Your search keyword '"Chinnaiyan K"' showing total 215 results

51. Differences in prevalence, extent, severity, and prognosis of coronary artery disease among patients with and without diabetes undergoing coronary computed tomography angiography: results from 10,110 individuals from the CONFIRM (COronary CT Angiography EvaluatioN For Clinical Outcomes): an InteRnational Multicenter Registry.

Author

Rana JS, Dunning A, Achenbach S, Al-Mallah M, Budoff MJ, Cademartiri F, Callister TQ, Chang HJ, Cheng VY, Chinnaiyan K, Chow BJ, Cury R, Delago A, Feuchtner G, Hadamitzky M, Hausleiter J, Kaufmann P, Karlsberg RP, Kim YJ, and Leipsic J

Abstract

Objective: We examined the prevalence, extent, severity, and prognosis of coronary artery disease (CAD) in individuals with and without diabetes (DM) who are similar in CAD risk factors.Research Design and Methods: We identified 23,643 consecutive individuals without known CAD undergoing coronary computed tomography angiography. A total of 3,370 DM individuals were propensity matched in a 1-to-2 fashion to 6,740 unique non-DM individuals. CAD was defined as none, nonobstructive (1-49% stenosis), or obstructive (≥ 50% stenosis). All-cause mortality was assessed by risk-adjusted Cox proportional hazards models.Results: At a 2.2-year follow-up, 108 (3.2%) and 115 (1.7%) deaths occurred among DM and non-DM individuals, respectively. Compared with non-DM individuals, DM individuals possessed higher rates of obstructive CAD (37 vs. 27%) and lower rates of having normal arteries (28 vs. 36%) (P < 0.0001). CAD extent was higher for DM versus non-DM individuals for obstructive one-vessel disease (19 vs. 14%), two-vessel disease (9 vs. 7%), and three-vessel disease (9 vs. 5%) (P < 0.0001 for comparison), with higher per-segment stenosis in the proximal and mid-segments of every coronary artery (P < 0.001 for all). Compared with non-DM individuals with no CAD, risk of mortality for DM individuals was higher for those with no CAD (hazard ratio 3.63 [95% CI 1.67-7.91]; P = 0.001), nonobstructive CAD (5.25 [2.56-10.8]; P < 0.001), one-vessel disease (6.39 [2.98-13.7]; P < 0.0001), two-vessel disease (12.33 [5.622-27.1]; P < 0.0001), and three-vessel disease (13.25 [6.15-28.6]; P < 0.0001).Conclusions: Compared with matched non-DM individuals, DM individuals possess higher prevalence, extent, and severity of CAD. At comparable levels of CAD, DM individuals experience higher risk of mortality compared with non-DM individuals. [ABSTRACT FROM AUTHOR]

Published

2012

52. Performance of the traditional age, sex, and angina typicality-based approach for estimating pretest probability of angiographically significant coronary artery disease in patients undergoing coronary computed tomographic angiography: results from the multinational coronary CT angiography evaluation for clinical outcomes: an international multicenter registry (CONFIRM).

Author

Cheng VY, Berman DS, Rozanski A, Dunning AM, Achenbach S, Al-Mallah M, Budoff MJ, Cademartiri F, Callister TQ, Chang HJ, Chinnaiyan K, Chow BJ, Delago A, Gomez M, Hadamitzky M, Hausleiter J, Karlsberg RP, Kaufmann P, Lin FY, and Maffei E

Published

2011

53. Lipoproteins, inflammatory biomarkers, and cardiovascular imaging in the assessment of atherosclerotic disease activity.

Author

Vanhecke TE, Franklin BA, Maciejko J, Chinnaiyan K, and McCullough PA

Published

2009

54. Optimized Prognostic Score for Coronary Computed Tomographic Angiography Results From the CONFIRM Registry (COronary CT Angiography EvaluatioN For Clinical Outcomes: An InteRnational Multicenter Registry)

Author

Hadamitzky, M, Achenbach, S, Al-Mallah, M, Berman, D, Budoff, M, Cademartiri, F., Callister, T, Chang, HJ, Cheng, V, Chinnaiyan, K, Chow, BJW, Cury, R, Delago, A, Dunning, A, Feuchtner, G, Gomez, M, Kaufmann, P, Kim, YJ, Leipsic, J, Lin, FY, Maffei, E, Min, JK, Raff, G, Shaw, LJ, Villines, TC, Hausleiter, J, University of Zurich, Hadamitzky, Martin, and Radiology & Nuclear Medicine

Subjects

610 Medicine & health, 10181 Clinic for Nuclear Medicine, prognosis, coronary CT angiography, 2705 Cardiology and Cardiovascular Medicine, coronary artery disease

Abstract

ObjectivesThe aim of this study was to analyze the predictive value of coronary computed tomography angiography (CCTA) and to model and validate an optimized score for prognosis of 2-year survival on the basis of a patient population with suspected coronary artery disease (CAD).BackgroundCoronary computed tomography angiography carries important prognostic information in addition to the detection of obstructive CAD. But it is still unclear how the results of CCTA should be interpreted in the context of clinical risk predictors.MethodsThe analysis is based on a test sample of 17,793 patients and a validation sample of 2,506 patients, all with suspected CAD, from the international CONFIRM (COronary CT Angiography EvaluatioN For Clinical Outcomes: An InteRnational Multicenter) registry. On the basis of CCTA data and clinical risk scores, an optimized score was modeled. The endpoint was all-cause mortality.ResultsDuring a median follow-up of 2.3 years, 347 patients died. The best CCTA parameter for prediction of mortality was the number of proximal segments with mixed or calcified plaques (C-index 0.64, p < 0.0001) and the number of proximal segments with a stenosis >50% (C-index 0.56, p = 0.002). In an optimized score including both parameters, CCTA significantly improved overall risk prediction beyond National Cholesterol Education Program Expert Panel on Detection, Evaluation, and Treatment of High Blood Cholesterol in Adults (Adult Treatment Panel III) score as best clinical score. According to this score, a proximal segment with either a mixed or calcified plaque or a stenosis >50% is equivalent to a 5-year increase in age or the risk of smoking.ConclusionsIn CCTA, both plaque burden and stenosis, particularly in proximal segments, carry incremental prognostic value. A prognostic score on the basis of this data can improve risk prediction beyond clinical risk scores.

55. Machine learning for prediction of all-cause mortality in patients with suspected coronary artery disease: a 5-year multicentre prospective registry analysis

Author

Motwani M, Dey D, Ds, Berman, Germano G, Achenbach S, Mh, Al-Mallah, Andreini D, Mj, Budoff, Filippo Cademartiri, Tq, Callister, Hj, Chang, Chinnaiyan K, Bj, Chow, Rc, Cury, Delago A, Gomez M, Gransar H, Hadamitzky M, Hausleiter J, and Hindoyan N

56. Impact of age and sex on left ventricular function determined by coronary computed tomographic angiography: results from the prospective multicentre CONFIRM study

Author

Gebhard C, Rr, Buechel, Be, Stähli, Gransar H, Achenbach S, Ds, Berman, Mj, Budoff, Tq, Callister, Chow B, Dunning A, Mouaz Al-Mallah, Cademartiri F, Chinnaiyan K, Rubinshtein R, Marques H, DeLago A, Tc, Villines, Hadamitzky M, Hausleiter J, and Lj, Shaw

57. Prevalence and severity of coronary artery disease and adverse events among symptomatic patients with coronary artery calcification scores of zero undergoing coronary computed tomography angiography: results from the CONFIRM (Coronary CT Angiography Evaluation for Clinical Outcomes: An International Multicenter) registry.

Author

Villines TC, Hulten EA, Shaw LJ, Goyal M, Dunning A, Achenbach S, Al-Mallah M, Berman DS, Budoff MJ, Cademartiri F, Callister TQ, Chang HJ, Cheng VY, Chinnaiyan K, Chow BJ, Delago A, Hadamitzky M, Hausleiter J, Kaufmann P, and Lin FY

Abstract

Objectives: The purpose of this study was to describe the prevalence and severity of coronary artery disease (CAD) in relation to prognosis in symptomatic patients without coronary artery calcification (CAC) undergoing coronary computed tomography angiography (CCTA). Background: The frequency and clinical relevance of CAD in patients without CAC are unclear. Methods: We identified 10,037 symptomatic patients without CAD who underwent concomitant CCTA and CAC scoring. CAD was assessed as <50%, ≥50%, and ≥70% stenosis. All-cause mortality and the composite endpoint of mortality, myocardial infarction, or late coronary revascularization (≥90 days after CCTA) were assessed. Results: Mean age was 57 years, 56% were men, and 51% had a CAC score of 0. Among patients with a CAC score of 0, 84% had no CAD, 13% had nonobstructive stenosis, and 3.5% had ≥50% stenosis (1.4% had ≥70% stenosis) on CCTA. A CAC score >0 had a sensitivity, specificity, and negative and positive predictive values for stenosis ≥50% of 89%, 59%, 96%, and 29%, respectively. During a median of 2.1 years, there was no difference in mortality among patients with a CAC score of 0 irrespective of obstructive CAD. Among 8,907 patients with follow-up for the composite endpoint, 3.9% with a CAC score of 0 and ≥50% stenosis experienced an event (hazard ratio: 5.7; 95% confidence interval: 2.5 to 13.1; p < 0.001) compared with 0.8% of patients with a CAC score of 0 and no obstructive CAD. Receiver-operator characteristic curve analysis demonstrated that the CAC score did not add incremental prognostic information compared with CAD extent on CCTA for the composite endpoint (CCTA area under the curve = 0.825; CAC + CCTA area under the curve = 0.826; p = 0.84). Conclusions: In symptomatic patients with a CAC score of 0, obstructive CAD is possible and is associated with increased cardiovascular events. CAC scoring did not add incremental prognostic information to CCTA. [ABSTRACT FROM AUTHOR]

Published

2011

58. Age- and sex-related differences in all-cause mortality risk based on coronary computed tomography angiography findings results from the International Multicenter CONFIRM (Coronary CT Angiography Evaluation for Clinical Outcomes: An International Multicenter Registry) of 23,854 patients without known coronary artery disease.

Author

Min JK, Dunning A, Lin FY, Achenbach S, Al-Mallah M, Budoff MJ, Cademartiri F, Callister TQ, Chang HJ, Cheng V, Chinnaiyan K, Chow BJ, Delago A, Hadamitzky M, Hausleiter J, Kaufmann P, Maffei E, Raff G, Shaw LJ, and Villines T

Abstract

Objectives: We examined mortality in relation to coronary artery disease (CAD) as assessed by ≥64-detector row coronary computed tomography angiography (CCTA). Background: Although CCTA has demonstrated high diagnostic performance for detection and exclusion of obstructive CAD, the prognostic findings of CAD by CCTA have not, to date, been examined for age- and sex-specific outcomes. Methods: We evaluated a consecutive cohort of 24,775 patients undergoing ≥64-detector row CCTA between 2005 and 2009 without known CAD who met inclusion criteria. In these patients, CAD by CCTA was defined as none (0% stenosis), mild (1% to 49% stenosis), moderate (50% to 69% stenosis), or severe (≥70% stenosis). CAD severity was judged on a per-patient, per-vessel, and per-segment basis. Time to mortality was estimated using multivariable Cox proportional hazards models. Results: At a 2.3 ± 1.1-year follow-up, 404 deaths had occurred. In risk-adjusted analysis, both per-patient obstructive (hazard ratio [HR]: 2.60; 95% confidence interval [CI]: 1.94 to 3.49; p < 0.0001) and nonobstructive (HR: 1.60; 95% CI: 1.18 to 2.16; p = 0.002) CAD conferred increased risk of mortality compared with patients without evident CAD. Incident mortality was associated with a dose-response relationship to the number of coronary vessels exhibiting obstructive CAD, with increasing risk observed for nonobstructive (HR: 1.62; 95% CI: 1.20 to 2.19; p = 0.002), obstructive 1-vessel (HR: 2.00; 95% CI: 1.43 to 2.82; p < 0.0001), 2-vessel (HR: 2.92; 95% CI: 2.00 to 4.25; p < 0.0001), or 3-vessel or left main (HR: 3.70; 95% CI: 2.58 to 5.29; p < 0.0001) CAD. Importantly, the absence of CAD by CCTA was associated with a low rate of incident death (annualized death rate: 0.28%). When stratified by age <65 years versus ≥65 years, younger patients experienced higher hazards for death for 2-vessel (HR: 4.00; 95% CI: 2.16 to 7.40; p < 0.0001 vs. HR: 2.46; 95% CI: 1.51 to 4.02; p = 0.0003) and 3-vessel (HR: 6.19; 95% CI: 3.43 to 11.2; p < 0.0001 vs. HR: 3.10; 95% CI: 1.95 to 4.92; p < 0.0001) CAD. The relative hazard for 3-vessel CAD (HR: 4.21; 95% CI: 2.47 to 7.18; p < 0.0001 vs. HR: 3.27; 95% CI: 1.96 to 5.45; p < 0.0001) was higher for women as compared with men. Conclusions: Among individuals without known CAD, nonobstructive and obstructive CAD by CCTA are associated with higher rates of mortality, with risk profiles differing for age and sex. Importantly, absence of CAD is associated with a very favorable prognosis. [ABSTRACT FROM AUTHOR]

Published

2011

59. Determinants of Rejection Rate for Coronary CT Angiography Fractional Flow Reserve Analysis

Author

Jonathan R. Weir-McCall, Marco Guglielmo, Andrea Baggiano, Takashi Akasaka, Daniel S. Berman, Manesh R. Patel, Bjarne L. Nørgaard, Gilbert L. Raff, Andrea Igoren Guaricci, Jeroen J. Bax, Jonathon Leipsic, Giuseppe Muscogiuri, Alberico Del Torto, Daniele Andreini, Campbell Rogers, Koen Nieman, Gianluca Pontone, Kavitha Chinnaiyan, Laura Fusini, Lynne Hurwitz Koweek, Timothy A. Fairbairn, Pontone, Gianluca [0000-0002-1339-6679], Weir-McCall, Jonathan R [0000-0001-5842-842X], Baggiano, Andrea [0000-0002-8261-4529], Del Torto, Alberico [0000-0001-5074-2078], Fusini, Laura [0000-0003-0309-6231], Guglielmo, Marco [0000-0003-1718-9949], Muscogiuri, Giuseppe [0000-0003-4757-2420], Guaricci, Andrea Igoren [0000-0001-7133-4401], Andreini, Daniele [0000-0002-5996-9209], Patel, Manesh [0000-0002-2393-0855], Nieman, Koen [0000-0002-8312-0598], Rogers, Campbell [0000-0003-3955-7650], Nørgaard, Bjarne L [0000-0002-4758-7203], Raff, Gilbert L [0000-0002-8363-2024], Berman, Daniel [0000-0002-3793-9578], Fairbairn, Timothy [0000-0003-1491-6231], Koweek, Lynne Hurwitz [0000-0001-9990-3397], Leipsic, Jonathon [0000-0002-6133-8334], Apollo - University of Cambridge Repository, Pontone, G, Weir-McCall, J, Baggiano, A, Del Torto, A, Fusini, L, Guglielmo, M, Muscogiuri, G, Guaricci, A, Andreini, D, Patel, M, Nieman, K, Akasaka, T, Rogers, C, Nørgaard, B, Bax, J, Raff, G, Chinnaiyan, K, Berman, D, Fairbairn, T, Koweek, L, and Leipsic, J

Subjects

Registrie, Male, medicine.medical_specialty, Coronary Stenosi, IMPACT, Computed Tomography Angiography, ACCURACY, COMPUTED-TOMOGRAPHY ANGIOGRAPHY, MULTICENTER, SOCIETY, Reproducibility of Result, Fractional flow reserve, Coronary Angiography, RADIATION-EXPOSURE, Severity of Illness Index, 030218 nuclear medicine & medical imaging, Cohort Studies, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Severity of illness, SCCT GUIDELINES, medicine, ARTERY-DISEASE, Humans, Radiology, Nuclear Medicine and imaging, Prospective Studies, Registries, Prospective cohort study, Aged, medicine.diagnostic_test, business.industry, Coronary Stenosis, Reproducibility of Results, Odds ratio, Confidence interval, DIAGNOSTIC PERFORMANCE, Fractional Flow Reserve, Myocardial, Prospective Studie, 030220 oncology & carcinogenesis, Angiography, Cohort, Cardiology, Female, Cohort Studie, business, IMAGE QUALITY, Human, Cohort study

Abstract

Background Coronary artery fractional flow reserve (FFR) derived from CT angiography (FFTCT) enables functional assessment of coronary stenosis. Prior clinical trials showed 13%-33% of coronary CT angiography studies had insufficient quality for quantitative analysis with FFRCT. Purpose To determine the rejection rate of FFRCT analysis and to determine factors associated with technically unsuccessful calculation of FFRCT. Materials and Methods Prospectively acquired coronary CT angiography scans submitted as part of the Assessing Diagnostic Value of Noninvasive FFRCT in Coronary Care (ADVANCE) registry (https://ClinicalTrials.gov: NCT02499679) and coronary CT angiography series submitted for clinical analysis were included. The primary outcome was the FFRCT rejection rate (defined as an inability to perform quantitative analysis with FFRCT). Factors that were associated with FFRCT rejection rate were assessed with multiple linear regression. Results In the ADVANCE registry, FFRCT rejection rate due to inadequate image quality was 2.9% (80 of 2778 patients; 95% confidence interval [CI]: 2.1%, 3.2%). In the 10 621 consecutive patients who underwent clinical analysis, the FFRCT rejection rate was 8.4% (n = 892; 95% CI: 6.2%, 7.2%; P < .001 vs the ADVANCE cohort). The main reason for the inability to perform FFRCT analysis was the presence of motion artifacts (63 of 80 [78%] and 729 of 892 [64%] in the ADVANCE and clinical cohorts, respectively). At multivariable analysis, section thickness in the ADVANCE (odds ratio [OR], 1.04; 95% CI: 1.001, 1.09; P = .045) and clinical (OR, 1.03; 95% CI: 1.02, 1.04; P < .001) cohorts and heart rate in the ADVANCE (OR, 1.05; 95% CI: 1.02, 1.08; P < .001) and clinical (OR, 1.06; 95% CI: 1.05, 1.07; P < .001) cohorts were independent predictors of rejection. Conclusion The rates for technically unsuccessful CT-derived fractional flow reserve in the ADVANCE registry and in a large clinical cohort were 2.9% and 8.4%, respectively. Thinner CT section thickness and lower patient heart rate may increase rates of completion of CT fractional flow reserve analysis. Published under a CC BY 4.0 license. Online supplemental material is available for this article. See also the editorial by Sakuma in this issue.

Published

2019

60. Highlights of the nineteenth annual scientific meeting of the society of cardiovascular computed tomography.

Author

Weir-McCall JR, Chinnaiyan K, Choi AD, Fairbairn T, Jacobs JE, Kelion A, Khalique O, Shambrook J, Weber N, Williams MC, Nicol E, and Ferencik M

Abstract

Competing Interests: Declaration of competing interest Maros Ferencik reports consulting fees from Siemens Healthineers, Elucid, Heartflow, BioMarin, and Cleerly, advisory board Cleerly, and stock options Elucid. ADC reports consulting from Amgen, Siemens Healthineers and Cleerly, equity in Cleerly and grant support from GW Heart and Vascular Institute. MCW is supported by the British Heart Foundation (FS/ICRF/20/26002). MCW has given talks for Canon Medical Systems, Siemens Healthineers, GE Healthcare, and Novartis and performed consultancy for FEOPS and Canon Medical Systems. The remaining authors declare no relevant competing interests.

Published

2024

61. Late Outcomes of Patients in the Emergency Department With Acute Chest Pain Evaluated With Computed Tomography-Derived Fractional Flow Reserve.

