Noninvasive Plaque Imaging to Accelerate Coronary Artery Disease Drug Development

Gemma A. Figtree; Philip D. Adamson; Charalambos Antoniades; Roger S. Blumenthal; Michael Blaha; Matthew Budoff; David S. Celermajer; Mark Y. Chan; Clara K. Chow; Damini Dey; Girish Dwivedi; Nicola Giannotti; Stuart M. Grieve; Christian Hamilton-Craig; Bronwyn A. Kingwell; Jason C. Kovacic; James K. Min; David E. Newby; Sanjay Patel; Karlheinz Peter; Peter J. Psaltis; Stephen T. Vernon; Dennis T. Wong; Stephen J. Nicholls

doi:10.1161/CIRCULATIONAHA.122.060308

Noninvasive Plaque Imaging to Accelerate Coronary Artery Disease Drug Development

Gemma A. Figtree, Philip D. Adamson, Charalambos Antoniades, Roger S. Blumenthal, Michael Blaha, Matthew Budoff, David S. Celermajer, Mark Y. Chan, Clara K. Chow, Damini Dey, Girish Dwivedi, Nicola Giannotti, Stuart M. Grieve, Christian Hamilton-Craig, Bronwyn A. Kingwell, Jason C. Kovacic, James K. Min, David E. Newby, Sanjay Patel, Karlheinz PeterPeter J. Psaltis, Stephen T. Vernon, Dennis T. Wong, Stephen J. Nicholls

Research output: Contribution to journal › Review article › peer-review

26 Scopus citations

Abstract

Coronary artery disease (CAD) remains the leading cause of adult mortality globally. Targeting known modifiable risk factors has had substantial benefit, but there remains a need for new approaches. Improvements in invasive and noninvasive imaging techniques have enabled an increasing recognition of distinct quantitative phenotypes of coronary atherosclerosis that are prognostically relevant. There are marked differences in plaque phenotype, from the high-risk, lipid-rich, thin-capped atheroma to the low-risk, quiescent, eccentric, nonobstructive calcified plaque. Such distinct phenotypes reflect different pathophysiologic pathways and are associated with different risks for acute ischemic events. Noninvasive coronary imaging techniques, such as computed tomography, positron emission tomography, and coronary magnetic resonance imaging, have major potential to accelerate cardiovascular drug development, which has been affected by the high costs and protracted timelines of cardiovascular outcome trials. This may be achieved through enrichment of high-risk phenotypes with higher event rates or as primary end points of drug efficacy, at least in phase 2 trials, in a manner historically performed through intravascular coronary imaging studies. Herein, we provide a comprehensive review of the current technology available and its application in clinical trials, including implications for sample size requirements, as well as potential limitations. In its effort to accelerate drug development, the US Food and Drug Administration has approved surrogate end points for 120 conditions, but not for CAD. There are robust data showing the beneficial effects of drugs, including statins, on CAD progression and plaque stabilization in a manner that correlates with established clinical end points of mortality and major adverse cardiovascular events. This, together with a clear mechanistic rationale for using imaging as a surrogate CAD end point, makes it timely for CAD imaging end points to be considered. We discuss the importance of global consensus on these imaging end points and protocols and partnership with regulatory bodies to build a more informed, sustainable staged pathway for novel therapies.

Original language	English
Pages (from-to)	1712-1727
Number of pages	16
Journal	Circulation
Volume	146
Issue number	22
DOIs	https://doi.org/10.1161/CIRCULATIONAHA.122.060308
State	Published - 29 Nov 2022

Keywords

atherosclerosis
clinical trials
coronary angiography
coronary artery disease
magnetic resonance imaging

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10.1161/CIRCULATIONAHA.122.060308

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Figtree, G. A., Adamson, P. D., Antoniades, C., Blumenthal, R. S., Blaha, M., Budoff, M., Celermajer, D. S., Chan, M. Y., Chow, C. K., Dey, D., Dwivedi, G., Giannotti, N., Grieve, S. M., Hamilton-Craig, C., Kingwell, B. A., Kovacic, J. C., Min, J. K., Newby, D. E., Patel, S., ... Nicholls, S. J. (2022). Noninvasive Plaque Imaging to Accelerate Coronary Artery Disease Drug Development. Circulation, 146(22), 1712-1727. https://doi.org/10.1161/CIRCULATIONAHA.122.060308

