Literature DB >> 25743208

Usefulness of regional distribution of coronary artery calcium to improve the prediction of all-cause mortality.

Rajesh Tota-Maharaj1, Parag H Joshi2, Matthew J Budoff3, Seamus Whelton2, Irfan Zeb4, John Rumberger5, Mouaz Al-Mallah6, Roger S Blumenthal2, Khurram Nasir7, Michael J Blaha8.   

Abstract

Although the traditional Agatston coronary artery calcium (CAC) score is a powerful predictor of mortality, it is unknown if the regional distribution of CAC further improves cardiovascular risk prediction. We retrospectively studied 23,058 patients referred for Agatston CAC scoring, of whom 61% had CAC (n=14,084). CAC distribution was defined as the number of vessels with CAC (0 to 4, including left main). For multivessel CAC, "diffuse" CAC was defined by decreasing percentage of CAC in the single most affected vessel and by ≤75% total Agatston CAC score in the most calcified vessel. All-cause mortality was ascertained through the social security death index. The mean age was 55±11 years, with 69% men. There were 584 deaths (2.5%) over 6.6±1.7 years. Considerable heterogeneity existed between the Agatston CAC score group and the number of vessels with CAC. In each CAC group, increasing number of vessels with CAC was associated with an increased mortality rate. After adjusting for age, gender, Agatston CAC score, and cardiovascular risk factors, increasing number of vessels with CAC was associated with higher mortality risk compared with single-vessel CAC (2-vessel: HR 1.61 [95% CI 1.14 to 2.25], 3-vessel: 1.99 [1.44 to 2.77], and 4-vessel: 2.22 [1.53 to 3.23]). "Diffuse" CAC was associated with a higher mortality rate in the CAC 101 to 400 and >400 groups. Left main CAC was associated with increased mortality risk. In conclusion, increasing number of vessels with CAC and left main CAC predict increased all-cause mortality and improve the prognostic power of the traditional Agatston CAC score.
Copyright © 2015 Elsevier Inc. All rights reserved.

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Year:  2015        PMID: 25743208     DOI: 10.1016/j.amjcard.2015.01.555

Source DB:  PubMed          Journal:  Am J Cardiol        ISSN: 0002-9149            Impact factor:   2.778


  14 in total

1.  Improving the CAC Score by Addition of Regional Measures of Calcium Distribution: Multi-Ethnic Study of Atherosclerosis.

Authors:  Michael J Blaha; Matthew J Budoff; Rajesh Tota-Maharaj; Zeina A Dardari; Nathan D Wong; Richard A Kronmal; John Eng; Wendy S Post; Roger S Blumenthal; Khurram Nasir
Journal:  JACC Cardiovasc Imaging       Date:  2016-04-13

Review 2.  An Update on the Utility of Coronary Artery Calcium Scoring for Coronary Heart Disease and Cardiovascular Disease Risk Prediction.

Authors:  Sina Kianoush; Mahmoud Al Rifai; Miguel Cainzos-Achirica; Priya Umapathi; Garth Graham; Roger S Blumenthal; Khurram Nasir; Michael J Blaha
Journal:  Curr Atheroscler Rep       Date:  2016-03       Impact factor: 5.113

Review 3.  Coronary Calcium Score and Cardiovascular Risk.

Authors:  Philip Greenland; Michael J Blaha; Matthew J Budoff; Raimund Erbel; Karol E Watson
Journal:  J Am Coll Cardiol       Date:  2018-07-24       Impact factor: 24.094

4.  The association between left main coronary artery calcium and cardiovascular-specific and total mortality: The Coronary Artery Calcium Consortium.

Authors:  Steven J Lahti; David I Feldman; Zeina Dardari; Mohammadhassan Mirbolouk; Olusola A Orimoloye; Albert D Osei; Garth Graham; John Rumberger; Leslee Shaw; Matthew J Budoff; Alan Rozanski; Michael D Miedema; Mouaz H Al-Mallah; Dan Berman; Khurram Nasir; Michael J Blaha
Journal:  Atherosclerosis       Date:  2019-03-24       Impact factor: 5.162

5.  Validation of the Coronary Artery Calcium Data and Reporting System (CAC-DRS): Dual importance of CAC score and CAC distribution from the Coronary Artery Calcium (CAC) consortium.

Authors:  Omar Dzaye; Ramzi Dudum; Mohammadhassan Mirbolouk; Olusola A Orimoloye; Albert D Osei; Zeina A Dardari; Daniel S Berman; Michael D Miedema; Leslee Shaw; Alan Rozanski; Matthias Holdhoff; Khurram Nasir; John A Rumberger; Matthew J Budoff; Mouaz H Al-Mallah; Ron Blankstein; Michael J Blaha
Journal:  J Cardiovasc Comput Tomogr       Date:  2019-03-28

6.  Burden of Peripheral Artery Disease on Mortality and Incident Cardiovascular Events.

Authors:  Jonathan T Unkart; Matthew A Allison; Maria Rosario G Araneta; Joachim H Ix; Kunihiro Matsushita; Michael H Criqui
Journal:  Am J Epidemiol       Date:  2020-09-01       Impact factor: 4.897

Review 7.  Role of Coronary Calcium Score to Identify Candidates for ASCVD Prevention.

Authors:  Hong Loan Nguyen; Jing Liu; Maygen Del Castillo; Tina Shah
Journal:  Curr Atheroscler Rep       Date:  2019-11-21       Impact factor: 5.113

Review 8.  Zooming in on the genesis of atherosclerotic plaque microcalcifications.

Authors:  Jessica L Ruiz; Sheldon Weinbaum; Elena Aikawa; Joshua D Hutcheson
Journal:  J Physiol       Date:  2016-05-01       Impact factor: 5.182

9.  The Correlation of Dyslipidemia with the Extent of Coronary Artery Disease in the Multiethnic Study of Atherosclerosis.

Authors:  Moshrik Abd Alamir; Michael Goyfman; Adib Chaus; Firas Dabbous; Leslie Tamura; Veit Sandfort; Alan Brown; Mathew Budoff
Journal:  J Lipids       Date:  2018-03-27

10.  Comparison of carotid intima-media thickness and coronary artery calcium score for estimating subclinical atherosclerosis in patients with fatty liver disease.

Authors:  Hyun-Jin Kim; Hyung-Bok Park; Yongsung Suh; Yoon-Hyeong Cho; Eui-Seok Hwang; Deok-Kyu Cho; Tae-Young Choi
Journal:  Cardiovasc J Afr       Date:  2017-12-08       Impact factor: 1.167
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