Author

Schott J, Allen O, Rollins Z, Cami E, Chinnaiyan K, Gallagher M, Fonte TA, Bilolikar A, and Safian RD

Subjects

Emergency Service, Hospital, Male, Female, Middle Aged, Aged, Myocardial Revascularization, Myocardial Infarction etiology, Patient Outcome Assessment, Chest Pain diagnostic imaging, Chest Pain surgery, Acute Pain diagnostic imaging, Acute Pain surgery, Fractional Flow Reserve, Myocardial, Computed Tomography Angiography adverse effects

Abstract

Computed tomography (CTA)-derived fractional flow reserve (FFR CT ) guides the need for invasive coronary angiography (ICA). Late outcomes after FFR CT are reported in stable ischemic heart disease but not in acute chest pain in the emergency department (ACP-ED). The objectives are to assess the risk of death, myocardial infarction (MI), revascularization, and ICA after FFR CT . From 2015 to 2018, 389 low-risk patients with ACP-ED (negative biomarkers, no electrocardiographic ischemia) underwent CTA and FFR CT and were entered into a prospective institutional registry; patients were followed up for 41 ± 10 months. CTA stenosis ≥50% was present in 81% of the patients. Positive (FFR CT ≤0.80) and negative FFR CT were observed in 124 (32%) and 265 patients (68%), respectively. ICA was performed in 108 of 124 patients (87%) with positive FFR CT and 89 of 265 patients (34%) with negative FFR CT (p <0.00001). Revascularization was performed in 87 of 124 (70%) patients with positive FFR CT and in 22 of 265 (8%) with negative FFR CT (p <0.00001). Appropriateness of revascularization was established by blinded adjudication of ICA and invasive FFR using practice guidelines; revascularization was appropriate in 81 of 124 (65%) and 6 of 265 (2%) of FFR CT -positive and -negative patients, respectively (p <0.00001). At follow-up, for patients with positive versus negative FFR CT , the rates were 0.8% versus 0% for death (p = 0.32) and 1.6% versus 0.4% for MI (p = 0.24). In conclusion, in low-risk patients with ACP-ED who underwent CTA and FFR CT , the risk of late death (0.2%) and MI (0.7%) are low. Negative FFR CT is associated with excellent long-term prognosis, and positive FFR CT predicts obstructive disease requiring revascularization. FFR CT can safely triage patients with ACP-ED and reduce unnecessary ICA and revascularization., Competing Interests: Declaration of competing interest Dr. Fonte is an employee of HeartFlow, Inc. and owns equity or stocks. The remaining authors have no competing interests to declare., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

62. Rapid Plaque Progression Is Independently Associated With Hyperglycemia and Low HDL Cholesterol in Patients With Stable Coronary Artery Disease: A PARADIGM Study.

Author

Neglia D, Caselli C, Maffei E, Cademartiri F, Meloni A, Bossone E, Saba L, Lee SE, Sung JM, Andreini D, Al-Mallah MH, Budoff MJ, Chinnaiyan K, Choi JH, Chun EJ, Conte E, Gottlieb I, Hadamitzky M, Kim YJ, Lee BK, Leipsic JA, Marques H, de Araújo Gonçalves P, Pontone G, Shin S, Stone PH, Samady H, Virmani R, Narula J, Shaw LJ, Bax JJ, Lin FY, Min JK, and Chang HJ

Subjects

Humans, Male, Female, Middle Aged, Aged, Time Factors, Biomarkers blood, Risk Assessment, Prognosis, Risk Factors, Prospective Studies, Predictive Value of Tests, Coronary Artery Disease blood, Coronary Artery Disease diagnosis, Coronary Artery Disease complications, Coronary Artery Disease diagnostic imaging, Plaque, Atherosclerotic, Disease Progression, Computed Tomography Angiography, Coronary Angiography methods, Cholesterol, HDL blood, Hyperglycemia blood, Hyperglycemia complications, Blood Glucose metabolism, Blood Glucose analysis

Abstract

Background: We assessed whether combinations of cardiometabolic risk factors independently predict coronary plaque progression (PP) and major adverse cardiovascular events in patients with stable coronary artery disease., Methods: Patients with known or suspected stable coronary artery disease (60.9±9.3 years, 55.4% male) undergoing serial coronary computed tomography angiographies (≥2 years apart), with clinical characterization and follow-up (N=1200), were analyzed from the PARADIGM study (Progression of Atherosclerotic Plaque Determined by Computed Tomographic Angiography Imaging). Plaque volumes measured in coronary segments (≥2 mm in diameter) were summed to provide whole heart plaque volume (mm 3 ) and percent atheroma volume (plaque volume/vessel volume×100; %) per patient at baseline and follow-up. Rapid PP was defined as a percent atheroma volume increase of ≥1.0%/y. Major adverse cardiovascular events included nonfatal myocardial infarction, death, and unplanned coronary revascularization., Results: In an interscan period of 3.2 years (interquartile range, 1.9), rapid PP occurred in 341 patients (28%). At multivariable analysis, the combination of cardiometabolic risk factors defined as metabolic syndrome predicted rapid PP (odds ratio, 1.51 [95% CI, 1.12-2.03]; P =0.007) together with older age, smoking habits, and baseline percent atheroma volume. Among single cardiometabolic variables, high fasting plasma glucose (diabetes or fasting plasma glucose >100 mg/dL) and low HDL-C (high-density lipoprotein cholesterol; <40 mg/dL in males and <50 mg/dL in females) were independently associated with rapid PP, in particular when combined (odds ratio, 2.37 [95% CI, 1.56-3.61]; P <0.001). In a follow-up of 8.23 years (interquartile range, 5.92-9.53), major adverse cardiovascular events occurred in 201 patients (17%). At multivariable Cox analysis, the combination of high fasting plasma glucose with high systemic blood pressure (treated hypertension or systemic blood pressure >130/85 mm Hg) was an independent predictor of events (hazard ratio, 1.79 [95% CI, 1.10-2.90]; P =0.018) together with family history, baseline percent atheroma volume, and rapid PP., Conclusions: In patients with stable coronary artery disease, the combination of hyperglycemia with low HDL-C is associated with rapid PP independently of other risk factors, baseline plaque burden, and treatment. The combination of hyperglycemia with high systemic blood pressure independently predicts the worse outcome beyond PP., Registration: URL: https://www.clinicaltrials.gov; Unique identifier: NCT02803411., Competing Interests: Dr Chang receives funding from the Leading Foreign Research Institute Recruitment Program through the National Research Foundation of Korea funded by the Ministry of Science and ICT (grant No. 2012027176). Dr Min receives funding from GE Healthcare and serves on the scientific advisory board of Arineta and GE Healthcare. Dr Min also has an equity interest in and is an employee of Cleerly Inc. The other authors report no conflicts.

Published

2024

63. Prediction of the development of new coronary atherosclerotic plaques with radiomics.

Author

Lee SE, Hong Y, Hong J, Jung J, Sung JM, Andreini D, Al-Mallah MH, Budoff MJ, Cademartiri F, Chinnaiyan K, Choi JH, Chun EJ, Conte E, Gottlieb I, Hadamitzky M, Kim YJ, Lee BK, Leipsic JA, Maffei E, Marques H, Gonçalves PA, Pontone G, Shin S, Stone PH, Samady H, Virmani R, Narula J, Shaw LJ, Bax JJ, Lin FY, Min JK, and Chang HJ

Subjects

Humans, Male, Female, Middle Aged, Aged, Time Factors, Prospective Studies, Disease Progression, Risk Factors, Risk Assessment, Radiographic Image Interpretation, Computer-Assisted, Prognosis, Reproducibility of Results, Multidetector Computed Tomography, Radiomics, Plaque, Atherosclerotic, Coronary Artery Disease diagnostic imaging, Predictive Value of Tests, Computed Tomography Angiography, Coronary Angiography, Registries, Coronary Vessels diagnostic imaging

Abstract

Background: Radiomics is expected to identify imaging features beyond the human eye. We investigated whether radiomics can identify coronary segments that will develop new atherosclerotic plaques on coronary computed tomography angiography (CCTA)., Methods: From a prospective multinational registry of patients with serial CCTA studies at ≥ 2-year intervals, segments without identifiable coronary plaque at baseline were selected and radiomic features were extracted. Cox models using clinical risk factors (Model 1), radiomic features (Model 2) and both clinical risk factors and radiomic features (Model 3) were constructed to predict the development of a coronary plaque, defined as total PV ​≥ ​1 ​mm 3 , at follow-up CCTA in each segment., Results: In total, 9583 normal coronary segments were identified from 1162 patients (60.3 ​± ​9.2 years, 55.7% male) and divided 8:2 into training and test sets. At follow-up CCTA, 9.8% of the segments developed new coronary plaque. The predictive power of Models 1 and 2 was not different in both the training and test sets (C-index [95% confidence interval (CI)] of Model 1 vs. Model 2: 0.701 [0.690-0.712] vs. 0.699 [0.0.688-0.710] and 0.696 [0.671-0.725] vs. 0.0.691 [0.667-0.715], respectively, all p ​> ​0.05). The addition of radiomic features to clinical risk factors improved the predictive power of the Cox model in both the training and test sets (C-index [95% CI] of Model 3: 0.772 [0.762-0.781] and 0.767 [0.751-0.787], respectively, all p ​< ​00.0001 compared to Models 1 and 2)., Conclusion: Radiomic features can improve the identification of segments that would develop new coronary atherosclerotic plaque., Clinical Trial Registration: ClinicalTrials.gov NCT0280341., Competing Interests: Declaration of competing interest Dr. Chang receives funding from the Leading Foreign Research Institute Recruitment Program through the National Research Foundation (NRF) of Korea funded by the Ministry of Science and ICT (MSIT) (Grant No. 2012027176). Dr. James K. Min receives funding from GE Healthcare and serves on the scientific advisory board of Arineta and GE Healthcare. Dr. Min also has an equity interest in and is an employee of Cleerly, Inc. The remaining authors have no relevant disclosures., (Copyright © 2024 Society of Cardiovascular Computed Tomography. Published by Elsevier Inc. All rights reserved.)

Published

2024

64. Progression of non-obstructive coronary plaque: a practical CCTA-based risk score from the PARADIGM registry.

Author

Pontone G, Rossi A, Baggiano A, Andreini D, Conte E, Fusini L, Gebhard C, Rabbat MG, Guaricci A, Guglielmo M, Muscogiuri G, Mushtaq S, Al-Mallah MH, Berman DS, Budoff MJ, Cademartiri F, Chinnaiyan K, Choi JH, Chun EJ, de Araújo Gonçalves P, Gottlieb I, Hadamitzky M, Kim YJ, Lee BK, Lee SE, Maffei E, Marques H, Samady H, Shin S, Sung JM, van Rosendael A, Virmani R, Bax JJ, Leipsic JA, Lin FY, Min JK, Narula J, Shaw LJ, and Chang HJ

Subjects

Humans, Computed Tomography Angiography methods, Coronary Angiography methods, Constriction, Pathologic, Risk Assessment methods, Predictive Value of Tests, Risk Factors, Disease Progression, Registries, Plaque, Atherosclerotic diagnostic imaging, Coronary Stenosis, Coronary Artery Disease diagnostic imaging

Abstract

Objectives: No clear recommendations are endorsed by the different scientific societies on the clinical use of repeat coronary computed tomography angiography (CCTA) in patients with non-obstructive coronary artery disease (CAD). This study aimed to develop and validate a practical CCTA risk score to predict medium-term disease progression in patients at a low-to-intermediate probability of CAD., Methods: Patients were part of the Progression of AtheRosclerotic PlAque Determined by Computed Tomographic Angiography Imaging (PARADIGM) registry. Specifically, 370 (derivation cohort) and 219 (validation cohort) patients with two repeat, clinically indicated CCTA scans, non-obstructive CAD, and absence of high-risk plaque (≥ 2 high-risk features) at baseline CCTA were included. Disease progression was defined as the new occurrence of ≥ 50% stenosis and/or high-risk plaque at follow-up CCTA., Results: In the derivation cohort, 104 (28%) patients experienced disease progression. The median time interval between the two CCTAs was 3.3 years (2.7-4.8). Odds ratios for disease progression derived from multivariable logistic regression were as follows: 4.59 (95% confidence interval: 1.69-12.48) for the number of plaques with spotty calcification, 3.73 (1.46-9.52) for the number of plaques with low attenuation component, 2.71 (1.62-4.50) for 25-49% stenosis severity, 1.47 (1.17-1.84) for the number of bifurcation plaques, and 1.21 (1.02-1.42) for the time between the two CCTAs. The C-statistics of the model were 0.732 (0.676-0.788) and 0.668 (0.583-0.752) in the derivation and validation cohorts, respectively., Conclusions: The new CCTA-based risk score is a simple and practical tool that can predict mid-term CAD progression in patients with known non-obstructive CAD., Clinical Relevance Statement: The clinical implementation of this new CCTA-based risk score can help promote the management of patients with non-obstructive coronary disease in terms of timing of imaging follow-up and therapeutic strategies., Key Points: • No recommendations are available on the use of repeat CCTA in patients with non-obstructive CAD. • This new CCTA score predicts mid-term CAD progression in patients with non-obstructive stenosis at baseline. • This new CCTA score can help guide the clinical management of patients with non-obstructive CAD., (© 2023. The Author(s), under exclusive licence to European Society of Radiology.)

Published

2024

65. Interaction of AI-Enabled Quantitative Coronary Plaque Volumes on Coronary CT Angiography, FFR CT , and Clinical Outcomes: A Retrospective Analysis of the ADVANCE Registry.

Author

Dundas J, Leipsic J, Fairbairn T, Ng N, Sussman V, Guez I, Rosenblatt R, Hurwitz Koweek LM, Douglas PS, Rabbat M, Pontone G, Chinnaiyan K, de Bruyne B, Bax JJ, Amano T, Nieman K, Rogers C, Kitabata H, Sand NPR, Kawasaki T, Mullen S, Huey W, Matsuo H, Patel MR, Norgaard BL, Ahmadi A, and Tzimas G

Subjects

Humans, Artificial Intelligence, Computed Tomography Angiography methods, Constriction, Pathologic, Coronary Angiography methods, Predictive Value of Tests, Registries, Retrospective Studies, Tomography, X-Ray Computed, Male, Female, Coronary Artery Disease diagnostic imaging, Coronary Artery Disease therapy, Coronary Stenosis diagnostic imaging, Coronary Stenosis therapy, Diabetes Mellitus, Type 2, Fractional Flow Reserve, Myocardial physiology, Myocardial Infarction, Plaque, Atherosclerotic

Abstract

Background: Luminal stenosis, computed tomography-derived fractional-flow reserve (FFR CT ), and high-risk plaque features on coronary computed tomography angiography are all known to be associated with adverse clinical outcomes. The interactions between these variables, patient outcomes, and quantitative plaque volumes have not been previously described., Methods: Patients with coronary computed tomography angiography (n=4430) and one-year outcome data from the international ADVANCE (Assessing Diagnostic Value of Noninvasive FFR CT in Coronary Care) registry underwent artificial intelligence-enabled quantitative coronary plaque analysis. Optimal cutoffs for coronary total plaque volume and each plaque subtype were derived using receiver-operator characteristic curve analysis. The resulting plaque volumes were adjusted for age, sex, hypertension, smoking status, type 2 diabetes, hyperlipidemia, luminal stenosis, distal FFR CT , and translesional delta-FFR CT . Median plaque volumes and optimal cutoffs for these adjusted variables were compared with major adverse cardiac events, late revascularization, a composite of the two, and cardiovascular death and myocardial infarction., Results: At one year, 55 patients (1.2%) had experienced major adverse cardiac events, and 123 (2.8%) had undergone late revascularization (>90 days). Following adjustment for age, sex, risk factors, stenosis, and FFR CT , total plaque volume above the receiver-operator characteristic curve-derived optimal cutoff (total plaque volume >564 mm 3 ) was associated with the major adverse cardiac event/late revascularization composite (adjusted hazard ratio, 1.515 [95% CI, 1.093-2.099]; P =0.0126), and both components. Total percent atheroma volume greater than the optimal cutoff was associated with both major adverse cardiac event/late revascularization (total percent atheroma volume >24.4%; hazard ratio, 2.046 [95% CI, 1.474-2.839]; P <0.0001) and cardiovascular death/myocardial infarction (total percent atheroma volume >37.17%, hazard ratio, 4.53 [95% CI, 1.943-10.576]; P =0.0005). Calcified, noncalcified, and low-attenuation percentage atheroma volumes above the optimal cutoff were associated with all adverse outcomes, although this relationship was not maintained for cardiovascular death/myocardial infarction in analyses stratified by median plaque volumes., Conclusions: Analysis of the ADVANCE registry using artificial intelligence-enabled quantitative plaque analysis shows that total plaque volume is associated with one-year adverse clinical events, with incremental predictive value over luminal stenosis or abnormal physiology by FFR CT ., Registration: URL: https://www.clinicaltrials.gov; Unique identifier: NCT02499679., Competing Interests: Dr Patel has received research grants from HeartFlow, Bayer, Janssen, and the National Heart, Lung, and Blood Institute; and has served on the advisory board for HeartFlow, Bayer, and Janssen. Dr Nørgaard has received unrestricted institutional research grants from Siemens and HeartFlow. Dr Fairbairn has served on the Speakers Bureau for HeartFlow. Dr Nieman has received institutional research support from Siemens Healthineers, HeartFlow, GE Healthcare, and Bayer Healthcare. Dr Hurwitz Koweek has received research support and speaking fees from HeartFlow and Siemens. Dr Pontone has received institutional research grant and honorarium as consultant/speaker from GE Healthcare, Bracco, Medtronic, Bayer, and HeartFlow. Dr Rabbat has served as a consultant for HeartFlow. Ms Mullen is an employee of and owns equity in HeartFlow. Dr De Bruyne has an institutional consulting relationship with Boston Scientific, Abbott Vascular, CathWorks, Siemens, GE Healthcare, and Coroventis Research; has received institutional research grants from Abbott Vascular, Coroventis Research, CathWorks, and Boston Scientific; and holds equities in Philips, Siemens, GE Healthcare, Edwards Lifesciences, HeartFlow, Opsens, and Celiad. Dr Rogers is employee of and owns equity in HeartFlow. Dr Leipsic has received an unrestricted research grant from GE Healthcare, has stock options and received consulting fees from HeartFlow and Circle CVI, and speaking fees from GE and Philips. Dr Ng is an employee of HeartFlow. The other authors report no conflicts.

Published

2024

66. How early can atherosclerosis be detected by coronary CT angiography? Insights from quantitative CT analysis of serial scans in the PARADIGM trial.

