M Guzman Castillo scite author profile

M Guzman Castillo

3Publications

79Citation Statements Received

94Citation Statements Given

How they've been cited

107

How they cite others

Affiliations

University of Liverpool, National Center for Chronic Disease Prevention and Health Promotion, Northwestern University

Publications

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Quantifying Options for Reducing Coronary Heart Disease Mortality By 2020

et al. 2013

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Introduction The AHA 2020 Strategic Impact Goal proposes a 20% improvement in cardiovascular health of all Americans. We aimed to estimate the potential reduction in coronary heart disease (CHD) deaths. Methods and Results We used data on 40,373 CVD-free adults from NHANES (1988–2010). We quantified recent trends for six metrics (total cholesterol [TC]; systolic blood pressure [SBP]; physical inactivity; smoking; diabetes; obesity) and generated linear projections to 2020. We projected the expected number of CHD deaths in 2020 if 2006 age- and sex-specific CHD death rates remained constant, which would result in approximately 480,000 CHD deaths in 2020 (12% increase). We used the previously validated IMPACT CHD model to project numbers of CHD deaths in 2020 under two different scenarios. A) Assuming a 20% improvement in each CVH metric, we project 365,000 CHD deaths in 2020, (range 327,000–403,000) a 24% decrease reflecting modest reductions in TC (−41,000), SBP (−36,000), physical inactivity (−12,000), smoking (−10,000), diabetes (−10,000), and obesity (−5,000). B) Assuming that recent risk factor trends continue to 2020, we project 335,000 CHD deaths (range 274,000–386,000), a 30% decrease reflecting improvements in TC, SBP, smoking and physical activity (~167,000 fewer deaths), offset by increases in diabetes and BMI (~24,000 more deaths). Conclusions Two contrasting scenarios of change in CVH metrics could prevent 24–30% of the CHD deaths expected in 2020, though with differing impacts by age. Unfavorable continuing trends in obesity and diabetes would have substantial adverse effects. This analysis demonstrates the utility of modelling to inform health policy.

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Reduction in myocardial infarction admissions in Liverpool after the smoking ban: potential socioeconomic implications for policymaking

et al. 2013

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ObjectivesTo analyse the trends and trend changes in myocardial infraction (MI) and coronary heart disease (CHD) admissions, to investigate the effects of the 2007 smoke-free legislation on these trends, and to consider the policy implications of any findings.Design settingLiverpool (city), UK.ParticipantsHospital episode statistics data on all 56 995 admissions for CHD in Liverpool between 2004 and 2012 (International Classification of Diseases codes I20–I25 coded as an admission diagnosis within the defined dates).Primary and secondary outcome measuresTrend gradient and change points (by trend regressions analysis) in age-standardised MI admissions in Liverpool between 2004 and 2012; by sex and by socioeconomic status. Secondary analysis on CHD admissions.ResultsA significant and sustained reduction was seen in MI admissions in Liverpool beginning within 1 year of the smoking ban. Comparing 2005/2006 and 2010/2011, the age-adjusted rates for MI admissions fell by 42% (39–45%) (41.6% in men and by 42.6% in women). Trend analysis shows that this is significantly greater than the background trend of decreasing admissions. These reductions appeared consistent across all socioeconomic groups. Interestingly, admission rates for total CHD (including mild to severe angina) increased by 10% (8–12%).ConclusionsA dramatic reduction in MI admissions in Liverpool has been observed coinciding with the smoking ban in 2007. Furthermore, the benefits were apparent across the socioeconomic spectrum. Health inequalities were not affected and may even have been reduced. The rapid effects observed with this top-down, environmental policy may further increase its value to policymakers.

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Future Declines of Coronary Heart Disease Mortality in England and Wales Could Counter the Burden of Population Ageing

et al. 2014

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BackgroundCoronary Heart Disease (CHD) remains a major cause of mortality in the United Kingdom. Yet predictions of future CHD mortality are potentially problematic due to population ageing and increase in obesity and diabetes. Here we explore future projections of CHD mortality in England & Wales under two contrasting future trend assumptions.MethodsIn scenario A, we used the conventional counterfactual scenario that the last-observed CHD mortality rates from 2011 would persist unchanged to 2030. The future number of deaths was calculated by applying those rates to the 2012–2030 population estimates. In scenario B, we assumed that the recent falling trend in CHD mortality rates would continue. Using Lee-Carter and Bayesian Age Period Cohort (BAPC) models, we projected the linear trends up to 2030. We validate our methods using past data to predict mortality from 2002–2011. Then, we computed the error between observed and projected values.ResultsIn scenario A, assuming that 2011 mortality rates stayed constant by 2030, the number of CHD deaths would increase 62% or approximately 39,600 additional deaths. In scenario B, assuming recent declines continued, the BAPC model (the model with lowest error) suggests the number of deaths will decrease by 56%, representing approximately 36,200 fewer deaths by 2030.ConclusionsThe decline in CHD mortality has been reasonably continuous since 1979, and there is little reason to believe it will soon halt. The commonly used assumption that mortality will remain constant from 2011 therefore appears slightly dubious. By contrast, using the BAPC model and assuming continuing mortality falls offers a more plausible prediction of future trends. Thus, despite population ageing, the number of CHD deaths might halve again between 2011 and 2030. This has implications for how the potential benefits of future cardiovascular strategies might best be calculated and presented.

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