Development and Validation of the American Heart Association’s PREVENT Equations-Reference-Cited by-同舟云学术

Development and Validation of the American Heart Association’s PREVENT Equations

Published:2024-02-06 Issue:6 Volume:149 Page:430-449
ISSN:0009-7322
Container-title:Circulation
language:en
Short-container-title:Circulation

Author:

Khan Sadiya S.¹^ORCID,Matsushita Kunihiro²^ORCID,Sang Yingying²³^ORCID,Ballew Shoshana H.²³^ORCID,Grams Morgan E.⁴^ORCID,Surapaneni Aditya⁴^ORCID,Blaha Michael J.⁵^ORCID,Carson April P.⁶^ORCID,Chang Alexander R.⁷^ORCID,Ciemins Elizabeth⁸^ORCID,Go Alan S.⁹^ORCID,Gutierrez Orlando M.¹⁰^ORCID,Hwang Shih-Jen¹¹^ORCID,Jassal Simerjot K.¹²^ORCID,Kovesdy Csaba P.¹³,Lloyd-Jones Donald M.¹⁴^ORCID,Shlipak Michael G.¹⁵^ORCID,Palaniappan Latha P.¹⁶^ORCID,Sperling Laurence¹⁷^ORCID,Virani Salim S.¹⁸^ORCID,Tuttle Katherine¹⁹^ORCID,Neeland Ian J.²⁰^ORCID,Chow Sheryl L.²¹,Rangaswami Janani²²^ORCID,Pencina Michael J.²³^ORCID,Ndumele Chiadi E.²⁴^ORCID,Coresh Josef²³^ORCID,

Affiliation:

1. Department of Medicine, Northwestern University Feinberg School of Medicine, Chicago, IL (S.S.K.).

2. Department of Epidemiology, Johns Hopkins Bloomberg School of Public Health, Baltimore, MD (K.M., Y.S., S.H.B., J.C.).

3. Department of Population Health, New York University Grossman School of Medicine, New York, NY (Y.S., S.H.B., J.C.).

4. Department of Medicine, Division of Precision Medicine, New York University Grossman School of Medicine, New York, NY (M.E.G., A.S.).

5. Johns Hopkins Ciccarone Center for Prevention of Cardiovascular Disease, Baltimore, MD (M.J.B.).

6. University of Mississippi Medical Center, Jackson (A.P.C.).

7. Departments of Nephrology and Population Health Sciences, Geisinger Health, Danville, PA (A.R.C.).

8. AMGA (American Medical Group Association), Alexandria, VA (E.C.).

9. Division of Research, Kaiser Permanente Northern California, Oakland; Department of Health Systems Science, Kaiser Permanente Bernard J. Tyson School of Medicine, Pasadena, CA; Departments of Epidemiology, Biostatistics and Medicine, University of California, San Francisco; Department of Medicine (Nephrology), Stanford University School of Medicine, Palo Alto, CA (A.S,G.).

10. Departments of Epidemiology and Medicine, University of Alabama at Birmingham (O.M.G.).

11. National Heart, Lung, and Blood Institute, Framingham, MA (S.-J.H.).

12. Division of General Internal Medicine, University of California, San Diego and VA San Diego Healthcare, CA (S.K.J.).

13. Medicine-Nephrology, Memphis Veterans Affairs Medical Center and University of Tennessee Health Science Center, Memphis (C.P.K.).

14. Department of Preventive Medicine, Northwestern University, Chicago, IL (D.M.L.-J.).

15. Department of Medicine, Epidemiology, and Biostatistics, University of California, San Francisco, and San Francisco VA Medical Center (M.G.S.).

16. Center for Asian Health Research and Education and the Department of Medicine, Stanford University School of Medicine, CA (L.P.P.).

17. Department of Cardiology, Emory University, Atlanta, GA (L.S.).

18. Department of Medicine, The Aga Khan University, Karachi, Pakistan; Texas Heart Institute and Baylor College of Medicine, Houston (S.S.V.).

19. Providence Medical Research Center, Providence Inland Northwest Health, Spokane, WA; Kidney Research Institute and Institute of Translational Health Sciences, University of Washington, Seattle (K.T.).

20. UH Center for Cardiovascular Prevention, Translational Science Unit, Center for Integrated and Novel Approaches in Vascular-Metabolic Disease (CINEMA), Harrington Heart and Vascular Institute, University Hospitals Cleveland Medical Center, Case Western Reserve University School of Medicine, OH (I.J.N.).

21. Department of Pharmacy Practice and Administration, College of Pharmacy, Western University of Health Sciences, Pomona, CA (S.L.C.).

22. Washington DC VA Medical Center and George Washington University School of Medicine (J.R.).

23. Department of Biostatistics, Duke University Medical Center, Durham, NC (M.J.P.).

24. Division of Cardiology, Johns Hopkins University School of Medicine, Baltimore, MD (C.E.N.).

Abstract

BACKGROUND: Multivariable equations are recommended by primary prevention guidelines to assess absolute risk of cardiovascular disease (CVD). However, current equations have several limitations. Therefore, we developed and validated the American Heart Association Predicting Risk of CVD EVENTs (PREVENT) equations among US adults 30 to 79 years of age without known CVD. METHODS: The derivation sample included individual-level participant data from 25 data sets (N=3 281 919) between 1992 and 2017. The primary outcome was CVD (atherosclerotic CVD and heart failure). Predictors included traditional risk factors (smoking status, systolic blood pressure, cholesterol, antihypertensive or statin use, and diabetes) and estimated glomerular filtration rate. Models were sex-specific, race-free, developed on the age scale, and adjusted for competing risk of non-CVD death. Analyses were conducted in each data set and meta-analyzed. Discrimination was assessed using the Harrell C-statistic. Calibration was calculated as the slope of the observed versus predicted risk by decile. Additional equations to predict each CVD subtype (atherosclerotic CVD and heart failure) and include optional predictors (urine albumin-to-creatinine ratio and hemoglobin A1c), and social deprivation index were also developed. External validation was performed in 3 330 085 participants from 21 additional data sets. RESULTS: Among 6 612 004 adults included, mean±SD age was 53±12 years, and 56% were women. Over a mean±SD follow-up of 4.8±3.1 years, there were 211 515 incident total CVD events. The median C-statistics in external validation for CVD were 0.794 (interquartile interval, 0.763–0.809) in female and 0.757 (0.727–0.778) in male participants. The calibration slopes were 1.03 (interquartile interval, 0.81–1.16) and 0.94 (0.81–1.13) among female and male participants, respectively. Similar estimates for discrimination and calibration were observed for atherosclerotic CVD– and heart failure–specific models. The improvement in discrimination was small but statistically significant when urine albumin-to-creatinine ratio, hemoglobin A1c, and social deprivation index were added together to the base model to total CVD (ΔC-statistic [interquartile interval] 0.004 [0.004–0.005] and 0.005 [0.004–0.007] among female and male participants, respectively). Calibration improved significantly when the urine albumin-to-creatinine ratio was added to the base model among those with marked albuminuria (>300 mg/g; 1.05 [0.84–1.20] versus 1.39 [1.14–1.65]; P =0.01). CONCLUSIONS: PREVENT equations accurately and precisely predicted risk for incident CVD and CVD subtypes in a large, diverse, and contemporary sample of US adults by using routinely available clinical variables.

Funder

HHS | NIH | National Institute of Diabetes and Digestive and Kidney Diseases

HHS | NIH | National Heart, Lung, and Blood Institute

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Physiology (medical),Cardiology and Cardiovascular Medicine

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5. Cardiovascular Risk Prediction

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