Author

Cardoso R, Choi AD, Shiyovich A, Besser SA, Min JK, Earls J, Andreini D, Al-Mallah MH, Budoff MJ, Cademartiri F, Chinnaiyan K, Choi JH, Chun EJ, Conte E, Gottlieb I, Hadamitzky M, Kim YJ, Lee BK, Leipsic JA, Maffei E, Marques H, de Araújo Gonçalves P, Pontone G, Lee SE, Sung JM, Virmani R, Samady H, Lin FY, Stone PH, Berman DS, Narula J, Shaw LJ, Bax JJ, Chang HJ, and Blankstein R

Subjects

Humans, Male, Middle Aged, Female, Computed Tomography Angiography methods, Retrospective Studies, Predictive Value of Tests, Coronary Angiography methods, Tomography, X-Ray Computed methods, Plaque, Atherosclerotic, Atherosclerosis, Coronary Artery Disease diagnostic imaging

Abstract

Background: Non-obstructing small coronary plaques may not be well recognized by expert readers during coronary computed tomography angiography (CCTA) evaluation. Recent developments in atherosclerosis imaging quantitative computed tomography (AI-QCT) enabled by machine learning allow for whole-heart coronary phenotyping of atherosclerosis, but its diagnostic role for detection of small plaques on CCTA is unknown., Methods: We performed AI-QCT in patients who underwent serial CCTA in the multinational PARADIGM study. AI-QCT results were verified by a level III experienced reader, who was blinded to baseline and follow-up status of CCTA. This retrospective analysis aimed to characterize small plaques on baseline CCTA and evaluate their serial changes on follow-up imaging. Small plaques were defined as a total plaque volume <50 ​mm 3 ., Results: A total of 99 patients with 502 small plaques were included. The median total plaque volume was 6.8 ​mm 3 (IQR 3.5-13.9 ​mm 3 ), most of which was non-calcified (median 6.2 ​mm 3 ; 2.9-12.3 ​mm 3 ). The median age at the time of baseline CCTA was 61 years old and 63% were male. The mean interscan period was 3.8 ​± ​1.6 years. On follow-up CCTA, 437 (87%) plaques were present at the same location as small plaques on baseline CCTA; 72% were larger and 15% decreased in volume. The median total plaque volume and non-calcified plaque volume increased to 18.9 ​mm 3 (IQR 8.3-45.2 ​mm 3 ) and 13.8 ​mm 3 (IQR 5.7-33.4 ​mm 3 ), respectively, among plaques that persisted on follow-up CCTA. Small plaques no longer visualized on follow-up CCTA were significantly more likely to be of lower volume, shorter in length, non-calcified, and more distal in the coronary artery, as compared with plaques that persisted at follow-up., Conclusion: In this retrospective analysis from the PARADIGM study, small plaques (<50 ​mm 3 ) identified by AI-QCT persisted at the same location and were often larger on follow-up CCTA., (Copyright © 2023 Society of Cardiovascular Computed Tomography. Published by Elsevier Inc. All rights reserved.)

Published

2023

67. Impact of statins based on high-risk plaque features on coronary plaque progression in mild stenosis lesions: results from the PARADIGM study.

Author

Park HB, Arsanjani R, Sung JM, Heo R, Lee BK, Lin FY, Hadamitzky M, Kim YJ, Conte E, Andreini D, Pontone G, Budoff MJ, Gottlieb I, Chun EJ, Cademartiri F, Maffei E, Marques H, Gonçalves PA, Leipsic JA, Lee SE, Shin S, Choi JH, Virmani R, Samady H, Chinnaiyan K, Stone PH, Berman DS, Narula J, Shaw LJ, Bax JJ, Min JK, and Chang HJ

Subjects

Female, Humans, Male, Middle Aged, Computed Tomography Angiography, Constriction, Pathologic, Coronary Angiography methods, Coronary Vessels pathology, Disease Progression, Predictive Value of Tests, Coronary Artery Disease diagnostic imaging, Coronary Artery Disease drug therapy, Coronary Artery Disease pathology, Hydroxymethylglutaryl-CoA Reductase Inhibitors therapeutic use, Plaque, Atherosclerotic diagnostic imaging, Plaque, Atherosclerotic drug therapy, Plaque, Atherosclerotic pathology

Abstract

Aims: To investigate the impact of statins on plaque progression according to high-risk coronary atherosclerotic plaque (HRP) features and to identify predictive factors for rapid plaque progression in mild coronary artery disease (CAD) using serial coronary computed tomography angiography (CCTA)., Methods and Results: We analyzed mild stenosis (25-49%) CAD, totaling 1432 lesions from 613 patients (mean age, 62.2 years, 63.9% male) and who underwent serial CCTA at a ≥2 year inter-scan interval using the Progression of AtheRosclerotic PlAque DetermIned by Computed TomoGraphic Angiography Imaging (NCT02803411) registry. The median inter-scan period was 3.5 ± 1.4 years; plaques were quantitatively assessed for annualized percent atheroma volume (PAV) and compositional plaque volume changes according to HRP features, and the rapid plaque progression was defined by the ≥90th percentile annual PAV. In mild stenotic lesions with ≥2 HRPs, statin therapy showed a 37% reduction in annual PAV (0.97 ± 2.02 vs. 1.55 ± 2.22, P = 0.038) with decreased necrotic core volume and increased dense calcium volume compared to non-statin recipient mild lesions. The key factors for rapid plaque progression were ≥2 HRPs [hazard ratio (HR), 1.89; 95% confidence interval (CI), 1.02-3.49; P = 0.042], current smoking (HR, 1.69; 95% CI 1.09-2.57; P = 0.017), and diabetes (HR, 1.55; 95% CI, 1.07-2.22; P = 0.020)., Conclusion: In mild CAD, statin treatment reduced plaque progression, particularly in lesions with a higher number of HRP features, which was also a strong predictor of rapid plaque progression. Therefore, aggressive statin therapy might be needed even in mild CAD with higher HRPs., Clinical Trial Registration: ClinicalTrials.gov NCT02803411., Competing Interests: Conflict of interest: Dr. Chang receives funding from by the Korea Medical Device Development Fund grant funded by the Korea government (the Ministry of Science and ICT, the Ministry of Trade, Industry and Energy, the Ministry of Health & Welfare, the Ministry of Food and Drug Safety) (Project Number: 1711139017); Dr. Min receives funding from the National Institutes of Health (Grant Nos. R01 HL111141, R01 HL115150, R01 118019, and U01 HL 105907), the Qatar National Priorities Research Program (Grant No. 09-370-3-089), and GE Healthcare. Dr. Min served as a consultant to HeartFlow, serves on the scientific advisory board of Arineta, and has an equity interest in MDDX. Dr. Bax receives unrestricted research grants from Biotronik, Medtronic, Boston Scientific, and Edwards Lifesciences. Dr. Chun receives funding from National Research Foundation (NRF) grant funded by the Korea government (Ministry of Education, Science and Technology; NRF-2015R1D1A1A01059717). Dr. Leipsic is a consultant and holds stock options in HeartFlow and Circle CVI. He receives modest speaking fees from Philips and GE Healthcare. Dr. Budoff receives grant support from the National Institutes of Health and GE Healthcare. Dr. Marques is a Consultant and holds stock options for Cleerly Inc. Dr. Samady is a co-founder and equity holder of Covanos, a consultant for Philips and Valo, and receives grant support from Phillips and St Jude Abbott/Medtronic. Dr. Andreini is on the Speakers Bureau for GE Healthcare and receives grant support from GE Healthcare and Bracco. Dr. Pontone receives institutional research grants from GE Healthcare, HeartFlow, Medtronic, Bracco, and Bayer. Dr. Berman receives software royalties from Cedars-Sinai. Dr. Virmani has received institutional research support from 480 Biomedical, Abbott Vascular, Arterial Remodeling Technologies, BioSensors International, Biotronik, Boston Scientific, Celonova, Claret Medical, Cook Medical, Cordis, Edwards Lifesciences, Medtronic, MicroVention, OrbusNeich, ReCord, SINO Medical Technology, Spectranetics, Surmodics, Terumo Corporation, W.L. Gore and Xeltis. Dr. Virmani also receives honoraria from 480 Biomedical, Abbott Vascular, Boston Scientific, Cook Medical, Lutonix, Medtronic, Terumo Corporation, and W.L. Gore, and is a consultant for 480 Biomedical, Abbott Vascular, Medtronic, and W.L. Gore. Dr. Min is an employee and holds equity interest in Cleerly, Inc. He is also on the Medical Advisory Board at Arineta. The other authors report no conflicts., (© The Author(s) 2023. Published by Oxford University Press on behalf of the European Society of Cardiology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2023

68. Effects of renin-angiotensin-aldosterone-system inhibitors on coronary atherosclerotic plaques: The PARADIGM registry.

Author

Williams C, Han D, Takagi H, Fordyce CB, Sellers S, Blanke P, Lin FY, Shaw LJ, Lee SE, Andreini D, Al-Mallah MH, Budoff MJ, Cademartiri F, Chinnaiyan K, Choi JH, Conte E, Marques H, de Araújo Gonçalves P, Gottlieb I, Hadamitzky M, Maffei E, Pontone G, Shin S, Kim YJ, Lee BK, Chun EJ, Sung JM, Virmani R, Samady H, Stone PH, Berman DS, Narula J, Bax JJ, Leipsic JA, and Chang HJ

Subjects

Humans, Aldosterone, Renin, Prospective Studies, Renin-Angiotensin System, Coronary Vessels, Disease Progression, Coronary Angiography, Computed Tomography Angiography, Registries, Angiotensins, Predictive Value of Tests, Plaque, Atherosclerotic complications, Coronary Artery Disease diagnostic imaging, Coronary Artery Disease drug therapy, Coronary Artery Disease complications

Abstract

Background and Aims: Inhibition of Renin-Angiotensin-Aldosterone-System (RAAS) has been hypothesized to improve endothelial function and reduce plaque inflammation, however, their impact on the progression of coronary atherosclerosis is unclear. We aim to study the effects of RAAS inhibitor on plaque progression and composition assessed by serial coronary CT angiography (CCTA)., Methods: We performed a prospective, multinational study consisting of a registry of patients without history of CAD, who underwent serial CCTAs. Patients using RAAS inhibitors were propensity matched to RAAS inhibitor naïve patients based on clinical and CCTA characteristics at baseline. Atherosclerotic plaques in CCTAs were quantitatively analyzed for percent atheroma volume (PAV) according to plaque composition. Interactions between RAAS inhibitor use and baseline PAV on plaque progression were assessed in the unmatched cohort using a multivariate linear regression model., Results: Of 1248 patients from the registry, 299 RAAS inhibitor taking patients were matched to 299 RAAS inhibitor naïve patients. Over a mean interval of 3.9 years, there was no significant difference in annual progression of total PAV between RAAS inhibitor naïve vs taking patients (0.75 vs 0.79%/year, p = 0.66). With interaction testing in the unmatched cohort, however, RAAS inhibitor use was significantly associated with lower non-calcified plaque progression (Beta coefficient -0.100, adjusted p = 0.038) with higher levels of baseline PAV., Conclusions: The use of RAAS inhibitors over a period of nearly 4 years did not significantly impact on total atherosclerotic plaque progression or various plaque components. However, interaction testing to assess the differential effect of RAAS inhibition based on baseline PAV suggested a significant decrease in progression of non-calcified plaque in patients with a higher burden of baseline atherosclerosis, which should be considered hypothesis generating., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier B.V.)

Published

2023

69. Sex and age-specific interactions of coronary atherosclerotic plaque onset and prognosis from coronary computed tomography.

Author

van Rosendael SE, Bax AM, Lin FY, Achenbach S, Andreini D, Budoff MJ, Cademartiri F, Callister TQ, Chinnaiyan K, Chow BJW, Cury RC, DeLago AJ, Feuchtner G, Hadamitzky M, Hausleiter J, Kaufmann PA, Kim YJ, Leipsic JA, Maffei E, Marques H, de Araújo Gonçalves P, Pontone G, Raff GL, Rubinshtein R, Villines TC, Chang HJ, Berman DS, Min JK, Bax JJ, Shaw LJ, and van Rosendael AR

Subjects

Humans, Male, Female, Child, Coronary Angiography methods, Tomography, X-Ray Computed, Prognosis, Computed Tomography Angiography methods, Age Factors, Predictive Value of Tests, Plaque, Atherosclerotic diagnostic imaging, Plaque, Atherosclerotic complications, Coronary Stenosis therapy, Coronary Artery Disease therapy

Abstract

Aims: The totality of atherosclerotic plaque derived from coronary computed tomography angiography (CCTA) emerges as a comprehensive measure to assess the intensity of medical treatment that patients need. This study examines the differences in age onset and prognostic significance of atherosclerotic plaque burden between sexes., Methods and Results: From a large multi-center CCTA registry the Leiden CCTA score was calculated in 24 950 individuals. A total of 11 678 women (58.5 ± 12.4 years) and 13 272 men (55.6 ± 12.5 years) were followed for 3.7 years for major adverse cardiovascular events (MACE) (death or myocardial infarction). The age where the median risk score was above zero was 12 years higher in women vs. men (64-68 years vs. 52-56 years, respectively, P < 0.001). The Leiden CCTA risk score was independently associated with MACE: score 6-20: HR 2.29 (1.69-3.10); score > 20: HR 6.71 (4.36-10.32) in women, and score 6-20: HR 1.64 (1.29-2.08); score > 20: HR 2.38 (1.73-3.29) in men. The risk was significantly higher for women within the highest score group (adjusted P-interaction = 0.003). In pre-menopausal women, the risk score was equally predictive and comparable with men. In post-menopausal women, the prognostic value was higher for women [score 6-20: HR 2.21 (1.57-3.11); score > 20: HR 6.11 (3.84-9.70) in women; score 6-20: HR 1.57 (1.19-2.09); score > 20: HR 2.25 (1.58-3.22) in men], with a significant interaction for the highest risk group (adjusted P-interaction = 0.004)., Conclusion: Women developed coronary atherosclerosis approximately 12 years later than men. Post-menopausal women within the highest atherosclerotic burden group were at significantly higher risk for MACE than their male counterparts, which may have implications for the medical treatment intensity., Competing Interests: Conflict of interest: None declared., (© The Author(s) 2023. Published by Oxford University Press on behalf of the European Society of Cardiology.)

Published

2023

70. Influence of Obesity on Coronary Artery Disease and Clinical Outcomes in the ADVANCE Registry.

Author

Lowenstern A, Ng N, Takagi H, Rymer JA, Koweek LM, Douglas PS, Duran JM, Rabbat M, Pontone G, Fairbairn T, Chinnaiyan K, Berman DS, De Bruyne B, Bax JJ, Akasaka T, Amano T, Nieman K, Rogers C, Kitabata H, Sand NPR, Kawasaki T, Mullen S, Matsuo H, Norgaard BL, Patel MR, Leipsic J, and Daubert MA

Subjects

Humans, Overweight, Coronary Angiography methods, Obesity complications, Obesity diagnosis, Obesity epidemiology, Computed Tomography Angiography, Registries, Predictive Value of Tests, Coronary Artery Disease diagnostic imaging, Coronary Artery Disease epidemiology, Coronary Artery Disease complications, Fractional Flow Reserve, Myocardial, Coronary Stenosis diagnostic imaging, Coronary Stenosis epidemiology, Coronary Stenosis complications

Abstract

Background: The relationship between body size and cardiovascular events is complex. This study utilized the ADVANCE (Assessing Diagnostic Value of Noninvasive FFR CT in Coronary Care) Registry to investigate the association between body mass index (BMI), coronary artery disease (CAD), and clinical outcomes., Methods: The ADVANCE registry enrolled patients undergoing evaluation for clinically suspected CAD who had >30% stenosis on cardiac computed tomography angiography. Patients were stratified by BMI: normal <25 kg/m 2 , overweight 25-29.9 kg/m 2 , and obese ≥30 kg/m 2 . Baseline characteristics, cardiac computed tomography angiography and computed tomography fractional flow reserve (FFR CT ), were compared across BMI groups. Adjusted Cox proportional hazards models assessed the association between BMI and outcomes., Results: Among 5014 patients, 2166 (43.2%) had a normal BMI, 1883 (37.6%) were overweight, and 965 (19.2%) were obese. Patients with obesity were younger and more likely to have comorbidities, including diabetes and hypertension (all P <0.001), but were less likely to have obstructive coronary stenosis (65.2% obese, 72.2% overweight, and 73.2% normal BMI; P <0.001). However, the rate of hemodynamic significance, as indicated by a positive FFR CT , was similar across BMI categories (63.4% obese, 66.1% overweight, and 67.8% normal BMI; P =0.07). Additionally, patients with obesity had a lower coronary volume-to-myocardial mass ratio compared with patients who were overweight or had normal BMI (obese BMI, 23.7; overweight BMI, 24.8; and normal BMI, 26.3; P <0.001). After adjustment, the risk of major adverse cardiovascular events was similar regardless of BMI (all P >0.05)., Conclusions: Patients with obesity in the ADVANCE registry were less likely to have anatomically obstructive CAD by cardiac computed tomography angiography but had a similar degree of physiologically significant CAD by FFR CT and similar rates of adverse events. An exclusively anatomic assessment of CAD in patients with obesity may underestimate the burden of physiologically significant disease that is potentially due to a significantly lower volume-to-myocardial mass ratio., Competing Interests: Disclosures Dr Lowenstern reports consulting for Edwards Lifesciences. Dr Takagi reports speaking fees from HeartFlow Japan GK and consulting fee from HeartFlow Inc. Dr Koweek reports a research grant from HeartFlow. Dr Douglas reports a research grant from HeartFlow. Dr Pontone reports grants from GE Healthcare and HeartFlow and personal fees from GE, Bracco, and Medtronic. Dr Berman reports research support from HeartFlow. Dr de Bruyne reports grants from Abbott, St Jude Medical, and Medtronic, and other support from St Jude Medical, Boston Scientific, Opsens, Omega Pharma, Siemens, Edwards, GE, Sanofi, HeartFlow, and Bayer. Dr Bax reports grants from Boston Scientific, Medtronic, Biotronik, and Edwards Lifesciences. T. Akasaka reports grants from Daiichi-Sankyo, St. Jude Medical Japan, Boehringer Ingelheim Japan, Bayer, Pfizer Inc, Foundation for Biomedical Research and Innovation, Otsuka Pharmaceutical Co, Astellas Pharma, Terumo, Abbott Vascular Japan, Goodman Co, and Boston Scientific Japan and has served as a consultant for Daiichi-Sankyo, St. Jude Medical Japan, Boehringer Ingelheim Japan, Bayer, Pfizer Inc, Otsuka Pharmaceutical Co, Astellas Pharma Inc, Terumo, Abbott Vascular Japan, Goodman Co, Boston Scientific Japan, and HeartFlow Japan. Dr Nieman reports support from the National Institutes of Health (NIH R01–HL141712; NIH R01–HL146754) and reports unrestricted institutional research support from Siemens Healthineers, Bayer, HeartFlow Inc, Novartis unrelated to this work, consulting for Siemens Medical Solutions USA, and equity in Lumen Therapeutics. Dr Rogers reports receiving salary and equity in HeartFlow and is a full-time employee of HeartFlow; Dr Fairbairn is on the speaker’s bureau for HeartFlow. S. Mullen reports being an employee of and owning equity in HeartFlow. Dr Norgaard reports an unrestricted institutional research grant from HeartFlow Inc. Dr Patel reports research grants from Bayer, Janssen, HeartFlow, Novartis, the National Heart, Lung, and Blood Institute, and the Advisory Board/Consulting for Bayer, Janssen, HeartFlow, and Novartis. Dr Leipsic reports being a consultant and having stock options for Circle CVI and HeartFlow. The other authors report no conflicts.

