The 2015 Dutch food-based dietary guidelines (original) (raw)
Voedingsraad. Advies Richtlijnen goede voeding. Den Haag. 1986.
Health Council of the Netherlands. Guidelines for a Healthy Diet 2006. Publication no. 2006/21E. The Hague, 2006.
Mozaffarian D, Ludwig DS . Dietary guidelines in the 21st century—a time for food. JAMA 2010; 304: 681–682. ArticleCASPubMed Google Scholar
Health Council of the Netherlands. Background Document Methodology for the Evaluation of the Evidence for the Dutch Dietary Guidelines 2015. Publication no. A15/03E. The Hague, 2015.
Grobbee DE, Hoes AW . Clinical Epidemiology Principles, Methods, and Applications for Clinical Research. Jones and Bartlett Publ, Inc., 2007. Google Scholar
Cooper AJ, Forouhi NG, Ye Z, Buijsse B, Arriola L, Balkau B et al. Fruit and vegetable intake and type 2 diabetes: EPIC-InterAct prospective study and meta-analysis. Eur J Clin Nutr 2012; 66: 1082–1092. ArticleCASPubMedPubMed Central Google Scholar
Broekmans WM, Klopping-Ketelaars WA, Kluft C, van den Berg H, Kok FJ, van Poppel G . Fruit and vegetables and cardiovascular risk profile: a diet controlled intervention study. Eur J Clin Nutr 2001; 55: 636–642. ArticleCASPubMed Google Scholar
Berry SE, Mulla UZ, Chowienczyk PJ, Sanders TA . Increased potassium intake from fruit and vegetables or supplements does not lower blood pressure or improve vascular function in UK men and women with early hypertension: a randomised controlled trial. Br J Nutr 2010; 104: 1839–1847. ArticleCASPubMed Google Scholar
Appel LJ, Moore TJ, Obarzanek E, Vollmer WM, Svetkey LP, Sacks FM et al. A clinical trial of the effects of dietary patterns on blood pressure. DASH Collaborative Research Group. N Engl J Med 1997; 336: 1117–1124. ArticleCASPubMed Google Scholar
John JH, Ziebland S, Yudkin P, Roe LS, Neil HA . Effects of fruit and vegetable consumption on plasma antioxidant concentrations and blood pressure: a randomised controlled trial. Lancet 2002; 359: 1969–1974. ArticleCASPubMed Google Scholar
McCall DO, McGartland CP, McKinley MC, Patterson CC, Sharpe P, McCance DR et al. Dietary intake of fruits and vegetables improves microvascular function in hypertensive subjects in a dose-dependent manner. Circulation 2009; 119: 2153–2160. ArticleCASPubMed Google Scholar
Smith-Warner SA, Elmer PJ, Tharp TM, Fosdick L, Randall B, Gross M et al. Increasing vegetable and fruit intake: randomized intervention and monitoring in an at-risk population. Cancer Epidemiol Biomarkers Prev 2000; 9: 307–317. CASPubMed Google Scholar
He FJ, Nowson CA, Lucas M, Macgregor GA . Increased consumption of fruit and vegetables is related to a reduced risk of coronary heart disease: meta-analysis of cohort studies. J Hum Hypertens 2007; 21: 717–728. ArticleCASPubMed Google Scholar
Dauchet L, Amouyel P, Hercberg S, Dallongeville J . Fruit and vegetable consumption and risk of coronary heart disease: a meta-analysis of cohort studies. J Nutr 2006; 136: 2588–2593. ArticleCASPubMed Google Scholar
Crowe FL, Roddam AW, Key TJ, Appleby PN, Overvad K, Jakobsen MU et al. Fruit and vegetable intake and mortality from ischaemic heart disease: results from the European Prospective Investigation into Cancer and Nutrition (EPIC)-Heart study. Eur Heart J 2011; 32: 1235–1243. ArticleCASPubMedPubMed Central Google Scholar
Hu D, Huang J, Wang Y, Zhang D, Qu Y . Fruits and vegetables consumption and risk of stroke: a meta-analysis of prospective cohort studies. Stroke 2014; 45: 1613–1619. ArticleCASPubMed Google Scholar
Brown L, Rosner B, Willett WW, Sacks FM . Cholesterol-lowering effects of dietary fiber: a meta-analysis. Am J Clin Nutr 1999; 69: 30–42. ArticleCASPubMed Google Scholar
Muraki I, Imamura F, Manson JE, Hu FB, Willett WC, van Dam RM et al. Fruit consumption and risk of type 2 diabetes: results from three prospective longitudinal cohort studies. BMJ 2013; 347: f5001. ArticlePubMedPubMed Central Google Scholar
Aune D, Lau R, Chan DS, Vieira R, Greenwood DC, Kampman E et al. Nonlinear reduction in risk for colorectal cancer by fruit and vegetable intake based on meta-analysis of prospective studies. Gastroenterology 2011; 141: 106–118. ArticlePubMed Google Scholar
World Cancer Research Fund/American Institute for Cancer Research. Food, Nutrition, Physical Activity, and the Prevention of Cancer: a Global Perspective. Washington, DC, 2007.