@article{4f734f4a8189490ba64de253975f4adb,

title = "Noninvasive Plaque Imaging to Accelerate Coronary Artery Disease Drug Development",

abstract = "Coronary artery disease (CAD) remains the leading cause of adult mortality globally. Targeting known modifiable risk factors has had substantial benefit, but there remains a need for new approaches. Improvements in invasive and noninvasive imaging techniques have enabled an increasing recognition of distinct quantitative phenotypes of coronary atherosclerosis that are prognostically relevant. There are marked differences in plaque phenotype, from the high-risk, lipid-rich, thin-capped atheroma to the low-risk, quiescent, eccentric, nonobstructive calcified plaque. Such distinct phenotypes reflect different pathophysiologic pathways and are associated with different risks for acute ischemic events. Noninvasive coronary imaging techniques, such as computed tomography, positron emission tomography, and coronary magnetic resonance imaging, have major potential to accelerate cardiovascular drug development, which has been affected by the high costs and protracted timelines of cardiovascular outcome trials. This may be achieved through enrichment of high-risk phenotypes with higher event rates or as primary end points of drug efficacy, at least in phase 2 trials, in a manner historically performed through intravascular coronary imaging studies. Herein, we provide a comprehensive review of the current technology available and its application in clinical trials, including implications for sample size requirements, as well as potential limitations. In its effort to accelerate drug development, the US Food and Drug Administration has approved surrogate end points for 120 conditions, but not for CAD. There are robust data showing the beneficial effects of drugs, including statins, on CAD progression and plaque stabilization in a manner that correlates with established clinical end points of mortality and major adverse cardiovascular events. This, together with a clear mechanistic rationale for using imaging as a surrogate CAD end point, makes it timely for CAD imaging end points to be considered. We discuss the importance of global consensus on these imaging end points and protocols and partnership with regulatory bodies to build a more informed, sustainable staged pathway for novel therapies.",

keywords = "atherosclerosis, clinical trials, coronary angiography, coronary artery disease, magnetic resonance imaging",

author = "Figtree, \{Gemma A.\} and Adamson, \{Philip D.\} and Charalambos Antoniades and Blumenthal, \{Roger S.\} and Michael Blaha and Matthew Budoff and Celermajer, \{David S.\} and Chan, \{Mark Y.\} and Chow, \{Clara K.\} and Damini Dey and Girish Dwivedi and Nicola Giannotti and Grieve, \{Stuart M.\} and Christian Hamilton-Craig and Kingwell, \{Bronwyn A.\} and Kovacic, \{Jason C.\} and Min, \{James K.\} and Newby, \{David E.\} and Sanjay Patel and Karlheinz Peter and Psaltis, \{Peter J.\} and Vernon, \{Stephen T.\} and Wong, \{Dennis T.\} and Nicholls, \{Stephen J.\}",

year = "2022",

month = nov,

day = "29",

doi = "10.1161/CIRCULATIONAHA.122.060308",

language = "English",

volume = "146",

pages = "1712--1727",

journal = "Circulation",

issn = "0009-7322",

publisher = "Lippincott Williams and Wilkins",

number = "22",

}

Figtree, GA, Adamson, PD, Antoniades, C, Blumenthal, RS, Blaha, M, Budoff, M, Celermajer, DS, Chan, MY, Chow, CK, Dey, D, Dwivedi, G, Giannotti, N, Grieve, SM, Hamilton-Craig, C, Kingwell, BA, Kovacic, JC, Min, JK, Newby, DE, Patel, S, Peter, K, Psaltis, PJ, Vernon, ST, Wong, DT & Nicholls, SJ 2022, 'Noninvasive Plaque Imaging to Accelerate Coronary Artery Disease Drug Development', Circulation, vol. 146, no. 22, pp. 1712-1727. https://doi.org/10.1161/CIRCULATIONAHA.122.060308

TY - JOUR

T1 - Noninvasive Plaque Imaging to Accelerate Coronary Artery Disease Drug Development

AU - Figtree, Gemma A.

AU - Adamson, Philip D.

AU - Antoniades, Charalambos

AU - Blumenthal, Roger S.

AU - Blaha, Michael

AU - Budoff, Matthew

AU - Celermajer, David S.

AU - Chan, Mark Y.

AU - Chow, Clara K.

AU - Dey, Damini

AU - Dwivedi, Girish

AU - Giannotti, Nicola

AU - Grieve, Stuart M.

AU - Hamilton-Craig, Christian

AU - Kingwell, Bronwyn A.

AU - Kovacic, Jason C.