Published

2023

71. Clinical and Coronary Plaque Predictors of Atherosclerotic Nonresponse to Statin Therapy.

Author

van Rosendael SE, van den Hoogen IJ, Lin FY, Andreini D, Al-Mallah MH, Budoff MJ, Cademartiri F, Chinnaiyan K, Choi JH, Conte E, Marques H, de Araújo Gonçalves P, Gottlieb I, Hadamitzky M, Leipsic JA, Maffei E, Pontone G, Raff GL, Shin S, Kim YJ, Lee BK, Chun EJ, Sung JM, Lee SE, Virmani R, Samady H, Stone PH, Min JK, Narula J, Shaw LJ, Chang HJ, van Rosendael AR, and Bax JJ

Subjects

Humans, Middle Aged, Aged, Coronary Angiography methods, Coronary Vessels pathology, Prospective Studies, Disease Progression, Predictive Value of Tests, Computed Tomography Angiography methods, Plaque, Atherosclerotic drug therapy, Coronary Artery Disease pathology, Hydroxymethylglutaryl-CoA Reductase Inhibitors therapeutic use, Atherosclerosis pathology

Abstract

Background: Statins reduce the incidence of major cardiovascular events, but residual risk remains. The study examined the determinants of atherosclerotic statin nonresponse., Objectives: This study aimed to investigate factors associated with statin nonresponse-defined atherosclerosis progression in patients treated with statins., Methods: The multicenter PARADIGM (Progression of AtheRosclerotic PlAque DetermIned by Computed TomoGraphic Angiography Imaging) registry included patients who underwent serial coronary computed tomography angiography ≥2 years apart, with whole-heart coronary tree quantification of vessel, lumen, and plaque, and matching of baseline and follow-up coronary segments and lesions. Patients with statin use at baseline and follow-up coronary computed tomography angiography were included. Atherosclerotic statin nonresponse was defined as an absolute increase in percent atheroma volume (PAV) of 1.0% or more per year. Furthermore, a secondary endpoint was defined by the additional requirement of progression of low-attenuation plaque or fibro-fatty plaque., Results: The authors included 649 patients (age 62.0 ± 9.0 years, 63.5% male) on statin therapy and 205 (31.5%) experienced atherosclerotic statin nonresponse. Age, diabetes, hypertension, and all atherosclerotic plaque features measured at baseline scan (high-risk plaque [HRP] features, calcified and noncalcified PAV, and lumen volume) were significantly different between patients with and without atherosclerotic statin nonresponse, whereas only diabetes, number of HRP features, and noncalcified and calcified PAV were independently associated with atherosclerotic statin nonresponse (odds ratio [OR]: 1.41 [95% CI: 0.95-2.11], OR: 1.15 [95% CI: 1.09-1.21], OR: 1.06 [95% CI: 1.02-1.10], OR: 1.07 [95% CI: 1.03-1.12], respectively). For the secondary endpoint (N = 125, 19.2%), only noncalcified PAV and number of HRP features were the independent determinants (OR: 1.08 [95% CI: 1.03-1.13] and OR: 1.21 [95% CI: 1.06-1.21], respectively)., Conclusions: In patients treated with statins, baseline plaque characterization by plaque burden and HRP is associated with atherosclerotic statin nonresponse. Patients with the highest plaque burden including HRP were at highest risk for plaque progression, despite statin therapy. These patients may need additional therapies for further risk reduction., Competing Interests: Funding Support and Author Disclosures This work was supported by the Leading Foreign Research Institute Recruitment Program through the National Research Foundation (NRF) of Korea funded by the Ministry of Science and ICT (MSIT) (grant no. 2012027176). The study was also funded in part by a generous gift from the Dalio Institute of Cardiovascular Imaging (New York, New York, USA) and the Michael Wolk Foundation (New York, New York, USA). Dr Min is an employee of Cleerly Inc. Dr Leipsic is a consultant to and holds stock options in Circle CVI and HeartFlow; and has received modest speaking fees from Philips and GE Healthcare. Dr Chinnaiyan is a noncompensated medical advisory board member of Heartflow Inc. Dr Samady serves on the scientific advisory board of Philips; has equity interest in Covanos Inc; and has a research grant from Medtronic, Abbott Vascular, and Philips. Dr Virmani is a consultant of Abbott Vascular, Boston Scientific, Celonova, OrbusNeich Medical, Terumo Corporation, W.L. Gore, Edwards Lifesciences, Cook Medical, CSI, ReCor Medical, SinoMedical Sciences Technology, Surmodics, and Bard BD; and is a scientific Advisory Board Member of Medtronic and Xeltis. All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2023 American College of Cardiology Foundation. All rights reserved.)

Published

2023

72. Risk factors based vessel-specific prediction for stages of coronary artery disease using Bayesian quantile regression machine learning method: Results from the PARADIGM registry.

Author

Park HB, Lee J, Hong Y, Byungchang S, Kim W, Lee BK, Lin FY, Hadamitzky M, Kim YJ, Conte E, Andreini D, Pontone G, Budoff MJ, Gottlieb I, Chun EJ, Cademartiri F, Maffei E, Marques H, Gonçalves PA, Leipsic JA, Shin S, Choi JH, Virmani R, Samady H, Chinnaiyan K, Stone PH, Berman DS, Narula J, Shaw LJ, Bax JJ, Min JK, Kook W, and Chang HJ

Subjects

Humans, Angina Pectoris, Bayes Theorem, Coronary Angiography, Coronary Vessels diagnostic imaging, Machine Learning, Registries, Risk Factors, Coronary Artery Disease diagnosis, Coronary Artery Disease epidemiology

Abstract

Background and Hypothesis: The recently introduced Bayesian quantile regression (BQR) machine-learning method enables comprehensive analyzing the relationship among complex clinical variables. We analyzed the relationship between multiple cardiovascular (CV) risk factors and different stages of coronary artery disease (CAD) using the BQR model in a vessel-specific manner., Methods: From the data of 1,463 patients obtained from the PARADIGM (NCT02803411) registry, we analyzed the lumen diameter stenosis (DS) of the three vessels: left anterior descending (LAD), left circumflex (LCx), and right coronary artery (RCA). Two models for predicting DS and DS changes were developed. Baseline CV risk factors, symptoms, and laboratory test results were used as the inputs. The conditional 10%, 25%, 50%, 75%, and 90% quantile functions of the maximum DS and DS change of the three vessels were estimated using the BQR model., Results: The 90th percentiles of the DS of the three vessels and their maximum DS change were 41%-50% and 5.6%-7.3%, respectively. Typical anginal symptoms were associated with the highest quantile (90%) of DS in the LAD; diabetes with higher quantiles (75% and 90%) of DS in the LCx; dyslipidemia with the highest quantile (90%) of DS in the RCA; and shortness of breath showed some association with the LCx and RCA. Interestingly, High-density lipoprotein cholesterol showed a dynamic association along DS change in the per-patient analysis., Conclusions: This study demonstrates the clinical utility of the BQR model for evaluating the comprehensive relationship between risk factors and baseline-grade CAD and its progression., (© 2023 The Authors. Clinical Cardiology published by Wiley Periodicals, LLC.)

Published

2023

73. 2022 use of coronary computed tomographic angiography for patients presenting with acute chest pain to the emergency department: An expert consensus document of the Society of cardiovascular computed tomography (SCCT): Endorsed by the American College of Radiology (ACR) and North American Society for cardiovascular Imaging (NASCI).

Author

Maroules CD, Rybicki FJ, Ghoshhajra BB, Batlle JC, Branch K, Chinnaiyan K, Hamilton-Craig C, Hoffmann U, Litt H, Meyersohn N, Shaw LJ, Villines TC, and Cury RC

Subjects

Humans, United States, Consensus, Predictive Value of Tests, Chest Pain diagnostic imaging, Chest Pain etiology, Emergency Service, Hospital, Angiography, North America, Coronary Angiography methods, Computed Tomography Angiography, Radiology

Abstract

Coronary computed tomography angiography (CTA) improves the quality of care for patients presenting with acute chest pain (ACP) to the emergency department (ED), particularly in patients with low to intermediate likelihood of acute coronary syndrome (ACS). The Society of Cardiovascular Computed Tomography Guidelines Committee was formed to develop recommendations for acquiring, interpreting, and reporting of coronary CTA to ensure appropriate, safe, and efficient use of this modality. Because of the increasing use of coronary CTA testing for the evaluation of ACP patients, the Committee has been charged with the development of the present document to assist physicians and technologists. These recommendations were produced as an educational tool for practitioners evaluating acute chest pain patients in the ED, in the interest of developing systematic standards of practice for coronary CTA based on the best available data or broad expert consensus. Due to the highly variable nature of medical care, approaches to patient selection, preparation, protocol selection, interpretation or reporting that differs from these guidelines may represent an appropriate variation based on a legitimate assessment of an individual patient's needs., Competing Interests: Declaration of Competing Interest The Society of Cardiovascular Computed Tomography Guidelines Committee makes every effort to avoid any actual or potential conflicts of interest that might arise as a result of an outside relationship or a personal interest of a member of the Guidelines Committee or its Writing Groups. Specifically, all members of the Guidelines Committee and of both Writing Committees are asked to provide disclosure statements of all such relationships that might be perceived as real or potential conflicts of interest relevant to the document topic. The relationships with industry information for Writing Group and Committee members are available in the Acknowledgments section of this document. These are reviewed by the Guidelines Committee and will be updated as changes occur., (Published by Elsevier Inc.)

Published

2023

74. Prognostic Significance of Nonobstructive Left Main Coronary Artery Disease in Patients With and Without Diabetes: Long-Term Outcomes From the CONFIRM Registry.

Author

Lee J, Shaikh K, Nakanishi R, Gransar H, Achenbach S, Al-Mallah MH, Andreini D, Bax JJ, Berman DS, Cademartiri F, Callister TQ, Chang HJ, Chinnaiyan K, Chow BJW, Cury RC, DeLago A, Feuchtner G, Hadamitzky M, Hausleiter J, Kaufmann PA, Kim YJ, Leipsic JA, Maffei E, Marques H, de Araújo Gonçalves P, Pontone G, Rubinshtein R, Villines TC, Lu Y, Peña JM, Lin FY, Min JK, Shaw LJ, and Budoff MJ

Subjects

Humans, Middle Aged, Aged, Prognosis, Constriction, Pathologic, Coronary Angiography methods, Proportional Hazards Models, Risk Factors, Registries, Coronary Artery Disease complications, Coronary Artery Disease diagnosis, Coronary Artery Disease epidemiology, Diabetes Mellitus epidemiology

Abstract

Background: Prognostic significance of non-obstructive left main (LM) disease was recently reported. However, the influence of diabetes mellitus (DM) on event rates in patients with and without non-obstructive LM disease is not well-known., Methods: We evaluated 27,252 patients undergoing coronary computed tomographic angiography from the COroNary CT Angiography Evaluation For Clinical Outcomes: An InteRnational Multicenter (CONFIRM) Registry. Cumulative long-term incidence of all-cause mortality (ACM) was assessed between DM and non-DM patients by normal or non-obstructive LM disease (1-49% stenosis)., Results: The mean age of the study population was 57.6±12.6 years. Of the 27,252 patients, 4,434 (16%) patients had DM. A total of 899 (3%) deaths occurred during the follow-up of 3.6±1.9. years. Compared to patients with normal LM, those with non-obstructive LM had more pronounced overall coronary atherosclerosis and more cardiovascular risk factors. After clinical risk factors, segment involvement score, and stenosis severity adjustment, compared to patients without DM and normal LM, patients with DM were associated with increased ACM regardless of normal (HR 1.48, 95% CI 1.22-1.78, p<0.001) or non-obstructive LM (HR 1.46, 95% CI 1.04-2.04, p=0.029), while nonobstructive LM disease was not associated with increased ACM in patients without DM (HR 0.85, 95% CI 0.67-1.07, p=0.165) and there was no significant interaction between DM and LM status (HR 1.03, 95% CI 0.69-1.54, p=0.879)., Conclusion: From the CONFIRM registry, we demonstrated that DM was associated with increased ACM. However, the presence of non-obstructive LM was not an independent risk marker of ACM, and there was no significant interaction between DM and non-obstructive LM disease for ACM., (Copyright © 2022 Australian and New Zealand Society of Cardiac and Thoracic Surgeons (ANZSCTS) and the Cardiac Society of Australia and New Zealand (CSANZ). Published by Elsevier B.V. All rights reserved.)

Published

2023

75. Glycemic control is independently associated with rapid progression of coronary atherosclerosis in the absence of a baseline coronary plaque burden: a retrospective case-control study from the PARADIGM registry.

Author

Won KB, Lee BK, Lin FY, Hadamitzky M, Kim YJ, Sung JM, Conte E, Andreini D, Pontone G, Budoff MJ, Gottlieb I, Chun EJ, Cademartiri F, Maffei E, Marques H, de Araújo Gonçalves P, Leipsic JA, Lee SE, Shin S, Choi JH, Virmani R, Samady H, Chinnaiyan K, Berman DS, Narula J, Shaw LJ, Bax JJ, Min JK, and Chang HJ

Subjects

Humans, Male, Middle Aged, Aged, Female, Retrospective Studies, Coronary Angiography methods, Case-Control Studies, Glycemic Control, Glycated Hemoglobin, Prospective Studies, Disease Progression, Computed Tomography Angiography methods, Coronary Vessels diagnostic imaging, Registries, Predictive Value of Tests, Plaque, Atherosclerotic, Coronary Artery Disease diagnostic imaging

Abstract

Background: The baseline coronary plaque burden is the most important factor for rapid plaque progression (RPP) in the coronary artery. However, data on the independent predictors of RPP in the absence of a baseline coronary plaque burden are limited. Thus, this study aimed to investigate the predictors for RPP in patients without coronary plaques on baseline coronary computed tomography angiography (CCTA) images., Methods: A total of 402 patients (mean age: 57.6 ± 10.0 years, 49.3% men) without coronary plaques at baseline who underwent serial coronary CCTA were identified from the Progression of Atherosclerotic Plaque Determined by Computed Tomographic Angiography Imaging (PARADIGM) registry and included in this retrospective study. RPP was defined as an annual change of ≥ 1.0%/year in the percentage atheroma volume (PAV)., Results: During a median inter-scan period of 3.6 years (interquartile range: 2.7-5.0 years), newly developed coronary plaques and RPP were observed in 35.6% and 4.2% of the patients, respectively. The baseline traditional risk factors, i.e., advanced age (≥ 60 years), male sex, hypertension, diabetes mellitus, hyperlipidemia, obesity, and current smoking status, were not significantly associated with the risk of RPP. Multivariate linear regression analysis showed that the serum hemoglobin A1c level (per 1% increase) measured at follow-up CCTA was independently associated with the annual change in the PAV (β: 0.098, 95% confidence interval [CI]: 0.048-0.149; P < 0.001). The multiple logistic regression models showed that the serum hemoglobin A1c level had an independent and positive association with the risk of RPP. The optimal predictive cut-off value of the hemoglobin A1c level for RPP was 7.05% (sensitivity: 80.0%, specificity: 86.7%; area under curve: 0.816 [95% CI: 0.574-0.999]; P = 0.017)., Conclusion: In this retrospective case-control study, the glycemic control status was strongly associated with the risk of RPP in patients without a baseline coronary plaque burden. This suggests that regular monitoring of the glycemic control status might be helpful for preventing the rapid progression of coronary atherosclerosis irrespective of the baseline risk factors. Further randomized investigations are necessary to confirm the results of our study., Trial Registration: ClinicalTrials.gov NCT02803411., (© 2022. The Author(s).)

Published

2022

76. CAD-RADS™ 2.0 - 2022 Coronary Artery Disease - Reporting and Data System.: An expert consensus document of the Society of Cardiovascular Computed Tomography (SCCT), the American College of Cardiology (ACC), the American College of Radiology (ACR) and the North America Society of Cardiovascular Imaging (NASCI).

Author

Cury RC, Leipsic J, Abbara S, Achenbach S, Berman D, Bittencourt M, Budoff M, Chinnaiyan K, Choi AD, Ghoshhajra B, Jacobs J, Koweek L, Lesser J, Maroules C, Rubin GD, Rybicki FJ, Shaw LJ, Williams MC, Williamson E, White CS, Villines TC, and Blankstein R

Subjects

Humans, United States, Consensus, Constriction, Pathologic, Artificial Intelligence, Predictive Value of Tests, Computed Tomography Angiography, North America, Coronary Artery Disease diagnostic imaging, Coronary Stenosis, Cardiology, Radiology

Abstract

Coronary Artery Disease Reporting and Data System (CAD-RADS) was created to standardize reporting system for patients undergoing coronary CT angiography (CCTA) and to guide possible next steps in patient management. The goal of this updated 2022 CAD-RADS 2.0 is to improve the initial reporting system for CCTA by considering new technical developments in Cardiac CT, including data from recent clinical trials and new clinical guidelines. The updated CAD-RADS classification will follow an established framework of stenosis, plaque burden, and modifiers, which will include assessment of lesion-specific ischemia using CT fractional-flow-reserve (CT-FFR) or myocardial CT perfusion (CTP), when performed. Similar to the method used in the original CAD-RADS version, the determinant for stenosis severity classification will be the most severe coronary artery luminal stenosis on a per-patient basis, ranging from CAD-RADS 0 (zero) for absence of any plaque or stenosis to CAD-RADS 5 indicating the presence of at least one totally occluded coronary artery. Given the increasing data supporting the prognostic relevance of coronary plaque burden, this document will provide various methods to estimate and report total plaque burden. The addition of P1 to P4 descriptors are used to denote increasing categories of plaque burden. The main goal of CAD-RADS, which should always be interpreted together with the impression found in the report, remains to facilitate communication of test results with referring physicians along with suggestions for subsequent patient management. In addition, CAD-RADS will continue to provide a framework of standardization that may benefit education, research, peer-review, artificial intelligence development, clinical trial design, population health and quality assurance with the ultimate goal of improving patient care., (Copyright © 2022 American College of Radiology. Published by Elsevier Inc. All rights reserved.)

Published

2022

77. Age related compositional plaque burden by CT in patients with future ACS.

Author

van Rosendael AR, van den Hoogen IJ, Lin FY, Gianni U, Lu Y, Andreini D, Al-Mallah MH, Cademartiri F, Chinnaiyan K, Chow BJW, Conte E, Cury RC, Feuchtner G, de Araújo Gonçalves P, Hadamitzky M, Kim YJ, Leipsic JA, Maffei E, Marques H, Plank F, Pontone G, Raff GL, Villines TC, Lee SE, Al'Aref SJ, Baskaran L, Cho I, Danad I, Gransar H, Budoff MJ, Samady H, Virmani R, Min JK, Narula J, Berman DS, Chang HJ, Shaw LJ, and Bax JJ

Subjects

Humans, Middle Aged, Aged, Aged, 80 and over, Coronary Angiography methods, Cross-Sectional Studies, Predictive Value of Tests, Computed Tomography Angiography methods, Tomography, X-Ray Computed methods, Coronary Artery Disease diagnostic imaging, Plaque, Atherosclerotic, Atherosclerosis

Abstract

Background: We examined age differences in whole-heart volumes of non-calcified and calcified atherosclerosis by coronary computed tomography angiography (CCTA) of patients with future ACS., Methods: A total of 234 patients with core-lab adjudicated ACS after baseline CCTA were enrolled. Atherosclerotic plaque was quantified and characterized from the main epicardial vessels and side branches on a 0.5 ​mm cross-sectional basis. Calcified plaque and non-calcified plaque were defined by above or below 350 Hounsfield units. Patients were categorized according to their age by deciles. Also, coronary artery calcium scores (CACS) were evaluated when available., Results: Patients were on average 62.2 ​± ​11.5 years old. On the pre-ACS CCTA, patients showed diffuse, multi-site, predominantly non-obstructive atherosclerosis across all age categories, with plaque being detected in 93.5% of all ACS cases. The proportion calcified plaque from the total plaque burden increased significantly with older presentation (10% calcification in those <50 years, and 50% calcification in those >80 years old). Patients with ACS <50 years had remarkably lower atherosclerotic burden compared with older patients, but a high proportion of high risk markers such as low-attenuation plaque. CACS was >0 in 85% of the patients older than 50 years, and in 57% of patients younger than 50 years., Conclusion: The proportion of calcified plaque varied depending on patient age at the time of ACS. Only a small proportion of plaque was calcified when ACS occurred at <50 years old, while this increased gradually with older age. Purely non-calcified atherosclerotic plaque was not uncommon in patients <50 years., Competing Interests: Declaration of competing interest Dr. Chinnaiyan is a non-compensated medical advisory board member of Heartflow Inc. Dr. Chow holds the Saul and Edna Goldfarb Chair in Cardiac Imaging Research, receives support from CV Diagnostix and Ausculsciences, receives educational support from TeraRecon Inc., and has equity interest in General Electric. Dr. Min is an employee of Cleerly, Inc. Dr. Samady serves on the scientific advisory board of Philips, has equity interest in Covanos Inc., and has a research grant from Medtronic, Abbott Vascular, and Philips. Dr. Shaw is on the scientific advisory board for Covanos, Inc. The remaining authors have no relevant conflicts to disclose., (Copyright © 2022. Published by Elsevier Inc.)

