The prognostic value of automated coronary calcium derived by a deep learning approach on non-ECG gated CT images from 82Rb-PET/CT myocardial perfusion imaging

M. Dekker; F. Waissi; I.E.M. Bank; I. Isgum; A.M. Scholtens; B.K. Velthuis; G. Pasterkamp; R.J. de Winter; A. Mosterd; L. Timmers; D.P.V. de Kleijn

doi:https://doi.org/10.1016/j.ijcard.2020.12.079

The prognostic value of automated coronary calcium derived by a deep learning approach on non-ECG gated CT images from ⁸²Rb-PET/CT myocardial perfusion imaging

M. Dekker, F. Waissi, I.E.M. Bank, I. Isgum, A.M. Scholtens, B.K. Velthuis, G. Pasterkamp, R.J. de Winter, A. Mosterd, L. Timmers, D.P.V. de Kleijn

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

5 Citations (Scopus)

Abstract

Background

Assessment of both coronary artery calcium(CAC) scores and myocardial perfusion imaging(MPI) in patients suspected of coronary artery disease(CAD) provides incremental prognostic information. We used an automated method to determine CAC scores on low-dose attenuation correction CT(LDACT) images gathered during MPI in one single assessment. The prognostic value of this automated CAC score is unknown, we therefore investigated the association of this automated CAC scores and major adverse cardiovascular events(MACE) in a large chest-pain cohort.

Method

We analyzed 747 symptomatic patients referred for ⁸²RubidiumPET/CT, without a history of coronary revascularization. Ischemia was defined as a summed difference score≥2. We used a validated deep learning(DL) method to determine CAC scores. For survival analysis CAC scores were dichotomized as low(<400) and high(≥400). MACE was defined as all cause death, late revascularization (>90 days after scanning) or nonfatal myocardial infarction. Cox proportional hazard analysis were performed to identify predictors of MACE.

Results

During 4 years follow-up, 115 MACEs were observed. High CAC scores showed higher cumulative event rates, irrespective of ischemia (nonischemic: 25.8% vs 11.9% and ischemic: 57.6% vs 23.4%, P-values <0.001). Multivariable cox regression revealed both high CAC scores (HR 2.19 95%CI 1.43–3.35) and ischemia (HR 2.56 95%CI 1.71–3.35) as independent predictors of MACE. Addition of automated CAC scores showed a net reclassification improvement of 0.13(0.022–0.245).

Conclusion

Automatically derived CAC scores determined during a single imaging session are independently associated with MACE. This validated DL method could improve risk stratification and subsequently lead to more personalized treatment in patients suspected of CAD.

Original language	English
Pages (from-to)	9-15
Number of pages	7
Journal	International journal of cardiology
Volume	329
Early online date	4 Jan 2021
DOIs	https://doi.org/10.1016/j.ijcard.2020.12.079
Publication status	Published - 15 Apr 2021

Keywords

Calcium
Coronary Angiography
Coronary Artery Disease/diagnostic imaging
Coronary artery calcium
Coronary artery disease
Deep Learning
Humans
Myocardial Perfusion Imaging
Positron Emission Tomography Computed Tomography
Predictive Value of Tests
Prognosis
Risk Factors

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https://doi.org/10.1016/j.ijcard.2020.12.079Licence: CC BY

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Cite this

Dekker, M., Waissi, F., Bank, I. E. M., Isgum, I., Scholtens, A. M., Velthuis, B. K., Pasterkamp, G., de Winter, R. J., Mosterd, A., Timmers, L., & de Kleijn, D. P. V. (2021). The prognostic value of automated coronary calcium derived by a deep learning approach on non-ECG gated CT images from ⁸²Rb-PET/CT myocardial perfusion imaging. International journal of cardiology, 329, 9-15. https://doi.org/10.1016/j.ijcard.2020.12.079

