Scientific Sessions 2024  /  AI at Heart: Revolutionizing Cardiovascular Imaging  /  AI-CVD: Artificial Intelligence-Enabled Opportunistic Screening of Coronary Artery Calcium Computed Tomography Scans for Predicting CVD Events and All-Cause Mortality: The Multi-Ethnic Study of Atherosclerosis (MESA)
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American Heart Association

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Final ID: Su3047

AI-CVD: Artificial Intelligence-Enabled Opportunistic Screening of Coronary Artery Calcium Computed Tomography Scans for Predicting CVD Events and All-Cause Mortality: The Multi-Ethnic Study of Atherosclerosis (MESA)

Abstract Body (Do not enter title and authors here): Background: The AI-CVD initiative aims to extract all useful opportunistic screening information from coronary artery calcium (CAC) scans and combines them with traditional risk factors to create a stronger predictor of cardiovascular diseases (CVD). These measurements include cardiac chambers volumes (left atrium (LA), left ventricle (LV), right atrium (RA), right ventricle (RV), and left ventricular mass (LVM)), aortic wall and valvular calcification, aorta and pulmonary artery volumes, torso visceral fat, emphysema score, thoracic bone mineral density, and fatty liver score. We have previously reported that the automated cardiac chambers volumetry component of AI-CVD predicts incident atrial fibrillation (AF), heart failure (HF), and stroke in the Multi-Ethnic Study of Atherosclerosis (MESA). In this report, we examine the contribution of other AI-CVD components for all coronary heart disease (CHD), AF, HF, stroke plus transient ischemic attack (TIA), all-CVD, and all-cause mortality.
Methods: We applied AI-CVD to CAC scans of 5830 individuals (52.2% women, age 61.7±10.2 years) without known CVD that were previously obtained for CAC scoring at MESA baseline examination. We used 10-year outcomes data and assessed hazard ratios for AI-CVD components plus CAC score and known CVD risk factors (age, sex, diabetes, smoking, LDL-C, HDL-C, systolic and diastolic blood pressure, hypertension medication). AI-CVD predictors were modeled per standard deviation (SD) increase using Cox proportional hazards regression.
Results: Over 10 years of follow-up, 1058 CVD (550 AF, 198 HF, 163 stroke, 389 CHD) and 628 all-cause mortality events accrued with some cases having multiple events. Among AI-CVD components, CAC score and chamber volumes were the strongest predictors of different outcomes. Expectedly, age was the strongest predictor for all outcomes except HF where LV volume and LV mass were stronger predictors than age. Figure 1 shows contribution of each predictor for various outcomes.
Conclusion: AI-enabled opportunistic screening of useful information in CAC scans contributes substantially to CVD and total mortality prediction independently of CAC score and CVD risk factors. Further studies are warranted to evaluate the clinical utility of AI-CVD.
  • Naghavi, Morteza  ( HeartLung.AI , Houston , Texas , United States )
  • Yu, Ruilin  ( UCLA , Los Angeles , California , United States )
  • Branch, Andrea  ( Mount Sinai Hospital , New York , New York , United States )
  • Ma, Ning  ( Mount Sinai Hospital , New York , New York , United States )
  • Roy, Sion  ( UCLA Harbor , Santa Monica , California , United States )
  • Nasir, Khurram  ( Houston Methodist , Houston , Texas , United States )
  • Molloi, Sabee  ( University of California, Irvine , Irvine , California , United States )
  • Fayad, Zahi  ( MOUNT SINAI MEDICAL CENTER , New York , New York , United States )
  • Mcconnell, Michael  ( Stanford University School of Medicine , Stanford , California , United States )
  • Kakadiaris, Ioannis  ( University of Houston , Houston , Texas , United States )
  • Zulueta, Javier  ( Mount Sinai Hospital , New York , New York , United States )
  • Reeves, Anthony  ( Cornell University , Ithaca , New York , United States )
  • Maron, David  ( Stanford University School of Medicine , Stanford , California , United States )
  • Shah, Prediman  ( Cedars-Sinai Medical Center , Los Angeles , California , United States )
  • Williams, Kim  ( University of Louisville Medicine , Louisville , Kentucky , United States )
  • Abela, George  ( Michigan State University , East Lansing , Michigan , United States )
  • Levy, Daniel  ( National Heart, Lung, and Blood Institute , Bethesda , Maryland , United States )
  • Wong, Nathan  ( University of California Irvine , Irvine , California , United States )
  • Atlas, Kyle  ( HeartLung.AI , Houston , Texas , United States )
  • Zhang, Chenyu  ( HeartLung.AI , Houston , Texas , United States )
  • Atlas, Thomas  ( Tustin Teleradiology , Tustin , California , United States )
  • Henschke, Claudia  ( Mount Sinai Hospital , New York , New York , United States )
  • Yankelevitz, David  ( Mount Sinai Hospital , New York , New York , United States )
  • Budoff, Matthew  ( UCLA Harbor , Santa Monica , California , United States )
  • Fan, Wenjun  ( University of California Irvine , Irvine , California , United States )
    • Author Disclosures:
    Morteza Naghavi: DO have relevant financial relationships ; Ownership Interest:HeartLung.AI:Active (exists now) | Ruilin Yu: DO NOT have relevant financial relationships | Andrea Branch: DO NOT have relevant financial relationships | Ning Ma: No Answer | Sion Roy: DO NOT have relevant financial relationships | Khurram Nasir: No Answer | Sabee Molloi: DO NOT have relevant financial relationships | Zahi Fayad: No Answer | Michael McConnell: DO have relevant financial relationships ; Employee:Toku Inc.:Active (exists now) ; Advisor:Porter Health:Active (exists now) ; Employee:Identifeye Health:Past (completed) | Ioannis Kakadiaris: No Answer | Javier Zulueta: DO have relevant financial relationships ; Advisor:Heart Lung Technologies:Active (exists now) ; Advisor:Disit Biotech:Active (exists now) ; Advisor:OncoSwab:Active (exists now) ; Advisor:Median Technologies:Active (exists now) | Anthony Reeves: No Answer | David Maron: No Answer | Prediman Shah: No Answer | Kim Williams: DO NOT have relevant financial relationships | george Abela: No Answer | Daniel Levy: No Answer | Nathan Wong: No Answer | Kyle Atlas: DO have relevant financial relationships ; Independent Contractor:HeartLung.AI:Active (exists now) | Chenyu Zhang: DO have relevant financial relationships ; Employee:HeartLung Corporation:Active (exists now) ; Individual Stocks/Stock Options:HeartLung Corporation:Active (exists now) | Thomas Atlas: DO NOT have relevant financial relationships | Claudia Henschke: No Answer | David Yankelevitz: DO have relevant financial relationships ; Individual Stocks/Stock Options:HeartLung:Active (exists now) ; Advisor:Lunglife AI:Active (exists now) ; Advisor:Carestream:Active (exists now) ; Advisor:Median Technology:Active (exists now) ; Advisor:HeartLung:Active (exists now) ; Individual Stocks/Stock Options:Accumetra:Active (exists now) ; Royalties/Patent Beneficiary:General Electric:Active (exists now) | Matthew Budoff: DO have relevant financial relationships ; Researcher:General Electric:Active (exists now) | WENJUN FAN: DO NOT have relevant financial relationships
Meeting Info:

Scientific Sessions 2024

2024

Chicago, Illinois

Session Info:

AI at Heart: Revolutionizing Cardiovascular Imaging

Sunday, 11/17/2024 , 11:30AM - 12:30PM

Abstract Poster Session

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