Differences in survival associated with processed and with nonprocessed red meat consumption.

BACKGROUND High red meat consumption is associated with an increased mortality risk. This association is partly explained by the negative effect of processed meat consumption, which is widely established. The role of nonprocessed meat is unclear. OBJECTIVE The objective was to examine the combined association of processed and nonprocessed meat consumption with survival in a Swedish large prospective cohort. DESIGN In a population-based cohort of 74,645 Swedish men (40,089) and women (34,556), red meat consumption was assessed through a self-administered questionnaire. We estimated differences in survival [15th percentile differences (PDs), differences in the time by which the first 15% of the cohort died] according to levels of total red meat and combined levels of processed and nonprocessed red meat consumption. RESULTS During 15 y of follow-up (January 1998 to December 2012), we documented 16,683 deaths (6948 women; 9735 men). Compared with no consumption, consumption of red meat >100 g/d was progressively associated with shorter survival--up to 2 y for participants consuming an average of 300 g/d (15th PD: -21 mo; 95% CI: -31, -10). Compared with no consumption, high consumption of processed red meat (100 g/d) was associated with shorter survival (15th PD: -9 mo; 95% CI: -16, -2). High and moderate intakes of nonprocessed red meat were associated with shorter survival only when accompanied by a high intake of processed red meat. CONCLUSIONS We found that high total red meat consumption was associated with progressively shorter survival, largely because of the consumption of processed red meat. Consumption of nonprocessed red meat alone was not associated with shorter survival.

[1]  Matteo Bottai,et al.  A Command for Laplace Regression , 2013 .

[2]  S. Rohrmann,et al.  Meat consumption and diet quality and mortality in NHANES III , 2013, European Journal of Clinical Nutrition.

[3]  F. Clavel-Chapelon,et al.  Meat consumption and mortality - results from the European Prospective Investigation into Cancer and Nutrition , 2013, BMC Medicine.

[4]  X. Shu,et al.  Red Meat and Poultry Intakes and Risk of Total and Cause-Specific Mortality: Results from Cohort Studies of Chinese Adults in Shanghai , 2013, PloS one.

[5]  J. Sundström,et al.  A proposal for an additional clinical trial outcome measure assessing preventive effect as delay of events , 2012, European Journal of Epidemiology.

[6]  S. Larsson,et al.  Red Meat Consumption and Risk of Stroke: A Meta-Analysis of Prospective Studies , 2012, Stroke.

[7]  D. Mozaffarian,et al.  Unprocessed Red and Processed Meats and Risk of Coronary Artery Disease and Type 2 Diabetes – An Updated Review of the Evidence , 2012, Current Atherosclerosis Reports.

[8]  A. Wolk,et al.  Evaluating percentiles of survival. , 2012, Epidemiology.

[9]  An Pan,et al.  Red meat consumption and mortality: results from 2 prospective cohort studies. , 2012, Archives of internal medicine.

[10]  R. Lau,et al.  Red and Processed Meat and Colorectal Cancer Incidence: Meta-Analysis of Prospective Studies , 2011, PloS one.

[11]  Sander Greenland,et al.  A Procedure to Tabulate and Plot Results after Flexible Modeling of a Quantitative Covariate , 2011 .

[12]  F. Pierre,et al.  Heme Iron from Meat and Risk of Colorectal Cancer: A Meta-analysis and a Review of the Mechanisms Involved , 2011, Cancer Prevention Research.

[13]  Matteo Bottai,et al.  Laplace regression with censored data , 2010, Biometrical journal. Biometrische Zeitschrift.

[14]  R. Sinha,et al.  A large prospective study of meat consumption and colorectal cancer risk: an investigation of potential mechanisms underlying this association. , 2010, Cancer research.

[15]  W. Zheng,et al.  Well-Done Meat Intake, Heterocyclic Amine Exposure, and Cancer Risk , 2009, Nutrition and cancer.

[16]  J. Ludvigsson,et al.  The Swedish personal identity number: possibilities and pitfalls in healthcare and medical research , 2009, European Journal of Epidemiology.

[17]  R. Sinha,et al.  Meat intake and mortality: a prospective study of over half a million people. , 2009, Archives of internal medicine.

[18]  R. Sinha,et al.  Processed meat intake, CYP2A6 activity and risk of colorectal adenoma. , 2007, Carcinogenesis.

[19]  Alicja Wolk,et al.  Meat consumption and risk of colorectal cancer: A meta‐analysis of prospective studies , 2006, International journal of cancer.

[20]  S. Larsson,et al.  Processed meat consumption and stomach cancer risk: a meta-analysis. , 2006, Journal of the National Cancer Institute.

[21]  R. Sinha,et al.  Meat, meat cooking methods and preservation, and risk for colorectal adenoma. , 2005, Cancer research.

[22]  Kelly H. Jordan,et al.  An increase in dietary protein improves the blood glucose response in persons with type 2 diabetes. , 2003, The American journal of clinical nutrition.

[23]  P. Royston,et al.  Flexible parametric proportional‐hazards and proportional‐odds models for censored survival data, with application to prognostic modelling and estimation of treatment effects , 2002, Statistics in medicine.

[24]  J. Turgeon,et al.  Effect of a low-glycaemic index–low-fat–high protein diet on the atherogenic metabolic risk profile of abdominally obese men , 2001, British Journal of Nutrition.

[25]  L. Piché,et al.  Replacement of carbohydrate by protein in a conventional-fat diet reduces cholesterol and triglyceride concentrations in healthy normolipidemic subjects. , 1999, Clinical and investigative medicine. Medecine clinique et experimentale.

[26]  Wolfe Bm Potential role of raising dietary protein intake for reducing risk of atherosclerosis. , 1995 .

[27]  S. Larsson,et al.  Systematic Reviews and Meta- and Pooled Analyses Red Meat and Processed Meat Consumption and All-Cause Mortality: A Meta-Analysis , 2014 .

[28]  M. Roizen Red meat consumption and risk of type 2 diabetes: 3 cohorts of US adults and an updated meta-analysis , 2012 .

[29]  Miguel A Hernán,et al.  The hazards of hazard ratios. , 2010, Epidemiology.

[30]  D. Gyrd-Hansen,et al.  Bmc Medical Informatics and Decision Making Can Postponement of an Adverse Outcome Be Used to Present Risk Reductions to a Lay Audience? a Population Survey , 2007 .

[31]  廣畑 富雄,et al.  Food, Nutrition, Physical Activity, and the Prevention of Cancer: a Global Perspective , 2007 .

[32]  B. Wolfe Potential role of raising dietary protein intake for reducing risk of atherosclerosis. , 1995, The Canadian journal of cardiology.

[33]  Lee-Jen Wei,et al.  The accelerated failure time model: a useful alternative to the Cox regression model in survival analysis. , 1992, Statistics in medicine.