@article{0665f3b4b2d64b9ea2641ece3bb6f185,

title = "The prognostic value of automated coronary calcium derived by a deep learning approach on non-ECG gated CT images from 82Rb-PET/CT myocardial perfusion imaging",

abstract = "BackgroundAssessment of both coronary artery calcium(CAC) scores and myocardial perfusion imaging(MPI) in patients suspected of coronary artery disease(CAD) provides incremental prognostic information. We used an automated method to determine CAC scores on low-dose attenuation correction CT(LDACT) images gathered during MPI in one single assessment. The prognostic value of this automated CAC score is unknown, we therefore investigated the association of this automated CAC scores and major adverse cardiovascular events(MACE) in a large chest-pain cohort.MethodWe analyzed 747 symptomatic patients referred for 82RubidiumPET/CT, without a history of coronary revascularization. Ischemia was defined as a summed difference score≥2. We used a validated deep learning(DL) method to determine CAC scores. For survival analysis CAC scores were dichotomized as low(<400) and high(≥400). MACE was defined as all cause death, late revascularization (>90 days after scanning) or nonfatal myocardial infarction. Cox proportional hazard analysis were performed to identify predictors of MACE.ResultsDuring 4 years follow-up, 115 MACEs were observed. High CAC scores showed higher cumulative event rates, irrespective of ischemia (nonischemic: 25.8% vs 11.9% and ischemic: 57.6% vs 23.4%, P-values <0.001). Multivariable cox regression revealed both high CAC scores (HR 2.19 95%CI 1.43–3.35) and ischemia (HR 2.56 95%CI 1.71–3.35) as independent predictors of MACE. Addition of automated CAC scores showed a net reclassification improvement of 0.13(0.022–0.245).ConclusionAutomatically derived CAC scores determined during a single imaging session are independently associated with MACE. This validated DL method could improve risk stratification and subsequently lead to more personalized treatment in patients suspected of CAD.",

keywords = "Calcium, Coronary Angiography, Coronary Artery Disease/diagnostic imaging, Coronary artery calcium, Coronary artery disease, Deep Learning, Humans, Myocardial Perfusion Imaging, Positron Emission Tomography Computed Tomography, Predictive Value of Tests, Prognosis, Risk Factors",

author = "M. Dekker and F. Waissi and I.E.M. Bank and I. Isgum and A.M. Scholtens and B.K. Velthuis and G. Pasterkamp and {de Winter}, R.J. and A. Mosterd and L. Timmers and {de Kleijn}, D.P.V.",

note = "With supplementary data",

year = "2021",

month = apr,

day = "15",

doi = "https://doi.org/10.1016/j.ijcard.2020.12.079",

language = "English",

volume = "329",

pages = "9--15",

journal = "International journal of cardiology",

issn = "0167-5273",

publisher = "Elsevier Ireland Ltd",

}

Dekker, M, Waissi, F, Bank, IEM, Isgum, I, Scholtens, AM, Velthuis, BK, Pasterkamp, G, de Winter, RJ, Mosterd, A, Timmers, L & de Kleijn, DPV 2021, 'The prognostic value of automated coronary calcium derived by a deep learning approach on non-ECG gated CT images from ⁸²Rb-PET/CT myocardial perfusion imaging', International journal of cardiology, vol. 329, pp. 9-15. https://doi.org/10.1016/j.ijcard.2020.12.079

TY - JOUR

T1 - The prognostic value of automated coronary calcium derived by a deep learning approach on non-ECG gated CT images from 82Rb-PET/CT myocardial perfusion imaging

AU - Dekker, M.

AU - Waissi, F.

AU - Bank, I.E.M.

AU - Isgum, I.

AU - Scholtens, A.M.

AU - Velthuis, B.K.

AU - Pasterkamp, G.

AU - de Winter, R.J.

AU - Mosterd, A.

AU - Timmers, L.

AU - de Kleijn, D.P.V.