AU - Min, James K.

AU - Newby, David E.

AU - Patel, Sanjay

AU - Peter, Karlheinz

AU - Psaltis, Peter J.

AU - Vernon, Stephen T.

AU - Wong, Dennis T.

AU - Nicholls, Stephen J.

PY - 2022/11/29

Y1 - 2022/11/29

N2 - Coronary artery disease (CAD) remains the leading cause of adult mortality globally. Targeting known modifiable risk factors has had substantial benefit, but there remains a need for new approaches. Improvements in invasive and noninvasive imaging techniques have enabled an increasing recognition of distinct quantitative phenotypes of coronary atherosclerosis that are prognostically relevant. There are marked differences in plaque phenotype, from the high-risk, lipid-rich, thin-capped atheroma to the low-risk, quiescent, eccentric, nonobstructive calcified plaque. Such distinct phenotypes reflect different pathophysiologic pathways and are associated with different risks for acute ischemic events. Noninvasive coronary imaging techniques, such as computed tomography, positron emission tomography, and coronary magnetic resonance imaging, have major potential to accelerate cardiovascular drug development, which has been affected by the high costs and protracted timelines of cardiovascular outcome trials. This may be achieved through enrichment of high-risk phenotypes with higher event rates or as primary end points of drug efficacy, at least in phase 2 trials, in a manner historically performed through intravascular coronary imaging studies. Herein, we provide a comprehensive review of the current technology available and its application in clinical trials, including implications for sample size requirements, as well as potential limitations. In its effort to accelerate drug development, the US Food and Drug Administration has approved surrogate end points for 120 conditions, but not for CAD. There are robust data showing the beneficial effects of drugs, including statins, on CAD progression and plaque stabilization in a manner that correlates with established clinical end points of mortality and major adverse cardiovascular events. This, together with a clear mechanistic rationale for using imaging as a surrogate CAD end point, makes it timely for CAD imaging end points to be considered. We discuss the importance of global consensus on these imaging end points and protocols and partnership with regulatory bodies to build a more informed, sustainable staged pathway for novel therapies.

AB - Coronary artery disease (CAD) remains the leading cause of adult mortality globally. Targeting known modifiable risk factors has had substantial benefit, but there remains a need for new approaches. Improvements in invasive and noninvasive imaging techniques have enabled an increasing recognition of distinct quantitative phenotypes of coronary atherosclerosis that are prognostically relevant. There are marked differences in plaque phenotype, from the high-risk, lipid-rich, thin-capped atheroma to the low-risk, quiescent, eccentric, nonobstructive calcified plaque. Such distinct phenotypes reflect different pathophysiologic pathways and are associated with different risks for acute ischemic events. Noninvasive coronary imaging techniques, such as computed tomography, positron emission tomography, and coronary magnetic resonance imaging, have major potential to accelerate cardiovascular drug development, which has been affected by the high costs and protracted timelines of cardiovascular outcome trials. This may be achieved through enrichment of high-risk phenotypes with higher event rates or as primary end points of drug efficacy, at least in phase 2 trials, in a manner historically performed through intravascular coronary imaging studies. Herein, we provide a comprehensive review of the current technology available and its application in clinical trials, including implications for sample size requirements, as well as potential limitations. In its effort to accelerate drug development, the US Food and Drug Administration has approved surrogate end points for 120 conditions, but not for CAD. There are robust data showing the beneficial effects of drugs, including statins, on CAD progression and plaque stabilization in a manner that correlates with established clinical end points of mortality and major adverse cardiovascular events. This, together with a clear mechanistic rationale for using imaging as a surrogate CAD end point, makes it timely for CAD imaging end points to be considered. We discuss the importance of global consensus on these imaging end points and protocols and partnership with regulatory bodies to build a more informed, sustainable staged pathway for novel therapies.

KW - atherosclerosis

KW - clinical trials

KW - coronary angiography

KW - coronary artery disease

KW - magnetic resonance imaging

UR - https://www.scopus.com/pages/publications/85142890559

U2 - 10.1161/CIRCULATIONAHA.122.060308

DO - 10.1161/CIRCULATIONAHA.122.060308

M3 - Review article

C2 - 36441819

AN - SCOPUS:85142890559

SN - 0009-7322

VL - 146

SP - 1712

EP - 1727

JO - Circulation

JF - Circulation

IS - 22

ER -

Noninvasive Plaque Imaging to Accelerate Coronary Artery Disease Drug Development

Abstract

Keywords

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