Min, James K.

AU - Chow, Benjamin J.W.

N1 - Funding Information: Dr. Chow holds the Saul and Edna Goldfarb Chair in Cardiac Imaging Research and receives research support from GE Healthcare ; and educational support from TeraRecon Inc . Dr. Achenbach has received grant support from Siemens and Bayer Schering Pharma ; and is a consultant for Servier. Dr. Al-Mallah is a consultant for GE Healthcare. Dr. Budoff is on the Speakers Bureau for GE Healthcare. Dr. Cademartiri receives grant support from GE Healthcare ; is a consultant for Servier; is on the Speakers Bureau of Bracco; is a consultant for GE Healthcare; and has given expert testimony for Siemens. Dr. Chinnaiyan has received grant support from Bayer Pharma and Blue Cross Blue Shield Blue Care Network of Michigan . Dr. Hadamitzky’s department has an unrestricted research grant from Siemens Healthcare. Dr. Kaufmann receives grant support from the Swiss National Science Foundation and GE Healthcare . Dr. Leipsic is a consultant for GE Healthcare. Dr. Maffei has received grant support from GE Healthcare . Dr. Min has received research support and is on the Speakers Bureau for GE Healthcare; is a consultant for Heartflow, Abbott Vascular, Neograft Technologies, and CardioDx; is on the scientific advisory board of Arineta; and has ownership in MDDX, Autoplaq, and TC3. Dr. Raff has received grant support from Siemens , Blue Cross Blue Shield Blue Care Network of Michigan and Bayer Schering Pharma . All other authors have reported that they have no relationships relevant to the contents of this paper to disclose. Udo Hoffmann, MD, served as Guest Editor for this paper. Publisher Copyright: © 2015 American College of Cardiology Foundation.

PY - 2015/4/1

Y1 - 2015/4/1

N2 - Objectives This study sought to develop a clinical model that identifies patients with and without high-risk coronary artery disease (CAD). Background Although current clinical models help to estimate a patient's pre-test probability of obstructive CAD, they do not accurately identify those patients with and without high-risk coronary anatomy. Methods Retrospective analysis of a prospectively collected multinational coronary computed tomographic angiography (CTA) cohort was conducted. High-risk anatomy was defined as left main diameter stenosis ≥50%, 3-vessel disease with diameter stenosis ≥70%, or 2-vessel disease involving the proximal left anterior descending artery. Using a cohort of 27,125, patients with a history of CAD, cardiac transplantation, and congenital heart disease were excluded. The model was derived from 24,251 consecutive patients in the derivation cohort and an additional 7,333 nonoverlapping patients in the validation cohort. Results The risk score consisted of 9 variables: age, sex, diabetes, hypertension, current smoking, hyperlipidemia, family history of CAD, history of peripheral vascular disease, and chest pain symptoms. Patients were divided into 3 risk categories: low (≤7 points), intermediate (8 to 17 points) and high (≥18 points). The model was statistically robust with area under the curve of 0.76 (95% confidence interval [CI]: 0.75 to 0.78) in the derivation cohort and 0.71 (95% CI: 0.69 to 0.74) in the validation cohort. Patients who scored ≤7 points had a low negative likelihood ratio (<0.1), whereas patients who scored ≥18 points had a high specificity of 99.3% and a positive likelihood ratio (8.48). In the validation group, the prevalence of high-risk CAD was 1% in patients with ≤7 points and 16.7% in those with ≥18 points. Conclusions We propose a scoring system, based on clinical variables, that can be used to identify patients at high and low pre-test probability of having high-risk CAD. Identification of these populations may detect those who may benefit from a trial of medical therapy and those who may benefit most from an invasive strategy.

AB - Objectives This study sought to develop a clinical model that identifies patients with and without high-risk coronary artery disease (CAD). Background Although current clinical models help to estimate a patient's pre-test probability of obstructive CAD, they do not accurately identify those patients with and without high-risk coronary anatomy. Methods Retrospective analysis of a prospectively collected multinational coronary computed tomographic angiography (CTA) cohort was conducted. High-risk anatomy was defined as left main diameter stenosis ≥50%, 3-vessel disease with diameter stenosis ≥70%, or 2-vessel disease involving the proximal left anterior descending artery. Using a cohort of 27,125, patients with a history of CAD, cardiac transplantation, and congenital heart disease were excluded. The model was derived from 24,251 consecutive patients in the derivation cohort and an additional 7,333 nonoverlapping patients in the validation cohort. Results The risk score consisted of 9 variables: age, sex, diabetes, hypertension, current smoking, hyperlipidemia, family history of CAD, history of peripheral vascular disease, and chest pain symptoms. Patients were divided into 3 risk categories: low (≤7 points), intermediate (8 to 17 points) and high (≥18 points). The model was statistically robust with area under the curve of 0.76 (95% confidence interval [CI]: 0.75 to 0.78) in the derivation cohort and 0.71 (95% CI: 0.69 to 0.74) in the validation cohort. Patients who scored ≤7 points had a low negative likelihood ratio (<0.1), whereas patients who scored ≥18 points had a high specificity of 99.3% and a positive likelihood ratio (8.48). In the validation group, the prevalence of high-risk CAD was 1% in patients with ≤7 points and 16.7% in those with ≥18 points. Conclusions We propose a scoring system, based on clinical variables, that can be used to identify patients at high and low pre-test probability of having high-risk CAD. Identification of these populations may detect those who may benefit from a trial of medical therapy and those who may benefit most from an invasive strategy.

KW - computed tomographic coronary angiography

KW - high-risk coronary artery disease

KW - risk factors

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A Clinical model to identify patients with high-risk coronary artery disease

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