N1 - With supplementary data

PY - 2021/4/15

Y1 - 2021/4/15

N2 - BackgroundAssessment of both coronary artery calcium(CAC) scores and myocardial perfusion imaging(MPI) in patients suspected of coronary artery disease(CAD) provides incremental prognostic information. We used an automated method to determine CAC scores on low-dose attenuation correction CT(LDACT) images gathered during MPI in one single assessment. The prognostic value of this automated CAC score is unknown, we therefore investigated the association of this automated CAC scores and major adverse cardiovascular events(MACE) in a large chest-pain cohort.MethodWe analyzed 747 symptomatic patients referred for 82RubidiumPET/CT, without a history of coronary revascularization. Ischemia was defined as a summed difference score≥2. We used a validated deep learning(DL) method to determine CAC scores. For survival analysis CAC scores were dichotomized as low(<400) and high(≥400). MACE was defined as all cause death, late revascularization (>90 days after scanning) or nonfatal myocardial infarction. Cox proportional hazard analysis were performed to identify predictors of MACE.ResultsDuring 4 years follow-up, 115 MACEs were observed. High CAC scores showed higher cumulative event rates, irrespective of ischemia (nonischemic: 25.8% vs 11.9% and ischemic: 57.6% vs 23.4%, P-values <0.001). Multivariable cox regression revealed both high CAC scores (HR 2.19 95%CI 1.43–3.35) and ischemia (HR 2.56 95%CI 1.71–3.35) as independent predictors of MACE. Addition of automated CAC scores showed a net reclassification improvement of 0.13(0.022–0.245).ConclusionAutomatically derived CAC scores determined during a single imaging session are independently associated with MACE. This validated DL method could improve risk stratification and subsequently lead to more personalized treatment in patients suspected of CAD.

AB - BackgroundAssessment of both coronary artery calcium(CAC) scores and myocardial perfusion imaging(MPI) in patients suspected of coronary artery disease(CAD) provides incremental prognostic information. We used an automated method to determine CAC scores on low-dose attenuation correction CT(LDACT) images gathered during MPI in one single assessment. The prognostic value of this automated CAC score is unknown, we therefore investigated the association of this automated CAC scores and major adverse cardiovascular events(MACE) in a large chest-pain cohort.MethodWe analyzed 747 symptomatic patients referred for 82RubidiumPET/CT, without a history of coronary revascularization. Ischemia was defined as a summed difference score≥2. We used a validated deep learning(DL) method to determine CAC scores. For survival analysis CAC scores were dichotomized as low(<400) and high(≥400). MACE was defined as all cause death, late revascularization (>90 days after scanning) or nonfatal myocardial infarction. Cox proportional hazard analysis were performed to identify predictors of MACE.ResultsDuring 4 years follow-up, 115 MACEs were observed. High CAC scores showed higher cumulative event rates, irrespective of ischemia (nonischemic: 25.8% vs 11.9% and ischemic: 57.6% vs 23.4%, P-values <0.001). Multivariable cox regression revealed both high CAC scores (HR 2.19 95%CI 1.43–3.35) and ischemia (HR 2.56 95%CI 1.71–3.35) as independent predictors of MACE. Addition of automated CAC scores showed a net reclassification improvement of 0.13(0.022–0.245).ConclusionAutomatically derived CAC scores determined during a single imaging session are independently associated with MACE. This validated DL method could improve risk stratification and subsequently lead to more personalized treatment in patients suspected of CAD.

KW - Calcium

KW - Coronary Angiography

KW - Coronary Artery Disease/diagnostic imaging

KW - Coronary artery calcium

KW - Coronary artery disease

KW - Deep Learning

KW - Humans

KW - Myocardial Perfusion Imaging

KW - Positron Emission Tomography Computed Tomography

KW - Predictive Value of Tests

KW - Prognosis

KW - Risk Factors

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U2 - https://doi.org/10.1016/j.ijcard.2020.12.079

DO - https://doi.org/10.1016/j.ijcard.2020.12.079

M3 - Article

C2 - 33412176

SN - 0167-5273

VL - 329

SP - 9

EP - 15

JO - International journal of cardiology

JF - International journal of cardiology

ER -