Population Trends in the Incidence and Outcomes of Acute Myocardial Infarction Robert W. Yeh, MD MSc Massachusetts General Hospital Alan S. Go, MD Kaiser Division of Research University of California, San Francisco

The “Ecosystem” of Acute Myocardial Infarction Obese population rising DM & HTN increasing Widespread use of statins Increased use of smoking cessation programs Better antiplatelet therapy More use of beta blockers and ACE-I Population at Risk for Myocardial Infarction Aging of the population NET EFFECT? BACKGROUND

Existing Recent Literature on Myocardial Infarction Incidence -Mostly limited to trends prior to Focused on groups with limited diversity with respect to race and ethnic group, age and sex -Have not distinguished ST and non-ST-elevation MI -Have not examined trends in improvements in outpatient cardiovascular medication use

Goals of Proposed Research To provide a comprehensive, contemporary assessment of the epidemiology of STEMI and NSTEMI in a large population-based sample between 1999 and 2008 An evaluation of progress in the care of MI patients A test of the true impact of medical and public health interventions Suggestions for more optimal health resource allocation OBJECTIVE

Kaiser Permanente of Northern California Integrated health care delivery system providing comprehensive care of ~3.3 million persons 20 medical centers + large set of ambulatory practices Diverse population representative of northern California and statewide Low churn rate

Incidence of Myocardial Infarction Incidence rates of STEMI and NSTEMI calculated for each year –All Kaiser members age ≥ 30 –Numerator: Hospitalized admission for MI based on ICD-9-CM primary discharge diagnosis. STEMI: 4101 – 410.6, NSTEMI 410.7, Codes validated by detailed chart review in a random sample of 800 MI admissions. –Denominator: Person-months, annualized, based on monthly updated membership status. –Direct Age-Sex adjustment METHODS

Health plan databases capture the large majority of aspects of clinical care and linked through single medical record number Detailed demographic information Multiple data sources to ascertain comorbid conditions Longitudinal outpatient prescription medication use before and after incident MI Outcomes – detailed discharge and billing codes with access to medical records; linked to state death files and Social Security Administration vital status data Comprehensive Clinical and Administrative Electronic Databases

Cardiac Biomarkers –Peak CK-MB and MB fraction ascertained for all identified MI admissions Mortality –30-day all-cause mortality ascertained from linked health plan administrative databases, proxy information, Social Security Administration vital status files, and California state death certificate information –Logistic regression using generalized estimating equations to account for facility-based clustering used to examine trends in yearly adjusted mortality. Outcomes

Incidence of Myocardial Infarction 46,086 hospitalized patients with myocardial infarction over 18,691,131 person-years RESULTS Any MI NSTEMI STEMI

Medication Use ACE - I/AR B Thien opyridi ne Non-Statin Lipid Lowering β- Blo cke r St at in ACE - I/AR B Thien opyridi ne Non-Statin Lipid Lowering β- Blo cke r St at in ACE - I/AR B Thien opyridi ne Non-Statin Lipid Lowering β- Blo cke r St at in

Revascularization after MI

Biomarkers Troponin I testing increased from 53% in 1999 to 84% in 2004 –Stable testing rates after 2004 Peak CK-MB and CK-MB fraction decreased significantly over time for all MI and for NSTEMI. No change in biomarker peak levels over time after STEMI

Adjusted Mortality Rates

Adjusted Mortality

Conclusions There has been a 24% decline in the incidence of MI since 2000, with steep decline in STEMI incidence throughout time period. Significant improvements in the outpatient use of cardiovascular medications including statins and beta blockers have occurred, which may, in part, explain declines in MI incidence. Lower severity NSTEMI have been detected over time, coinciding with increased use of troponin. Improvements in adjusted mortality have been modest, and are likely driven by in part by increased ascertainment of low-acuity NSTEMI

Limitations Reliance on diagnosis codes –Sensitivity analyses that broadened the definition of MI to include other codes showed similar trends. –Trends in STEMI and NSTEMI were similar at 95% confidence limits of positive predictive value of codes based on validation. Large, diverse population but may not be completely generalizable to all health care settings and populations Whether declines in MI incidence have occurred similarly in other geographic regions is not known.

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