Published

2022

78. Marked variation in atherosclerotic plaque progression between the major epicardial coronary arteries.

Author

Bax AM, Lin FY, van Rosendael AR, Ma X, Lu Y, van den Hoogen IJ, Gianni U, Tantawy SW, Andreini D, Budoff MJ, Cademartiri F, Chinnaiyan K, Choi JH, Conte E, de Araújo Gonçalves P, Gottlieb I, Hadamitzky M, Leipsic JA, Maffei E, Pontone G, Stone G, Shin S, Kim YJ, Lee BK, Chun EJ, Sung JM, Lee SE, Berman DS, Narula J, Chang HJ, and Shaw LJ

Subjects

Humans, Male, Middle Aged, Aged, Female, Coronary Vessels, Coronary Angiography methods, Prospective Studies, Plaque, Atherosclerotic diagnostic imaging, Hydroxymethylglutaryl-CoA Reductase Inhibitors, Atherosclerosis

Abstract

Aims: Atherosclerosis develops progressively and worsens over time, yet event risk patterns vary in the left circumflex (LCx), right coronary artery (RCA) and left anterior descending (LAD). The aim of this analysis was to examine varying progressive disease alterations between the three major coronary arteries., Methods and Results: Patients were included from a prospective, international registry of consecutive patients who underwent serial CCTA at a median interval of 3.3 years. Annual progression of quantitative total and compositional plaque volume were compared between the three coronary arteries (LCx, LAD, and RCA). Other analyses compared stenosis ≥50% and new high-risk plaque (HRP; ≥2 of the following: spotty calcification, positive remodelling, napkin-ring sign, and low-attenuation plaque) on follow-up. Generalized estimating equations and marginal Cox regression models were used to compare progression, with covariate adjustment by the baseline atherosclerotic cardiovascular disease risk score, statin use, and plaque burden. Quantitative plaque measurements were calculated in 1344 patients (age 60 ± 9 years, 57% men). Plaque progression occurred less often in the LCx (41.0%) as compared to the RCA (52.7%) and LAD (77.4%, P &lt; 0.001). Odds for annual plaque burden increase ≥population mean were 1.98- and 1.43-fold as high in the LAD (P &lt; 0.001) and RCA (P &lt; 0.001) as compared to the LCx. Similarly, the LAD was associated with a 2.45 higher risk of progression to obstructive CAD (P &lt; 0.001), as compared to the LCx; with no differences between the RCA and LCx (P = 0.13). New HRP lesions formed least often in the LCx (3.4%), followed by the RCA (8.1%) and most often in the LAD (10.1%; P &lt; 0.001)., Conclusions: Our findings reveal novel insights into varied patterns of atherosclerotic plaque progression within the LCx as compared to the other epicardial coronary arteries. These varied patterns reflect differing stages in the disease process or differing pathogenic milieu across the coronary arteries., Competing Interests: Conflict of interest: K.C. is a non-compensated medical advisor for Heartflow Inc. L.J.S. is on the scientific advisory board for Covanos Inc. J.A.L. is a consultant to and hold stock options in Circle CVI and HeartFlow and receives research support from GE Healthcare and serves on the speakers’ bureau for Philips and GE Healthcare. G.S. has received speaker or other honoraria from Cook, Terumo, QOOL Therapeutics, and Orchestra Biomed; has served as a consultant to Valfix, TherOx, Vascular Dynamics, Robocath, HeartFlow, Gore, Ablative Solutions, Miracor, Neovasc, V-Wave, Abiomed, Ancora, MAIA Pharmaceuticals, Vectorious, Reva, Matrizyme, Cardiomech; and has equity/options from Ancora, Qool Therapeutics, Cagent, Applied Therapeutics, Biostar family of funds, SpectraWave, Orchestra Biomed, Aria, Cardiac Success, MedFocus family of funds, and Valfix., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2022. For permissions, please email: journals.permissions@oup.com.)

Published

2022

79. Association Between Changes in Perivascular Adipose Tissue Density and Plaque Progression.

Author

Lee SE, Sung JM, Andreini D, Al-Mallah MH, Budoff MJ, Cademartiri F, Chinnaiyan K, Choi JH, Chun EJ, Conte E, Gottlieb I, Hadamitzky M, Kim YJ, Lee BK, Leipsic JA, Maffei E, Marques H, de Araújo Gonçalves P, Pontone G, Shin S, Kitslaar PH, Reiber JHC, Stone PH, Samady H, Virmani R, Narula J, Berman DS, Shaw LJ, Bax JJ, Lin FY, Min JK, and Chang HJ

Subjects

Adipose Tissue diagnostic imaging, Adipose Tissue pathology, Aged, Computed Tomography Angiography methods, Coronary Angiography methods, Coronary Vessels diagnostic imaging, Coronary Vessels pathology, Disease Progression, Female, Humans, Inflammation pathology, Lipids, Male, Middle Aged, Predictive Value of Tests, Prospective Studies, Coronary Artery Disease diagnostic imaging, Coronary Artery Disease pathology, Plaque, Atherosclerotic

Abstract

Background: The association between the change in vessel inflammation, as quantified by perivascular adipose tissue (PVAT) density, and the progression of coronary atherosclerosis remains to be determined., Objectives: The purpose of this study was to explore the association between the change in PVAT density and the progression of total and compositional plaque volume (PV)., Methods: Patients were selected from a prospective multinational registry. Patients who underwent serial coronary computed tomography angiography studies with ≥2-year intervals and were scanned with the same tube voltage at baseline and follow-up were included. Total and compositional PV and PVAT density at baseline and follow-up were quantitatively analyzed for every lesion. Multivariate linear regression models using cluster analyses were constructed., Results: A total of 1,476 lesions were identified from 474 enrolled patients (mean age 61.2 ± 9.3 years; 65.0% men). The mean PVAT density was -74.1 ± 11.5 HU, and total PV was 48.1 ± 83.5 mm 3 (19.2 ± 44.8 mm 3 of calcified PV and 28.9 ± 51.0 mm 3 of noncalcified PV). On multivariate analysis (adjusted for clinical risk factors, medication use, change in lipid levels, total PV at baseline, luminal HU attenuation, location of lesions, and tube voltage), the increase in PVAT density was positively associated with the progression of total PV (estimate = 0.275 [95% CI: 0.004-0.545]; P = 0.047), driven by the association with fibrous PV (estimate = 0.245 [95% CI: 0.070-0.420]; P = 0.006). Calcified PV progression was not associated with the increase in PVAT density (P > 0.050)., Conclusions: Increase in vessel inflammation represented by PVAT density is independently associated with the progression of the lipid component of coronary atherosclerotic plaques. (Progression of AtheRosclerotic PlAque DetermIned by Computed TomoGraphic Angiography Imaging [PARADIGM]; NCT02803411)., Competing Interests: Funding Support and Author Disclosures This work was supported by the Korea Medical Device Development Fund grant funded by the Korea government (the Ministry of Science and ICT; the Ministry of Trade, Industry and Energy; the Ministry of Health and Welfare, Republic of Korea, the Ministry of Food and Drug Safety) (Project Number: 202016B02). The study was also funded in part by a grant from the Dalio Foundation. Dr Leipsic has served as a consultant for and holds stock options in HeartFlow and Circle CVI. Drs Kitslaar and Reiber are employees of Medis Medical Imaging. Dr Samady has served on the scientific advisory board of Philips; has equity interest in Covanos Inc; and has received a research grant from Medtronic. Dr Lin has received grant support from GE Healthcare. Dr Min has received funding from GE Healthcare; has served on the scientific advisory board of Arineta and GE Healthcare; and has an equity interest in and is an employee of Cleerly, Inc. Dr Chang has received funding from the Leading Foreign Research Institute Recruitment Program through the National Research Foundation (NRF) of Korea funded by the Ministry of Science and ICT (MSIT) (Grant No. 2012027176). All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2022 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.)

Published

2022

80. Early versus late acute coronary syndrome risk patterns of coronary atherosclerotic plaque.

Author

van den Hoogen IJ, Stuijfzand WJ, Gianni U, van Rosendael AR, Bax AM, Lu Y, Tantawy SW, Hollenberg EJ, Andreini D, Al-Mallah MH, Cademartiri F, Chinnaiyan K, Chow BJW, Conte E, Cury RC, Feuchtner G, Gonçalves PA, Hadamitzky M, Kim YJ, Leipsic J, Maffei E, Marques H, Plank F, Pontone G, Villines TC, Lee SE, Al'Aref SJ, Baskaran L, Danad I, Gransar H, Budoff MJ, Samady H, Virmani R, Berman DS, Chang HJ, Narula J, Min JK, Bax JJ, Lin FY, and Shaw LJ

Subjects

Aged, Computed Tomography Angiography, Coronary Angiography methods, Cross-Sectional Studies, Female, Humans, Male, Middle Aged, Predictive Value of Tests, Acute Coronary Syndrome diagnostic imaging, Acute Coronary Syndrome epidemiology, Acute Coronary Syndrome etiology, Coronary Artery Disease complications, Coronary Artery Disease diagnostic imaging, Coronary Artery Disease epidemiology, Plaque, Atherosclerotic complications, Plaque, Atherosclerotic diagnostic imaging

Abstract

Aims: The temporal instability of coronary atherosclerotic plaque preceding an incident acute coronary syndrome (ACS) is not well defined. We sought to examine differences in the volume and composition of coronary atherosclerosis between patients experiencing an early (≤90 days) versus late ACS (>90 days) after baseline coronary computed tomography angiography (CCTA)., Methods and Results: From a multicenter study, we enrolled patients who underwent a clinically indicated baseline CCTA and experienced ACS during follow-up. Separate core laboratories performed blinded adjudication of ACS events and quantification of CCTA including compositional plaque volumes by Hounsfield units (HU): calcified plaque >350 HU, fibrous plaque 131-350 HU, fibrofatty plaque 31-130 HU and necrotic core <30 HU. In 234 patients (mean age 62 ± 12 years, 36% women), early and late ACS occurred in 129 and 105 patients after a mean of 395 ± 622 days, respectively. Patients with early ACS had a greater maximal diameter stenosis and maximal cross-sectional plaque burden as compared to patients with late ACS (P < 0.05). Larger total, fibrous, fibrofatty, and necrotic core volumes were observed in the early ACS group (P < 0.05). Findings for total, fibrous, fibrofatty, and necrotic core volumes were reproduced in an external validation cohort (P < 0.05)., Conclusions: Volumetric differences in composition of coronary atherosclerosis exist between ACS patients according to their timing antecedent to the acute event. These data support that a large burden of non-calcified plaque on CCTA is strongly associated with near-term plaque instability and ACS risk., Competing Interests: Conflict of interest: Dr Chow receives support from CV Diagnostix and Ausculsciences, educational support from TeraRecon Inc., and has equity interest in General Electric. Dr Leipsic is a consultant and has stock options in Circle CVI and HeartFlow and receives research support from GE Healthcare. Dr Min is an employee of Cleerly, Inc. Dr Shaw serves on the scientific advisory board for Covanos, Inc. Dr Samady serves on the scientific advisory board of Philips, has equity interest in Covanos Inc., and has a research grant from Medtronic, Abbott Vascular, and Philips. The remaining authors have no relevant conflicts to disclose., (© The Author(s) 2022. Published by Oxford University Press on behalf of the European Society of Cardiology. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2022

81. Measurement of compensatory arterial remodelling over time with serial coronary computed tomography angiography and 3D metrics.

Author

van den Hoogen IJ, van Rosendael AR, Lin FY, Gianni U, Andreini D, Al-Mallah MH, Budoff MJ, Cademartiri F, Chinnaiyan K, Hyun Choi J, Conte E, Marques H, de Araújo Gonçalves P, Gottlieb I, Hadamitzky M, Leipsic J, Maffei E, Pontone G, Shin S, Kim YJ, Lee BK, Chun EJ, Sung JM, Lee SE, Berman DS, Virmani R, Samady H, Stone PH, Narula J, Chang HJ, Min JK, Shaw LJ, and Bax JJ

Subjects

Aged, Computed Tomography Angiography methods, Coronary Angiography methods, Coronary Vessels diagnostic imaging, Female, Humans, Male, Middle Aged, Coronary Artery Disease diagnostic imaging, Plaque, Atherosclerotic diagnostic imaging

Abstract

Aims: The magnitude of alterations in which coronary arteries remodel and narrow over time is not well understood. We aimed to examine changes in coronary arterial remodelling and luminal narrowing by three-dimensional (3D) metrics from serial coronary computed tomography angiography (CCTA)., Methods and Results: From a multicentre registry of patients with suspected coronary artery disease who underwent clinically indicated serial CCTA (median interscan interval = 3.3 years), we quantitatively measured coronary plaque, vessel, and lumen volumes on both scans. Primary outcome was the per-segment change in coronary vessel and lumen volume from a change in plaque volume, focusing on arterial remodelling. Multivariate generalized estimating equations including statins were calculated comparing associations between groups of baseline percent atheroma volume (PAV) and location within the coronary artery tree. From 1245 patients (mean age 61 ± 9 years, 39% women), a total of 5721 segments were analysed. For each 1.00 mm3 increase in plaque volume, the vessel volume increased by 0.71 mm3 [95% confidence interval (CI) 0.63 to 0.79 mm3, P < 0.001] with a corresponding reduction in lumen volume by 0.29 mm3 (95% CI -0.37 to -0.21 mm3, P < 0.001). Serial 3D arterial remodelling and luminal narrowing was similar in segments with low and high baseline PAV (P ≥ 0.496). No differences were observed between left main and non-left main segments, proximal and distal segments and side branch and non-side branch segments (P ≥ 0.281)., Conclusions: Over time, atherosclerotic coronary plaque reveals prominent outward arterial remodelling that co-occurs with modest luminal narrowing. These findings provide additional insight into the compensatory mechanisms involved in the progression of coronary atherosclerosis., Competing Interests: Conflict of interest: J.K.M. has an equity interest in Cleerly. K.C. is a non-compensated medical advisory board member of Heartflow Inc. H.S. serves on the scientific advisory board of Philips, has equity interest in Covanos Inc., and has a research grant from Medtronic, Abbott Vascular and Philips. L.J.S. serves on the scientific advisory board for Covanos, Inc. The remaining authors have no relevant disclosures., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2021. For permissions, please email: journals.permissions@oup.com.)

Published

2022

82. Prognostic significance of plaque location in non-obstructive coronary artery disease: from the CONFIRM registry.

Author

Han D, Chen B, Gransar H, Achenbach S, Al-Mallah MH, Budoff MJ, Cademartiri F, Maffei E, Callister TQ, Chinnaiyan K, Chow BJW, DeLago A, Hadamitzky M, Hausleiter J, Kaufmann PA, Villines TC, Kim YJ, Leipsic J, Feuchtner G, Cury RC, Pontone G, Andreini D, Marques H, Rubinshtein R, Chang HJ, Lin FY, Shaw LJ, Min JK, and Berman DS

Subjects

Computed Tomography Angiography, Coronary Angiography methods, Humans, Predictive Value of Tests, Prognosis, Registries, Risk Assessment methods, Risk Factors, Coronary Artery Disease complications, Coronary Artery Disease diagnostic imaging, Plaque, Atherosclerotic complications, Plaque, Atherosclerotic diagnostic imaging

Abstract

Aim: Obstructive coronary artery disease (CAD) in proximal coronary segments is associated with a poor prognosis. However, the relative importance of plaque location regarding the risk for major adverse cardiovascular events (MACE) in patients with non-obstructive CAD has not been well defined., Methods and Results: From the Coronary CT Angiography Evaluation for Clinical Outcomes: An International Multicenter (CONFIRM) registry, 4644 patients without obstructive CAD were included in this study. The degree of stenosis was classified as 0 (no) and 1-49% (non-obstructive). Proximal involvement was defined as any plaque present in the left main or the proximal segment of the left anterior descending artery, left circumflex artery, and right coronary artery. Extensive CAD was defined as segment involvement score of >4. During a median follow-up of 5.2 years (interquartile range 4.1-6.0), 340 (7.3%) MACE occurred. Within the non-obstructive CAD group (n = 2065), proximal involvement was observed in 1767 (85.6%) cases. When compared to non-obstructive CAD patients without proximal involvement, those with proximal involvement had an increased MACE risk (log-rank P = 0.033). Multivariate Cox analysis showed when compared to patients with no CAD, proximal non-obstructive CAD was associated with increased MACE risk [hazard ratio (HR) 1.90, 95% confidence interval (CI) 1.47-2.45, P < 0.001] after adjusting for extensive CAD and conventional cardiovascular risk factors; however, non-proximal non-obstructive CAD did not increase MACE risk (HR 1.26, 95% CI 0.79-2.01, P = 0.339)., Conclusions: Independent of plaque extent, proximal coronary involvement was associated with increased MACE risk in patients with non-obstructive CAD. The plaque location information by coronary computed tomography angiography may provide additional risk prediction over CAD extent in patients with non-obstructive CAD., Competing Interests: Conflict of interest: J.K.M. receives funding from the Dalio Foundation, National Institutes of Health, and GE Healthcare; has serves on the scientific advisory board of Arineta and GE Healthcare; and has an equity interest in Cleerly. B.J.W.C. receives research grant support from TD Bank, Artrya, Siemens, and AusculSciences and has an equity interest in GE healthcare. P.A.K.’s nuclear department at the University Hospital Zurich holds research agreement with GE Healthcare. G.P. receives honorarium as speaker and research institutional grant from GE, Bracco, Boehringer, and HeartFlow. All other authors declared no conflict of interest., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2021. For permissions, please email: journals.permissions@oup.com.)

Published

2022

83. Vessel-specific plaque features on coronary computed tomography angiography among patients of varying atherosclerotic cardiovascular disease risk.

Author

Bax AM, Yoon YE, Gianni U, van Rosendael AR, Lu Y, Ma X, Goebel BP, Tantawy SW, Andreini D, Budoff MJ, Cademartiri F, Chinnaiyan K, Choi JH, Conte E, de Araújo Gonçalves P, Gottlieb I, Hadamitzky M, Leipsic JA, Maffei E, Pontone G, Shin S, Kim YJ, Lee BK, Chun EJ, Sung JM, Lee SE, Berman DS, Narula J, Lin FY, Chang HJ, and Shaw LJ

Subjects

Aged, Computed Tomography Angiography, Coronary Angiography methods, Coronary Vessels, Female, Humans, Male, Middle Aged, Prospective Studies, Atherosclerosis, Cardiovascular Diseases, Coronary Artery Disease diagnostic imaging, Plaque, Atherosclerotic diagnostic imaging

Abstract

Aims: The relationship between AtheroSclerotic CardioVascular Disease (ASCVD) risk and vessel-specific plaque evaluation using coronary computed tomography angiography (CCTA), focusing on plaque extent and composition, has not been examined. To evaluate differences in quantified plaque characteristics (using CCTA) between the three major coronary arteries [left anterior descending (LAD), right coronary (RCA), and left circumflex (LCx)] among subgroups of patients with varying ASCVD risk., Methods and Results: Patients were included from a prospective, international registry of consecutive patients who underwent CCTA for evaluation of coronary artery disease. ASCVD risk groups were <7.5% (low), 7.5-20% (intermediate), and ≥20% (high). Among the ASCVD risk groups, the three coronary arteries were compared regarding quantified plaque volume and composition. Whole-heart plaque quantification was performed in 1340 patients (age 60 ± 9 years, 58% men). Across low, intermediate, and high ASCVD risk patients, the volume of plaque increased proportionally but was least in the LCx (7.4, 9.0, and 25.3 mm3, respectively) as compared with the RCA (19.3, 32.6, and 67.0 mm3, respectively, all P ≤ 0.006) and LAD (39.9, 60.8, and 93.3 mm3, respectively, all P < 0.001). In each ASCVD risk group, the composition of plaque in the LCx exhibited the least necrotic core and fibrofatty plaque (P < 0.05 vs. LAD and RCA)., Conclusion: Among patients with varying risk of ASCVD, plaque in the LCx is decidedly less and is comprised of less non-calcified plaque supporting prior evidence of the lower rates of acute coronary events in this vessel., Competing Interests: Conflict of interest: K.C. is a non-compensated medical advisor for Heartflow, Inc. L.J.S. is on the scientific advisory board for Covanos, Inc. J.A.L. is a consultant to and has stock options in Circle CVI and HeartFlow, receives research support from GE Healthcare and serves on the speakers’ bureau for Philips and GE Healthcare. All other authors have no conflicts of interest to report., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2022. For permissions, please email: journals.permissions@oup.com.)

Published

2022

84. Longitudinal quantitative assessment of coronary atherosclerosis related to normal systolic blood pressure maintenance in the absence of established cardiovascular disease.

Author

Won KB, Park HB, Heo R, Lee BK, Lin FY, Hadamitzky M, Kim YJ, Sung JM, Conte E, Andreini D, Pontone G, Budoff MJ, Gottlieb I, Chun EJ, Cademartiri F, Maffei E, Marques H, Gonçalves PA, Leipsic JA, Lee SE, Shin S, Choi JH, Virmani R, Samady H, Chinnaiyan K, Berman DS, Narula J, Bax JJ, Min JK, and Chang HJ

Subjects

Female, Humans, Male, Blood Pressure, Computed Tomography Angiography methods, Coronary Angiography methods, Disease Progression, Risk Factors, Cardiovascular Diseases, Coronary Artery Disease diagnostic imaging, Plaque, Atherosclerotic

Abstract

Background: Atherosclerosis-related adverse events are commonly observed even in conditions with low cardiovascular (CV) risk. Longitudinal data regarding the association of normal systolic blood pressure maintenance (SBP maintain ) with coronary plaque volume changes (PVC) has been limited in adults without traditional CV disease., Hypothesis: Normal SBP maintain is important to attenuate coronary atherosclerosis progression in adults without baseline CV disease., Methods: We analyzed 95 adults (56.7 ± 8.5 years; 40.0% men) without baseline CV disease who underwent serial coronary computed tomographic angiography with mean 3.5 years of follow-up. All participants were divided into two groups of normal SBP maintain (follow-up SBP < 120 mm Hg) and ≥elevated SBP maintain (follow-up SBP ≥ 120 mm Hg). Annualized PVC was defined as PVC divided by the interscan period., Results: Compared to participants with normal SBP maintain , those with ≥elevated SBP maintain had higher annualized total PVC (mm 3 /year) (0.0 [0.0-2.2] vs. 4.1 [0.0-13.0]; p < .001). Baseline total plaque volume (β = .10) and the levels of SBP maintain (β = .23) and follow-up high-density lipoprotein cholesterol (β = -0.28) were associated with annualized total PVC (all p < .05). The optimal cutoff of SBP maintain for predicting plaque progression was 118.5 mm Hg (sensitivity: 78.2%, specificity: 62.5%; area under curve: 0.700; 95% confidence interval [CI]: 0.59-0.81; p < .05). SBP maintain  ≥ 118.5 mm Hg (odds ratio [OR]: 4.03; 95% CI: 1.51-10.75) and baseline total plaque volume (OR: 1.03; 95% CI: 1.01-1.06) independently influenced coronary plaque progression (all p < .05)., Conclusion: Normal SBP maintain is substantial to attenuate coronary atherosclerosis progression in conditions without established CV disease., (© 2022 The Authors. Clinical Cardiology published by Wiley Periodicals LLC.)

Published

2022

85. Gender, racial, and ethnic representation of cardiology fellows in the United States, 2014-2020: An underwhelming pace of diversification worsened by the COVID-19 pandemic.

Author

Aoun M, Dekhou A, Jahshan A, and Chinnaiyan K

Subjects

Ethnicity, Female, Humans, Male, Minority Groups, Pandemics, United States epidemiology, COVID-19 epidemiology, Cardiology

Abstract

Introduction: Cardiologists serve a diverse population of patients, yet the lack of diversity within the cardiology workforce has continued to persist and does not represent the composition of the patient population in the United States. Although medical schools and internal medicine residency programs have witnessed major improvements in diversity, the field of cardiology has not emulated these patterns., Methods: Gender, race, and ethnicity data from the graduate medical education supplements published annually in the Journal of the American Medical Association from 2014 through 2020 were analyzed. The effect of the COVID-19 pandemic on the recruitment of female trainees in cardiology was also investigated., Results and Discussion: Women represented 24.6% of cardiology trainees in the year 2020, which is a minor increase from 21.2% in 2014. The percentage of Hispanic trainees has slightly decreased from 6.90% in 2014 to 6.26% in 2020, while the percentage of Black trainees has only increased from 5.45% in 2014 to 5.50% in 2020. The data demonstrate a clear disparity and a desperate need for diversification of the cardiology trainee workforce. The COVID-19 pandemic may also exacerbate this lack of diversity in upcoming years due to the reemergence of inequities in social responsibilities between male and female trainees., Implications: Strong action must be taken on an institutional level to shift the culture in cardiology to one that is more appealing to women and underrepresented minorities in order to better serve an increasingly diverse population., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 National Medical Association. Published by Elsevier Inc. All rights reserved.)

Published

2022

86. Relationship Between Coronary Artery Calcium and Atherosclerosis Progression Among Patients With Suspected Coronary Artery Disease.

Author

Hollenberg EJ, Lin F, Blaha MJ, Budoff MJ, van den Hoogen IJ, Gianni U, Lu Y, Bax AM, van Rosendael AR, Tantawy SW, Andreini D, Cademartiri F, Chinnaiyan K, Choi JH, Conte E, de Araújo Gonçalves P, Hadamitzky M, Maffei E, Pontone G, Shin S, Kim YJ, Lee BK, Chun EJ, Sung JM, Gimelli A, Lee SE, Bax JJ, Berman DS, Sellers SL, Leipsic JA, Blankstein R, Narula J, Chang HJ, and Shaw LJ

Subjects

Calcium, Computed Tomography Angiography methods, Constriction, Pathologic complications, Coronary Angiography methods, Coronary Vessels diagnostic imaging, Disease Progression, Humans, Predictive Value of Tests, Risk Factors, Atherosclerosis, Coronary Artery Disease complications, Coronary Artery Disease diagnostic imaging, Coronary Artery Disease epidemiology, Plaque, Atherosclerotic

Abstract

Background: Among symptomatic patients, it remains unclear whether a coronary artery calcium (CAC) score alone is sufficient or misses a sizeable burden and progressive risk associated with obstructive and nonobstructive atherosclerotic plaque., Objectives: Among patients with low to high CAC scores, our aims were to quantify co-occurring obstructive and nonobstructive noncalcified plaque and serial progression of atherosclerotic plaque volume., Methods: A total of 698 symptomatic patients with suspected coronary artery disease (CAD) underwent serial coronary computed tomographic angiography (CTA) performed 3.5 to 4.0 years apart. Atherosclerotic plaque was quantified, including by compositional subgroups. Obstructive CAD was defined as ≥50% stenosis. Multivariate linear regression models were used to measure atherosclerotic plaque progression by CAC scores. Cox proportional hazard models estimated CAD event risk (median of 10.7 years of follow-up)., Results: Across baseline CAC scores from 0 to ≥400, total plaque volume ranged from 30.4 to 522.4 mm 3 (P < 0.001) and the prevalence of obstructive CAD increased from 1.4% to 49.1% (P < 0.001). Of those with a 0 CAC score, 97.9% of total plaque was noncalcified. Among patients with baseline CAC <100, nonobstructive CAD was prevalent (40% and 89% in CAC scores of 0 and 1-99), with plaque largely being noncalcified. On the follow-up coronary CTA, volumetric plaque growth (P < 0.001) and the development of new or worsening stenosis (P < 0.001) occurred more among patients with baseline CAC ≥100. Progression varied compositionally by baseline CAC scores. Patients with no CAC had disproportionate growth in noncalcified plaque, and for every 1 mm 3 increase in calcified plaque, there was a 5.5 mm 3 increase in noncalcified plaque volume. By comparison, patients with CAC scores of ≥400 exhibited disproportionate growth in calcified plaque with a volumetric increase 15.7-fold that of noncalcified plaque. There was a graded increase in CAD event risk by the CAC with rates from 3.3% for no CAC to 21.9% for CAC ≥400 (P < 0.001)., Conclusions: CAC imperfectly characterizes atherosclerotic disease burden, but its subgroups exhibit pathogenic patterns of early to advanced disease progression and stratify long-term prognostic risk., Competing Interests: Funding Support and Author Disclosures Partial funding was provided by a gift from the Dalio Foundation (New York, New York) and supported by the Leading Foreign Research Institute Recruitment Program through the National Research Foundation funded by the Ministry of Science and Information and Communications Technology of Korea (Grant number 2012027176). Dr Chinnaiyan is a medical advisor (unpaid) for Heartflow, Inc. All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2022 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.)

Published

2022

87. Aspirin and Statin Therapy for Nonobstructive Coronary Artery Disease: Five-year Outcomes from the CONFIRM Registry.

Author

Indraratna P, Naoum C, Ben Zekry S, Gransar H, Blanke P, Sellers S, Achenbach S, Al-Mallah MH, Andreini D, Berman DS, Budoff MJ, Cademartiri F, Callister TQ, Chang HJ, Chinnaiyan K, Chow BJW, Cury RC, DeLago A, Feuchtner G, Hadamitzky M, Hausleiter J, Kaufmann PA, Kim YJ, Maffei E, Marques H, Gonçalves PA, Pontone G, Raff GL, Rubinshtein R, Villines TC, Lin FY, Shaw LJ, Narula J, Bax JJ, and Leipsic JA

Abstract

Purpose: In this cohort study, 5-year data from the Coronary CT Angiography Evaluation for Clinical Outcomes: An International Multicenter Registry (ie, CONFIRM) were examined to identify associations of baseline aspirin and statin use with mortality, major adverse cardiovascular events (MACE), and myocardial infarction (MI) in individuals without substantial (≥50%) stenosis., Materials and Methods: In this prospective cohort study, all participants in the registry underwent coronary CT angiography and were classified as having no detectable coronary plaque or having nonobstructive coronary artery disease (CAD) (1%-49% stenosis). Participants with obstructive (≥50%) stenosis were excluded from analysis. The study commenced in June 2003 and was completed in March 2016. All unadjusted and risk-adjusted analyses utilized the Cox proportional hazard model with hospital sites modeled using shared frailty., Results: A total of 6386 participants with no detectable plaque or with nonobstructive CAD were included (mean age, 56.0 years ± 13.3 [SD], 52% men). The mean follow-up period was 5.66 years ± 1.10. Nonobstructive CAD ( n = 2815, 44% of all participants included in the study) was associated with a greater risk of all-cause mortality (10.6% [298 of 2815] vs 4.8% [170 of 3571], P < .001) compared to those without CAD ( n = 3571, 56%). Baseline aspirin and statin use was documented for 1415 and 1429 participants, respectively, with nonobstructive CAD, and for 1560 and 1565 participants without detectable plaque, respectively. In individuals with nonobstructive CAD, baseline aspirin use was not associated with a reduction in MACE (10.9% [102 of 936] vs 14.7% [52 of 355], P = .06), all-cause mortality (9.6% [95 of 991] vs 10.9% [46 of 424], P = .468), or MI (4.4% [41 of 936] vs 6.2% [22 of 355], P = .18). On multivariate risk-adjusted analysis, baseline statin use was associated with a lower rate of MACE (hazard ratio, 0.59; 95% CI: 0.40, 0.87; P = .007). Neither therapy improved clinical outcomes for participants with no detectable plaque., Conclusion: In participants with nonobstructive CAD, baseline use of statins, but not of aspirin, was associated with improved clinical outcomes. Neither therapy was associated with benefit in participants without plaque. Keywords: Aspirin, Statin, Coronary Artery Disease, CT Angiography, Nonobstructive Coronary Artery DiseaseClinical trial registration no. NCT01443637 Supplemental material is available for this article. © RSNA, 2022See also the commentary by Canan and Navar in this issue., Competing Interests: Disclosures of conflicts of interest: P.I. No relevant relationships. C.N. No relevant relationships. S.B.Z. No relevant relationships. H.G. No relevant relationships. P.B. Consulting fees from Edwards Lifesciences, Neovasc, and Boston Scientific. S.S. No relevant relationships. S.A. No relevant relationships. M.H.A. Grant/contract from Siemens; consulting fees from Philips. D.A. No relevant relationships. D.S.B. Software royalties from Cedars-Sinai Medical Center. M.J.B. No relevant relationships. F.C. No relevant relationships. T.Q.C. No relevant relationships. H.J.C. No relevant relationships. K.C. Executive Committee and Board of Directors, Society for Cardiovascular Computed Tomography (SCCT), unpaid. B.J.W.C. Saul and Edna Goldfarb Chair in Cardiac Imaging; research grants from TD Bank, AusculSciences, Artrya, and CV Diagnostix; board member of SCCT (ended in 2021); stock in GE (equity sold in 2021). R.C.C. Consults for Covera Health, GE Healthcare, and Cleerly (not related to the topic of this article). A.D. No relevant relationships. G.F. No relevant relationships. M.H. No relevant relationships. J.H. Grant/contract from Edwards Lifesciences, payment or honoraria from Abbott Vascular and Edwards Lifesciences, support for meetings and travel from Abbott Vascular and Edwards Lifesciences. P.A.K. University Hospital Zurich holds a research grant with GE Healthcare (unrelated to the present study), Advisory Board for GE Healthcare on the myocardial perfusion tracer Flurpiridaz (unrelated to present study), Vice Chair of the Swiss Society of Nuclear Medicine (unpaid). Y.J.K. No relevant relationships. E.M. No relevant relationships. H.M. No relevant relationships. P.d.A.G. No relevant relationships. G.P. No relevant relationships. G.L.R. No relevant relationships. R.R. Board member of SCCT. T.C.V. No relevant relationships. F.Y.L. Research grant from GE. L.J.S. No relevant relationships. J.N. No relevant relationships. J.J.B. The department of cardiology, Leiden University Medical Center has received unrestricted research grants from Abbott, Edwards Lifesciences, Bayer, Novartis, Boston Scientific, Medtronic, Biotronik, GE Healthcare; payment or honoraria from Speaker Bureau Abbott and Edwards Lifesciences. J.A.L. Unrestricted research grant from GE Healthcare, stock options and consulting fees from HeartFlow and Circle CVI, payment or honoraria from Philips, board of directors of SCCT, deputy editor for Radiology: Cardiothoracic Imaging., (© 2022 by the Radiological Society of North America, Inc.)

Published

2022

88. Longitudinal Quantitative Assessment of Coronary Atherosclerotic Plaque Burden Related to Serum Hemoglobin Levels.

Author

Won KB, Lee BK, Heo R, Park HB, Lin FY, Hadamitzky M, Kim YJ, Sung JM, Conte E, Andreini D, Pontone G, Budoff MJ, Gottlieb I, Chun EJ, Cademartiri F, Maffei E, Marques H, de Araújo Gonçalves P, Leipsic JA, Lee SE, Shin S, Choi JH, Virmani R, Samady H, Chinnaiyan K, Berman DS, Narula J, Bax JJ, Min JK, and Chang HJ

Abstract

Background: Despite a potential role of hemoglobin in atherosclerosis, data on coronary plaque volume changes (PVC) related to serum hemoglobin levels are limited., Objectives: The authors sought to evaluate coronary atherosclerotic plaque burden changes related to serum hemoglobin levels using serial coronary computed tomographic angiography (CCTA)., Methods: A total of 830 subjects (age 61 ± 10 years, 51.9% male) who underwent serial CCTA were analyzed. The median interscan period was 3.2 (IQR: 2.5-4.4) years. Quantitative assessment of coronary plaques was performed at both scans. All participants were stratified into 4 groups based on the quartile of baseline hemoglobin levels. Annualized total PVC (mm 3 /year) was defined as total PVC divided by the interscan period., Results: Baseline total plaque volume (mm 3 ) was not different among all groups (group I [lowest]: 34.1 [IQR: 0.0-127.4] vs group II: 28.8 [IQR: 0.0-123.0] vs group III: 49.9 [IQR: 5.6-135.0] vs group IV [highest]: 34.3 [IQR: 0.0-130.7]; P  = 0.235). During follow-up, serum hemoglobin level changes (Δ hemoglobin; per 1 g/dL) was related to annualized total PVC (β = -0.114) in overall participants ( P  < 0.05). After adjusting for age, sex, traditional risk factors, baseline hemoglobin and creatinine levels, baseline total plaque volume, and the use of aspirin, beta-blocker, angiotensin-converting enzyme inhibitor or angiotensin receptor blocker, and statin, Δ hemoglobin significantly affected annualized total PVC in only the composite of groups I and II (β = -2.401; P  = 0.004)., Conclusions: Serial CCTA findings suggest that Δ hemoglobin has an independent effect on coronary atherosclerosis. This effect might be influenced by baseline hemoglobin levels. (Progression of Atherosclerotic Plaque Determined by Computed Tomographic Angiography Imaging [PARADIGM]; NCT02803411)., Competing Interests: This work was supported by the Korea Medical Device Development Fund grant funded by the Korea government (the Ministry of Science and ICT, the Ministry of Trade, Industry and Energy, the Ministry of Health & Welfare, the Ministry of Food and Drug Safety) (Project Number: 1711139017). Dr. Leipsic has served as a consultant for and has stock options in HeartFlow and Circle Cardiovascular Imaging; has received grant support from GE Healthcare; and has received speaker fees from Philips. Dr. Samady has equity interest in Covanos. Dr. Berman receives software royalties from Cedars-Sinai Medical Center. Dr. Min has received funding from the Dalio Foundation, National Institutes of Health, and GE Healthcare. Dr. Min has served on scientific advisory boards for Arineta and GE Healthcare; and has an equity interest in Cleerly. All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (© 2022 The Authors.)

Published

2022

89. Association of Plaque Location and Vessel Geometry Determined by Coronary Computed Tomographic Angiography With Future Acute Coronary Syndrome-Causing Culprit Lesions.

Author

Han D, Lin A, Kuronuma K, Tzolos E, Kwan AC, Klein E, Andreini D, Bax JJ, Cademartiri F, Chinnaiyan K, Chow BJW, Conte E, Cury RC, Feuchtner G, Hadamitzky M, Kim YJ, Leipsic JA, Maffei E, Marques H, Plank F, Pontone G, Villines TC, Al-Mallah MH, de Araújo Gonçalves P, Danad I, Gransar H, Lu Y, Lee JH, Lee SE, Baskaran L, Al'Aref SJ, Yoon YE, Van Rosendael A, Budoff MJ, Samady H, Stone PH, Virmani R, Achenbach S, Narula J, Chang HJ, Min JK, Lin FY, Shaw LJ, Slomka PJ, Dey D, and Berman DS

Subjects

Case-Control Studies, Coronary Angiography methods, Female, Humans, Male, Middle Aged, Retrospective Studies, Acute Coronary Syndrome diagnostic imaging, Acute Coronary Syndrome etiology, Plaque, Atherosclerotic complications, Plaque, Atherosclerotic diagnostic imaging

Abstract

Importance: Distinct plaque locations and vessel geometric features predispose to altered coronary flow hemodynamics. The association between these lesion-level characteristics assessed by coronary computed tomographic angiography (CCTA) and risk of future acute coronary syndrome (ACS) is unknown., Objective: To examine whether CCTA-derived adverse geometric characteristics (AGCs) of coronary lesions describing location and vessel geometry add to plaque morphology and burden for identifying culprit lesion precursors associated with future ACS., Design, Setting, and Participants: This substudy of ICONIC (Incident Coronary Syndromes Identified by Computed Tomography), a multicenter nested case-control cohort study, included patients with ACS and a culprit lesion precursor identified on baseline CCTA (n = 116) and propensity score-matched non-ACS controls (n = 116). Data were collected from July 20, 2012, to April 30, 2017, and analyzed from October 1, 2020, to October 31, 2021., Exposures: Coronary lesions were evaluated for the following 3 AGCs: (1) distance from the coronary ostium to lesion; (2) location at vessel bifurcations; and (3) vessel tortuosity, defined as the presence of 1 bend of greater than 90° or 3 curves of 45° to 90° using a 3-point angle within the lesion., Main Outcomes and Measures: Association between lesion-level AGCs and risk of future ACS-causing culprit lesions., Results: Of 548 lesions, 116 culprit lesion precursors were identified in 116 patients (80 [69.0%] men; mean [SD], age 62.7 [11.5] years). Compared with nonculprit lesions, culprit lesion precursors had a shorter distance from the ostium (median, 35.1 [IQR, 23.6-48.4] mm vs 44.5 [IQR, 28.2-70.8] mm), more frequently localized to bifurcations (85 [73.3%] vs 168 [38.9%]), and had more tortuous vessel segments (5 [4.3%] vs 6 [1.4%]; all P < .05). In multivariable Cox regression analysis, an increasing number of AGCs was associated with a greater risk of future culprit lesions (hazard ratio [HR] for 1 AGC, 2.90 [95% CI, 1.38-6.08]; P = .005; HR for ≥2 AGCs, 6.84 [95% CI, 3.33-14.04]; P < .001). Adverse geometric characteristics provided incremental discriminatory value for culprit lesion precursors when added to a model containing stenosis severity, adverse morphological plaque characteristics, and quantitative plaque characteristics (area under the curve, 0.766 [95% CI, 0.718-0.814] vs 0.733 [95% CI, 0.685-0.782]). In per-patient comparison, patients with ACS had a higher frequency of lesions with adverse plaque characteristics, AGCs, or both compared with control patients (≥2 adverse plaque characteristics, 70 [60.3%] vs 50 [43.1%]; ≥2 AGCs, 92 [79.3%] vs 60 [51.7%]; ≥2 of both, 37 [31.9%] vs 20 [17.2%]; all P < .05)., Conclusions and Relevance: These findings support the concept that CCTA-derived AGCs capturing lesion location and vessel geometry are associated with risk of future ACS-causing culprit lesions. Adverse geometric characteristics may provide additive prognostic information beyond plaque assessment in CCTA.

Published

2022

90. Associations between dyspnoea, coronary atherosclerosis, and cardiovascular outcomes: results from the long-term follow-up CONFIRM registry.

Author

van Rosendael AR, Bax AM, van den Hoogen IJ, Smit JM, Al'Aref SJ, Achenbach S, Al-Mallah MH, Andreini D, Berman DS, Budoff MJ, Cademartiri F, Callister TQ, Chang HJ, Chinnaiyan K, Chow BJW, Cury RC, DeLago A, Feuchtner G, Hadamitzky M, Hausleiter J, Kaufmann PA, Kim YJ, Leipsic JA, Maffei E, Marques H, de Araújo Gonçalves P, Pontone G, Raff GL, Rubinshtein R, Villines TC, Gransar H, Lu Y, Peña JM, Lin FY, Shaw LJ, Narula J, Min JK, and Bax JJ

Subjects

Aged, Coronary Angiography methods, Dyspnea, Follow-Up Studies, Humans, Male, Middle Aged, Predictive Value of Tests, Prognosis, Prospective Studies, Registries, Risk Factors, Coronary Artery Disease complications, Coronary Artery Disease diagnostic imaging

Abstract

Aims: The relationship between dyspnoea, coronary artery disease (CAD), and major cardiovascular events (MACE) is poorly understood. This study evaluated (i) the association of dyspnoea with the severity of anatomical CAD by coronary computed tomography angiography (CCTA) and (ii) to which extent CAD explains MACE in patients with dyspnoea., Methods and Results: From the international COronary CT Angiography EvaluatioN for Clinical Outcomes: An InteRnational Multicenter (CONFIRM) registry, 4425 patients (750 with dyspnoea) with suspected but without known CAD were included and prospectively followed for ≥5 years. First, the association of dyspnoea with CAD severity was assessed using logistic regression analysis. Second, the prognostic value of dyspnoea for MACE (myocardial infarction and death), and specifically, the interaction between dyspnoea and CAD severity was investigated using Cox proportional-hazard analysis. Mean patient age was 60.3 ± 11.9 years, 63% of patients were male and 592 MACE events occurred during a median follow-up duration of 5.4 (IQR 5.1-6.0) years. On uni- and multivariable analysis (adjusting for age, sex, body mass index, chest pain typicality, and risk factors), dyspnoea was associated with two- and three-vessel/left main (LM) obstructive CAD. The presence of dyspnoea increased the risk for MACE [hazard ratio (HR) 1.57, 95% confidence interval (CI): 1.29-1.90], which was modified after adjusting for clinical predictors and CAD severity (HR 1.26, 95% CI: 1.02-1.55). Conversely, when stratified by CAD severity, dyspnoea did not provide incremental prognostic value in one-, two-, or three-vessel/LM obstructive CAD, but dyspnoea did provide incremental prognostic value in non-obstructive CAD., Conclusion: In patients with suspected CAD, dyspnoea was independently associated with severe obstructive CAD on CCTA. The severity of obstructive CAD explained the elevated MACE rates in patients presenting with dyspnoea, but in patients with non-obstructive CAD, dyspnoea portended additional risk., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2020. For permissions, please email: journals.permissions@oup.com.)

Published

2022

91. Cardiac CT angiography in current practice: An American society for preventive cardiology clinical practice statement ✰ .

Author

Budoff MJ, Lakshmanan S, Toth PP, Hecht HS, Shaw LJ, Maron DJ, Michos ED, Williams KA, Nasir K, Choi AD, Chinnaiyan K, Min J, and Blaha M

Abstract

In this clinical practice statement, we represent a summary of the current evidence and clinical applications of cardiac computed tomography (CT) in evaluation of coronary artery disease (CAD), from an expert panel organized by the American Society for Preventive Cardiology (ASPC), and appraises the current use and indications of cardiac CT in clinical practice. Cardiac CT is emerging as a front line non-invasive diagnostic test for CAD, with evidence supporting the clinical utility of cardiac CT in diagnosis and prevention. CCTA offers several advantages beyond other testing modalities, due to its ability to identify and characterize coronary stenosis severity and pathophysiological changes in coronary atherosclerosis and stenosis, aiding in early diagnosis, prognosis and management of CAD. This document further explores the emerging applications of CCTA based on functional assessment using CT derived fractional flow reserve, peri‑coronary inflammation and artificial intelligence (AI) that can provide personalized risk assessment and guide targeted treatment. We sought to provide an expert consensus based on the latest evidence and best available clinical practice guidelines regarding the role of CCTA as an essential tool in cardiovascular prevention - applicable to risk assessment and early diagnosis and management, noting potential areas for future investigation., Competing Interests: No funding was received for this manuscript. MB has grant support from General Electric, AC reports grant support from the GW Heart and Vascular Institute and equity in Cleerly, Inc. Dr. Michos reports medical advisory boards for Astra Zeneca, Amarin, Bayer, Boehringer Ingelheim, Esperion, Novartis, and Novo Nordisk. JM is on the Scientific Advisory Board: Arineta, Upside Foods, and is employed and has equity in Cleerly, Inc. All other authors report no conflicts., (© 2022 The Authors. Published by Elsevier B.V.)

Published

2022

92. Trans-lesional fractional flow reserve gradient as derived from coronary CT improves patient management: ADVANCE registry.

Author

Takagi H, Leipsic JA, McNamara N, Martin I, Fairbairn TA, Akasaka T, Nørgaard BL, Berman DS, Chinnaiyan K, Hurwitz-Koweek LM, Pontone G, Kawasaki T, Rønnow Sand NP, Jensen JM, Amano T, Poon M, Øvrehus KA, Sonck J, Rabbat MG, Mullen S, De Bruyne B, Rogers C, Matsuo H, Bax JJ, Douglas PS, Patel MR, Nieman K, and Ihdayhid AR

Subjects

Computed Tomography Angiography, Coronary Angiography, Coronary Vessels diagnostic imaging, Female, Humans, Male, Predictive Value of Tests, Registries, Severity of Illness Index, Tomography, X-Ray Computed, Coronary Artery Disease diagnostic imaging, Coronary Artery Disease therapy, Coronary Stenosis diagnostic imaging, Coronary Stenosis therapy, Fractional Flow Reserve, Myocardial

Abstract

Background: The role of change in fractional flow reserve derived from CT (FFR CT ) across coronary stenoses (ΔFFR CT ) in guiding downstream testing in patients with stable coronary artery disease (CAD) is unknown., Objectives: To investigate the incremental value of ΔFFR CT in predicting early revascularization and improving efficiency of catheter laboratory utilization., Materials: Patients with CAD on coronary CT angiography (CCTA) were enrolled in an international multicenter registry. Stenosis severity was assessed as per CAD-Reporting and Data System (CAD-RADS), and lesion-specific FFR CT was measured 2 ​cm distal to stenosis. ΔFFR CT was manually measured as the difference of FFR CT across visible stenosis., Results: Of 4730 patients (66 ​± ​10 years; 34% female), 42.7% underwent ICA and 24.7% underwent early revascularization. ΔFFR CT remained an independent predictor for early revascularization (odds ratio per 0.05 increase [95% confidence interval], 1.31 [1.26-1.35]; p ​< ​0.001) after adjusting for risk factors, stenosis features, and lesion-specific FFR CT . Among the 3 models (model 1: risk factors ​+ ​stenosis type and location ​+ ​CAD-RADS; model 2: model 1 ​+ ​FFR CT ; model 3: model 2 ​+ ​ΔFFR CT ), model 3 improved discrimination compared to model 2 (area under the curve, 0.87 [0.86-0.88] vs 0.85 [0.84-0.86]; p ​< ​0.001), with the greatest incremental value for FFR CT 0.71-0.80. ΔFFR CT of 0.13 was the optimal cut-off as determined by the Youden index. In patients with CAD-RADS ≥3 and lesion-specific FFR CT ≤0.8, a diagnostic strategy incorporating ΔFFR CT >0.13, would potentially reduce ICA by 32.2% (1638-1110, p ​< ​0.001) and improve the revascularization to ICA ratio from 65.2% to 73.1%., Conclusions: ΔFFR CT improves the discrimination of patients who underwent early revascularization compared to a standard diagnostic strategy of CCTA with FFR CT , particularly for those with FFR CT 0.71-0.80. ΔFFR CT has the potential to aid decision-making for ICA referral and improve efficiency of catheter laboratory utilization., Competing Interests: Declaration of competing interest This study was supported by HeartFlow, Inc., Redwood City, California, via individual Clinical Study Agreements with each enrolling institution and with the Duke Clinical Research Institute (DCRI) for Core Laboratory activities and Clinical Event Committee adjudication of adverse events. Dr. Leipsic receives institutional grants to provide core lab services to Edwards Life Sciences, Medtronic and is a consultant to Circle CVI and HeartFlow. Dr. Fairbairn is on the Speakers Bureau for HeartFlow. Dr. Nørgaard has received unrestricted institutional research grants from Siemens and HeartFlow. Dr. Berman has received unrestricted research support from HeartFlow. Dr. Chinnaiyan has received institutional grants from HeartFlow. Dr. Hurwitz-Koweek is on the Speakers Bureau for HeartFlow; and has unrestricted grant funding from Siemens and HeartFlow. Dr. Pontone is a consultant for GE Healthcare; and has research grants from GE Healthcare and HeartFlow. Dr. Rabbat has received institutional grants from HeartFlow. Dr. Mullen is an employee of HeartFlow. Dr. Rogers is an employee of and has equity in HeartFlow. Dr. Bax has received unrestricted research grants from Edwards Lifescience, Medtronic, Boston Scientific, Biotronik, and GE Healthcare; and is on the Speakers Bureau with Abbott. Dr. Douglas receives an institutional research grant from HeartFlow. Dr. Patel has received grants from HeartFlow, Jansen, Bayer, AstraZeneca, and NHLBI; and has served as a consultant for Jansen, Bayer, AstraZeneca, Genzyme, and Merck. Dr. Nieman reports institutional research support from Siemens Healthineers, Bayer, HeartFlow Inc. and is a consultant to Siemens Medical Solutions USA. Dr. Ihdayhid is supported by the National Health and Medical Research Council of Australia and National Heart Foundation Scholarships; and has received honoraria from Canon Medical and Boston Scientific. All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

93. Association of Tube Voltage With Plaque Composition on Coronary CT Angiography: Results From PARADIGM Registry.

Author

Takagi H, Leipsic JA, Indraratna P, Gulsin G, Khasanova E, Tzimas G, Lin FY, Shaw LJ, Lee SE, Andreini D, Al-Mallah MH, Budoff MJ, Cademartiri F, Chinnaiyan K, Choi JH, Conte E, Marques H, de Araújo Gonçalves P, Gottlieb I, Hadamitzky M, Maffei E, Pontone G, Shin S, Kim YJ, Lee BK, Chun EJ, Sung JM, Virmani R, Samady H, Stone PH, Berman DS, Narula J, Bax JJ, and Chang HJ

Subjects

Aged, Computed Tomography Angiography, Coronary Angiography methods, Female, Humans, Male, Middle Aged, Predictive Value of Tests, Registries, Coronary Artery Disease diagnostic imaging, Plaque, Atherosclerotic

Abstract

Objectives: This study sought to investigate the impact of low tube voltage scanning heterogeneity of coronary luminal attenuation on plaque quantification and characterization with coronary computed tomography angiography (CCTA)., Background: The impact of low tube voltage and coronary luminal attenuation on quantitative coronary plaque remains uncertain., Methods: A total of 1,236 consecutive patients (age: 60 ± 9 years; 41% female) who underwent serial CCTA at an interval of ≥2 years were included from an international registry. Patients with prior revascularization or nonanalyzable coronary CTAs were excluded. Total coronary plaque volume was assessed and subclassified based on specific Hounsfield unit (HU) threshold: necrotic core, fibrofatty plaque, and fibrous plaque and dense calcium. Luminal attenuation was measured in the aorta., Results: With increasing luminal HU (<350, 350-500, and >500 HU), percent calcified plaque was increased (16%, 27%, and 40% in the median; P < 0.001), and fibrofatty plaque (26%, 13%, and 4%; P < 0.001) and necrotic core (1.6%, 0.3%, and 0.0%; P < 0.001) were decreased. Higher tube voltage scanning (80, 100, and 120 kV) resulted in decreasing luminal attenuation (689 ± 135, 497 ± 89, and 391 ± 73 HU; P < 0.001) and calcified plaque volume (59%, 34%, and 23%; P < 0.001) and increased fibrofatty plaque (3%, 9%, and 18%; P < 0.001) and necrotic core (0.2%, 0.1%, and 0.6%; P < 0.001). Mediation analysis showed that the impact of 100 kV on plaque composition, compared with 120 kV, was primarily caused by an indirect effect through blood pool attenuation. Tube voltage scanning of 80 kV maintained a direct effect on fibrofatty plaque and necrotic core in addition to an indirect effect through the luminal attenuation., Conclusions: Low tube voltage usage affected plaque morphology, mainly through an increase in luminal HU with a resultant increase in calcified plaque and a reduction in fibrofatty and necrotic core. These findings should be considered as CCTA-based plaque measures are being used to guide medical management and, in particular, when being used as a measure of treatment response. (Progression of Atherosclerotic Plaque Determined by Computed Tomographic Angiography Imaging [PARADIGM]; NCT02803411)., Competing Interests: Funding Support and Author Disclosures This work was supported by the Leading Foreign Research Institute Recruitment Program through the National Research Foundation of Korea funded by the Ministry of Science and ICT (MSIT) (grant number 2012027176). The study was also funded in part by a grant from the Dalio Foundation (New York, New York). Dr Leipsic receives institutional grants to provide core lab services to Edwards Life Sciences, Abbott, Boston Scientific, and Medtronic and is a consultant to and has stock options in Circle CVI and HeartFlow. Dr Andreini is on the Speakers Bureau for GE Healthcare and receives grant support from GE Healthcare and Bracco. Dr Budoff has received grant support from the National Institutes of Health and GE Healthcare. Dr Chun has received funding from a National Research Foundation grant funded by the South Korea government (MEST) (NRF- 2015R1D1A1A01059717). Dr Pontone has received institutional research grants from GE Healthcare, HeartFlow, Medtronic, Bracco, and Bayer. Dr Virmani has received institutional research support from 480 Biomedical, Abbott Vascular, ART, BioSensors International, Biotronik, Boston Scientific, CeloNova, Claret Medical, Cook Medical, Cordis, Edwards Lifesciences, Medtronic, MicroVention, OrbusNeich, ReCord, SINO Medical Technology, Spectranetics, Surmodics, Terumo Corporation, W.L. Gore, and Xeltis; has received honoraria from 480 Biomedical, Abbott Vascular, Boston Scientific, Cook Medical, Lutonix, Medtronic, Terumo Corporation, and W.L. Gore; and is a consultant for 480 Biomedical, Abbott Vascular, Medtronic, and W.L. Gore. Dr Samady has received grant support from Phillips/Volcano and St. Jude Abbott/Medtronic/Gilead. Dr Berman has received software royalties from Cedars-Sinai. Dr Bax has received unrestricted research grants from Biotronik, Medtronic, Boston Scientific, and Edwards Lifesciences. Dr Chang has received funding from the Leading Foreign Research Institute Recruitment Program through the National Research Foundation of Korea funded by the Ministry of Science, ICT, and Future Planning (grant 2012027176). All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2021 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.)

Published

2021

94. Association of Statin Treatment With Progression of Coronary Atherosclerotic Plaque Composition.

Author

van Rosendael AR, van den Hoogen IJ, Gianni U, Ma X, Tantawy SW, Bax AM, Lu Y, Andreini D, Al-Mallah MH, Budoff MJ, Cademartiri F, Chinnaiyan K, Choi JH, Conte E, Marques H, de Araújo Gonçalves P, Gottlieb I, Hadamitzky M, Leipsic JA, Maffei E, Pontone G, Shin S, Kim YJ, Lee BK, Chun EJ, Sung JM, Lee SE, Virmani R, Samady H, Sato Y, Stone PH, Berman DS, Narula J, Blankstein R, Min JK, Lin FY, Shaw LJ, Bax JJ, and Chang HJ

Subjects

Coronary Artery Disease diagnosis, Coronary Vessels metabolism, Disease Progression, Female, Humans, Male, Middle Aged, Plaque, Atherosclerotic diagnosis, Risk Factors, Tomography, X-Ray Computed, Calcium metabolism, Coronary Artery Disease drug therapy, Coronary Vessels diagnostic imaging, Hydroxymethylglutaryl-CoA Reductase Inhibitors therapeutic use, Plaque, Atherosclerotic drug therapy

Abstract

Importance: The density of atherosclerotic plaque forms the basis for categorizing calcified and noncalcified morphology of plaques., Objective: To assess whether alterations in plaque across a range of density measurements provide a more detailed understanding of atherosclerotic disease progression., Design, Setting, and Participants: This cohort study enrolled 857 patients who underwent serial coronary computed tomography angiography 2 or more years apart and had quantitative measurements of coronary plaques throughout the entire coronary artery tree. The study was conducted from 2013 to 2016 at 13 sites in 7 countries., Main Outcomes and Measures: The main outcome was progression of plaque composition of individual coronary plaques. Six plaque composition types were defined on a voxel-level basis according to the plaque attenuation (expressed in Hounsfield units [HU]): low attenuation (-30 to 75 HU), fibro-fatty (76-130 HU), fibrous (131-350 HU), low-density calcium (351-700 HU), high-density calcium (701-1000 HU), and 1K (>1000 HU). The progression rates of these 6 compositional plaque types were evaluated according to the interaction between statin use and baseline plaque volume, adjusted for risk factors and time interval between scans. Plaque progression was also examined based on baseline calcium density. Analysis was performed among lesions matched at baseline and follow-up. Data analyses were conducted from August 2019 through March 2020., Results: In total, 2458 coronary lesions in 857 patients (mean [SD] age, 62.1 [8.7] years; 540 [63.0%] men; 548 [63.9%] received statin therapy) were included. Untreated coronary lesions increased in volume over time for all 6 compositional types. Statin therapy was associated with volume decreases in low-attenuation plaque (β, -0.02; 95% CI, -0.03 to -0.01; P = .001) and fibro-fatty plaque (β, -0.03; 95% CI, -0.04 to -0.02; P < .001) and greater progression of high-density calcium plaque (β, 0.02; 95% CI, 0.01-0.03; P < .001) and 1K plaque (β, 0.02; 95% CI, 0.01-0.03; P < .001). When analyses were restricted to lesions without low-attenuation plaque or fibro-fatty plaque at baseline, statin therapy was not associated with a change in overall calcified plaque volume (β, -0.03; 95% CI, -0.08 to 0.02; P = .24) but was associated with a transformation toward more dense calcium. Interaction analysis between baseline plaque volume and calcium density showed that more dense coronary calcium was associated with less plaque progression., Conclusions and Relevance: The results suggest an association of statin use with greater rates of transformation of coronary atherosclerosis toward high-density calcium. A pattern of slower overall plaque progression was observed with increasing density. All findings support the concept of reduced atherosclerotic risk with increased densification of calcium.

Published

2021

95. Plaque Character and Progression According to the Location of Coronary Atherosclerotic Plaque.

Author

Bax AM, Yoon YE, Gianni U, Ma X, Lu Y, Lee BC, Goebel B, Han D, Lee SE, Sung JM, Andreini D, Al-Mallah MH, Budoff MJ, Cademartiri F, Chinnaiyan K, Choi JH, Chun EJ, Conte E, Gottlieb I, Hadamitzky M, Kim YJ, Lee BK, Leipsic JA, Maffei E, Marques H, Gonçalves PA, Pontone G, Shin S, Narula J, Lin FY, Shaw LJ, and Chang HJ

Subjects

Aged, Cohort Studies, Computed Tomography Angiography, Coronary Artery Disease diagnostic imaging, Disease Progression, Female, Humans, Male, Middle Aged, Plaque, Atherosclerotic diagnostic imaging, Registries, Coronary Artery Disease complications, Coronary Artery Disease pathology, Plaque, Atherosclerotic complications, Plaque, Atherosclerotic pathology

Abstract

Although acute coronary syndrome culprit lesions occur more frequently in the proximal coronary artery, whether the proximal clustering of high-risk plaque is reflected in earlier-stage atherosclerosis remains unclarified. We evaluated the longitudinal distribution of stable atherosclerotic lesions on coronary computed tomography angiography (CCTA) in 1,478 patients (mean age, 61 years; men, 58%) enrolled from a prospective multinational registry of consecutive patients undergoing serial CCTA. Of 3,202 coronary artery lesions identified, 2,140 left lesions were classified (based on the minimal lumen diameter location) into left main (LM, n = 128), proximal (n = 739), and other (n = 1,273), and 1,062 right lesions were classified into proximal (n = 355) and other (n = 707). Plaque volume (PV) was the highest in proximal lesions (median, 26.1 mm 3 ), followed by LM (20.6 mm 3 ) and other lesions (15.0 mm 3 , p <0.001), for left lesions, and was lager in proximal (25.8 mm 3 ) than in other lesions (15.2 mm 3 , p <0.001) for right lesions. On both sides, proximally located lesions tended to have greater necrotic core and fibrofatty components than other lesions (left: LM, 10.6%; proximal, 5.8%; other, 3.4% of the total PV, p <0.001; right: proximal, 8.4%; other 3.1%, p <0.001), with less calcified plaque component (left: LM, 18.3%; proximal, 30.3%; other, 37.7%, p <0.001; right: proximal, 23.3%, other, 36.6%, p <0.001), and tended to progress rapidly (adjusted odds ratios: left: LM, reference; proximal, 0.95, p = 0.803; other, 0.64, p = 0.017; right: proximal, reference; other, 0.52, p <0.001). Proximally located plaques were larger, with more risky composition, and progressed more rapidly., Competing Interests: Disclosures The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

96. Biomarkers and Imaging in Chest Pain: The Iceberg Beneath the Waterline.

Author

Chinnaiyan K and Januzzi JL Jr

Subjects

Biomarkers, Coronary Angiography, Humans, Chest Pain diagnosis, Chest Pain etiology

Abstract

Competing Interests: Funding Support and Author Disclosures Dr Chinnaiyan is a member of the Executive Committee and Board of Directors of SCCT; and her institution has received a research grant from HeartFlow, Inc. Dr Januzzi is a Trustee of the American College of Cardiology; is a board member of Imbria Pharmaceuticals; has received grant support from Applied Therapeutics, Innolife, Novartis Pharmaceuticals, and Abbott Diagnostics; has received consulting income from Abbott, Janssen, Novartis, and Roche Diagnostics; and has participated in clinical endpoint committees/data safety monitoring boards for Abbott, AbbVie, Amgen, Bayer, CVRx, Janssen, MyoKardia, and Takeda.

Published

2021

97. Differential progression of coronary atherosclerosis according to plaque composition: a cluster analysis of PARADIGM registry data.

Author

Yoon YE, Baskaran L, Lee BC, Pandey MK, Goebel B, Lee SE, Sung JM, Andreini D, Al-Mallah MH, Budoff MJ, Cademartiri F, Chinnaiyan K, Choi JH, Chun EJ, Conte E, Gottlieb I, Hadamitzky M, Kim YJ, Lee BK, Leipsic JA, Maffei E, Marques H, de Araújo Gonçalves P, Pontone G, Shin S, Narula J, Bax JJ, Lin FY, Shaw L, and Chang HJ

Subjects

Aged, Cluster Analysis, Coronary Angiography, Coronary Artery Disease pathology, Female, Humans, Male, Middle Aged, Plaque, Atherosclerotic classification, Plaque, Atherosclerotic pathology, Vascular Calcification pathology, Coronary Artery Disease diagnostic imaging, Plaque, Atherosclerotic diagnostic imaging, Vascular Calcification diagnostic imaging

Abstract

Patient-specific phenotyping of coronary atherosclerosis would facilitate personalized risk assessment and preventive treatment. We explored whether unsupervised cluster analysis can categorize patients with coronary atherosclerosis according to their plaque composition, and determined how these differing plaque composition profiles impact plaque progression. Patients with coronary atherosclerotic plaque (n = 947; median age, 62 years; 59% male) were enrolled from a prospective multi-national registry of consecutive patients who underwent serial coronary computed tomography angiography (median inter-scan duration, 3.3 years). K-means clustering applied to the percent volume of each plaque component and identified 4 clusters of patients with distinct plaque composition. Cluster 1 (n = 52), which comprised mainly fibro-fatty plaque with a significant necrotic core (median, 55.7% and 16.0% of the total plaque volume, respectively), showed the least total plaque volume (PV) progression (+ 23.3 mm 3 ), with necrotic core and fibro-fatty PV regression (- 5.7 mm 3 and - 5.6 mm 3 , respectively). Cluster 2 (n = 219), which contained largely fibro-fatty (39.2%) and fibrous plaque (46.8%), showed fibro-fatty PV regression (- 2.4 mm 3 ). Cluster 3 (n = 376), which comprised mostly fibrous (62.7%) and calcified plaque (23.6%), showed increasingly prominent calcified PV progression (+ 21.4 mm 3 ). Cluster 4 (n = 300), which comprised mostly calcified plaque (58.7%), demonstrated the greatest total PV increase (+ 50.7mm 3 ), predominantly increasing in calcified PV (+ 35.9 mm 3 ). Multivariable analysis showed higher risk for plaque progression in Clusters 3 and 4, and higher risk for adverse cardiac events in Clusters 2, 3, and 4 compared to that in Cluster 1. Unsupervised clustering algorithms may uniquely characterize patient phenotypes with varied atherosclerotic plaque profiles, yielding distinct patterns of progressive disease and outcome., (© 2021. The Author(s).)

Published

2021

98. Progression of whole-heart Atherosclerosis by coronary CT and major adverse cardiovascular events.

Author

van Rosendael AR, Lin FY, van den Hoogen IJ, Ma X, Gianni U, Al Hussein Alawamlh O, Al'Aref SJ, Peña JM, Andreini D, Budoff MJ, Cademartiri F, Chinnaiyan K, Choi JH, Conte E, Marques H, de Araújo Gonçalves P, Gottlieb I, Hadamitzky M, Leipsic J, Maffei E, Pontone G, Raff GL, Shin S, Kim YJ, Lee BK, Chun EJ, Sung JM, Lee SE, Han D, Berman DS, Virmani R, Samady H, Stone P, Narula J, Bax JJ, Shaw LJ, Min JK, and Chang HJ

Subjects

Aged, Computed Tomography Angiography, Coronary Angiography, Disease Progression, Female, Humans, Male, Middle Aged, Predictive Value of Tests, Prognosis, Tomography, X-Ray Computed, Atherosclerosis, Coronary Artery Disease diagnostic imaging, Plaque, Atherosclerotic

Abstract

Background: The current study aimed to examine the independent prognostic value of whole-heart atherosclerosis progression by serial coronary computed tomography angiography (CCTA) for major adverse cardiovascular events (MACE)., Methods: The multi-center PARADIGM study includes patients undergoing serial CCTA for symptomatic reasons, ≥2 years apart. Whole-heart atherosclerosis was characterized on a segmental level, with co-registration of baseline and follow-up CCTA, and summed to per-patient level. The independent prognostic significance of atherosclerosis progression for MACE (non-fatal myocardial infarction [MI], death, unplanned coronary revascularization) was examined. Patients experiencing interval MACE were not omitted., Results: The study population comprised 1166 patients (age 60.5 ​± ​9.5 years, 54.7% male) who experienced 139 MACE events during 8.2 (IQR 6.2, 9.5) years of follow up (15 death, 5 non-fatal MI, 119 unplanned revascularizations). Whole-heart percent atheroma volume (PAV) increased from 2.32% at baseline to 4.04% at follow-up. Adjusted for baseline PAV, the annualized increase in PAV was independently associated with MACE: OR 1.23 (95% CI 1.08, 1.39) per 1 standard deviation increase, which was consistent in multiple subpopulations. When categorized by composition, only non-calcified plaque progression associated independently with MACE, while calcified plaque did not. Restricting to patients without events before follow-up CCTA, those with future MACE showed an annualized increase in PAV of 0.93% (IQR 0.34, 1.96) vs 0.32% (IQR 0.02, 0.90), P ​< ​0.001., Conclusions: Whole-heart atherosclerosis progression examined by serial CCTA is independently associated with MACE, with a prognostic threshold of 1.0% increase in PAV per year., Competing Interests: Declaration of competing interest Dr. James K. Min receives funding from the Dalio Foundation, National Institutes of Health, and GE Healthcare. Dr. Min serves on the scientific advisory board of Arineta and GE Healthcare, and has an equity interest in Cleerly. Dr. Habib Samady serves on the medical advisory board of Philips and has equity holding in Covanos. The remaining authors have no relevant disclosures., (Copyright © 2020 Society of Cardiovascular Computed Tomography. Published by Elsevier Inc. All rights reserved.)

Published

2021

99. Topological Data Analysis of Coronary Plaques Demonstrates the Natural History of Coronary Atherosclerosis.

Author

Hwang D, Kim HJ, Lee SP, Lim S, Koo BK, Kim YJ, Kook W, Andreini D, Al-Mallah MH, Budoff MJ, Cademartiri F, Chinnaiyan K, Choi JH, Conte E, Marques H, de Araújo Gonçalves P, Gottlieb I, Hadamitzky M, Leipsic JA, Maffei E, Pontone G, Raff GL, Shin S, Lee BK, Chun EJ, Sung JM, Lee SE, Berman DS, Lin FY, Virmani R, Samady H, Stone PH, Narula J, Bax JJ, Shaw LJ, Min JK, and Chang HJ

Subjects

Data Analysis, Exercise, Humans, Predictive Value of Tests, Coronary Artery Disease diagnostic imaging

Abstract

Objectives: This study sought to identify distinct patient groups and their association with outcome based on the patient similarity network using quantitative coronary plaque characteristics from coronary computed tomography angiography (CTA)., Background: Coronary CTA can noninvasively assess coronary plaques quantitatively., Methods: Patients who underwent 2 coronary CTAs at a minimum of 24 months' interval were analyzed (n = 1,264). A similarity Mapper network of patients was built by topological data analysis (TDA) based on the whole-heart quantitative coronary plaque analysis on coronary CTA to identify distinct patient groups and their association with outcome., Results: Three distinct patient groups were identified by TDA, and the patient similarity network by TDA showed a closed loop, demonstrating a continuous trend of coronary plaque progression. Group A had the least coronary plaque amount (median 12.4 mm 3 [interquartile range (IQR): 0.0 to 39.6 mm 3 ]) in the entire coronary tree. Group B had a moderate coronary plaque amount (31.7 mm 3 [IQR: 0.0 to 127.4 mm 3 ]) with relative enrichment of fibrofatty and necrotic core (32.6% [IQR: 16.7% to 46.2%] and 2.7% [IQR: 0.1% to 6.9%] of the total plaque, respectively) components. Group C had the largest coronary plaque amount (187.0 mm 3 [IQR: 96.7 to 306.4 mm 3 ]) and was enriched for dense calcium component (46.8% [IQR: 32.0% to 63.7%] of the total plaque). At follow-up, total plaque volume, fibrous, and dense calcium volumes increased in all groups, but the proportion of fibrofatty component decreased in groups B and C, whereas the necrotic core portion decreased in only group B (all p < 0.05). Group B showed a higher acute coronary syndrome incidence than other groups (0.3% vs. 2.6% vs. 0.6%; p = 0.009) but both group B and C had a higher revascularization incidence than group A (3.1% vs. 15.5% vs. 17.8%; p < 0.001). Incorporating group information from TDA demonstrated increase of model fitness for predicting acute coronary syndrome or revascularization compared with that incorporating clinical risk factors, percentage diameter stenosis, and high-risk plaque features., Conclusions: The TDA of quantitative whole-heart coronary plaque characteristics on coronary CTA identified distinct patient groups with different plaque dynamics and clinical outcomes. (Progression of AtheRosclerotic PlAque DetermIned by Computed TomoGraphic Angiography Imaging [PARADIGM]; NCT02803411)., Competing Interests: Funding Support And Author Disclosures This work was supported by a grant from Seoul National University Hospital research fund (Grant No. 0320200430), the Leading Foreign Research Institute Recruitment Program through the National Research Foundation of Korea funded by the Ministry of Science and ICT (Grant No. 2012027176) (to Dr. Chang), and the National Research Foundation of Korea funded by the Ministry of Science and ICT (Grant No. 2017R1E1A1A03070779, 2018R1A2A3075511, 2019R1A2C2084099, and 2020R1A2C1A01011543). The study was also funded in part by a generous gift from the Dalio Institute of Cardiovascular Imaging and the Michael Wolk Foundation. The funders of the study had no role in study design, data collection, data analysis, data interpretation, or writing of the report. Dr. Koo has received institutional research grant support from St. Jude Medical (Abbott Vascular) and Philips Volcano. Dr. Samady has served on the scientific advisory board of Philips; has an equity interest in Covanos Inc.; and has received research grant support from Medtronic. Dr. Min has received funding from the Dalio Foundation, the National Institutes of Health, and GE Healthcare; has served on the scientific advisory board of Arineta and GE Healthcare; and has an equity interest in Cleerly. All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2021 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.)

Published

2021

100. Association between Aortic Valve Calcification Progression and Coronary Atherosclerotic Plaque Volume Progression in the PARADIGM Registry.

Author

Lee SE, Sung JM, Andreini D, Al-Mallah MH, Budoff MJ, Cademartiri F, Chinnaiyan K, Choi JH, Chun EJ, Conte E, Gottlieb I, Hadamitzky M, Kim YJ, Lee BK, Leipsic JA, Maffei E, Marques H, de Araújo Gonçalves P, Pontone G, Shin S, Stone PH, Samady H, Virmani R, Narula J, Berman DS, Shaw LJ, Bax JJ, Lin FY, Min JK, and Chang HJ

Subjects

Aged, Aortic Valve diagnostic imaging, Aortic Valve Stenosis complications, Calcinosis complications, Coronary Artery Disease complications, Disease Progression, Female, Humans, Internationality, Male, Middle Aged, Plaque, Atherosclerotic complications, Prospective Studies, Aortic Valve pathology, Aortic Valve Stenosis diagnostic imaging, Calcinosis diagnostic imaging, Computed Tomography Angiography methods, Coronary Angiography methods, Coronary Artery Disease diagnostic imaging, Plaque, Atherosclerotic diagnostic imaging, Registries statistics & numerical data

Abstract

Background Aortic valve calcification (AVC) is a key feature of aortic stenosis, and patients with aortic stenosis often have coronary -artery disease. Therefore, proving the association between the progression of AVC and coronary atherosclerosis could improve follow-up and treatment strategies. Purpose To explore the association between the progression of AVC and the progression of total and plaque volume composition from a large multicenter registry of serial coronary CT angiographic examinations. Materials and Methods A prospective multinational registry (PARADIGM) of consecutive participants who underwent serial coronary CT angiography at intervals of every 2 years or more was performed (January 2003-December 2015). AVC and the total and plaque volume composition at baseline and follow-up angiography were quantitatively analyzed. Plaque volumes were normalized by using the mean total analyzed vessel length of the study population. Multivariable linear mixed-effects models were constructed. Results Overall, 594 participants (mean age ± standard deviation, 62 years ± 10; 330 men) were included (mean interval between baseline and follow-up angiography, 3.9 years ± 1.5). At baseline, the AVC score was 31 Agatston units ± 117, and the normalized total plaque volume at baseline was 122 mm 3 ± 219. After adjustment for age, sex, clinical risk factors, and medication use, AVC was independently associated with total plaque volume (standardized β = 0.24; 95% CI: 0.16, 0.32; P < .001) and both calcified (β = 0.26; 95% CI: 0.18, 0.34; P < .001) and noncalcified (β = 0.17; 95% CI: 0.08, 0.25; P < .001) plaque volumes at baseline. The progression of AVC was associated with the progression of total plaque volume (β = 0.13; 95% CI: 0.03, 0.22; P = .01), driven solely by calcified plaque volume (β = 0.24; 95% CI: 0.14, 0.34; P < .001) but not noncalcified plaque volumes (β = -0.06; 95% CI: -0.14, 0.03; P = .17). Conclusion The overall burden of coronary atherosclerosis was associated with aortic valve calcification at baseline. However, the progression of aortic valve calcification was associated with only the progression of calcified plaque volume but not with the -progression of noncalcified plaque volume. Clinical trial registration no. NCT02803411 © RSNA, 2021 See also the editorial by Sinitsyn in this issue.

Published

2021