Buchner FL, Bueno-de-Mesquita HB, Linseisen J, Boshuizen HC, Kiemeney LA, Ros MM et al. Fruits and vegetables consumption and the risk of histological subtypes of lung cancer in the European Prospective Investigation into Cancer and Nutrition (EPIC). Cancer Causes Control 2010; 21: 357–371. ArticleCASPubMed Google Scholar
Wakai K, Matsuo K, Nagata C, Mizoue T, Tanaka K, Tsuji I et al. Lung cancer risk and consumption of vegetables and fruit: an evaluation based on a systematic review of epidemiological evidence from Japan. Jpn J Clin Oncol 2011; 41: 693–708. ArticlePubMed Google Scholar
Rohrmann S, Overvad K, Bueno-de-Mesquita HB, Jakobsen MU, Egeberg R, Tjonneland A et al. Meat consumption and mortality - results from the European Prospective Investigation into Cancer and Nutrition. BMC Med 2013; 11: 63. ArticlePubMedPubMed Central Google Scholar
Kaluza J, Wolk A, Larsson SC . Red meat consumption and risk of stroke: a meta-analysis of prospective studies. Stroke 2012; 43: 2556–2560. ArticleCASPubMed Google Scholar
Chen GC, Lv DB, Pang Z, Liu QF . Red and processed meat consumption and risk of stroke: a meta-analysis of prospective cohort studies. Eur J Clin Nutr 2013; 67: 91–95. ArticlePubMed Google Scholar
Micha R, Wallace SK, Mozaffarian D . Red and processed meat consumption and risk of incident coronary heart disease, stroke, and diabetes mellitus: a systematic review and meta-analysis. Circulation 2010; 121: 2271–2283. ArticlePubMedPubMed Central Google Scholar
Aune D, Ursin G, Veierod MB . Meat consumption and the risk of type 2 diabetes: a systematic review and meta-analysis of cohort studies. Diabetologia 2009; 52: 2277–2287. ArticleCASPubMed Google Scholar
Pan A, Sun Q, Bernstein AM, Schulze MB, Manson JE, Willett WC et al. Red meat consumption and risk of type 2 diabetes: 3 cohorts of US adults and an updated meta-analysis. Am J Clin Nutr 2011; 94: 1088–1096. ArticleCASPubMedPubMed Central Google Scholar
Feskens EJ, Sluik D, van Woudenbergh GJ . Meat consumption, diabetes, and its complications. Curr Diab Rep 2013; 13: 298–306. ArticleCASPubMed Google Scholar
Chan DS, Lau R, Aune D, Vieira R, Greenwood DC, Kampman E et al. Red and processed meat and colorectal cancer incidence: meta-analysis of prospective studies. PLoS One 2011; 6: e20456. ArticleCASPubMedPubMed Central Google Scholar
Norat T, Chan DS, Lau R, Aune D, Vieira R . WCRF/AIRC Systematic literature review continuous update project report. The associations between food, nutrition, physical activity and risk of colorectal cancer 2010, Available from http://www.wcrf.org/sites/default/files/SLR_colorectal_cancer_2010.pdf.
Huxley RR, Ansary-Moghaddam A, Clifton P, Czernichow S, Parr CL, Woodward M . The impact of dietary and lifestyle risk factors on risk of colorectal cancer: a quantitative overview of the epidemiological evidence. Int J Cancer 2009; 125: 171–180. ArticleCASPubMed Google Scholar
Alexander DD, Weed DL, Cushing CA, Lowe KA . Meta-analysis of prospective studies of red meat consumption and colorectal cancer. Eur J Cancer Prev 2011; 20: 293–307. ArticleCASPubMed Google Scholar
Alexander DD, Miller AJ, Cushing CA, Lowe KA . Processed meat and colorectal cancer: a quantitative review of prospective epidemiologic studies. Eur J Cancer Prev 2010; 19: 328–341. ArticlePubMed Google Scholar
Spencer EA, Key TJ, Appleby PN, Dahm CC, Keogh RH, Fentiman IS et al. Meat, poultry and fish and risk of colorectal cancer: pooled analysis of data from the UK dietary cohort consortium. Cancer Causes Control 2010; 21: 1417–1425. ArticlePubMed Google Scholar
Yang WS, Wong MY, Vogtmann E, Tang RQ, Xie L, Yang YS et al. Meat consumption and risk of lung cancer: evidence from observational studies. Ann Oncol 2012; 23: 3163–3170. ArticleCASPubMedPubMed Central Google Scholar
Xue XJ, Gao Q, Qiao JH, Zhang J, Xu CP, Liu J . Red and processed meat consumption and the risk of lung cancer: a dose-response meta-analysis of 33 published studies. Int J Clin Exp Med 2014; 7: 1542–1553. PubMedPubMed Central Google Scholar
Abete I, Romaguera D, Vieira AR, Lopez de MA, Norat T . Association between total, processed, red and white meat consumption and all-cause, CVD and IHD mortality: a meta-analysis of cohort studies. Br J Nutr 2014; 112: 762–775. ArticleCASPubMed Google Scholar
Missmer SA, Smith-Warner SA, Spiegelman D, Yaun SS, Adami HO, Beeson WL et al. Meat and dairy food consumption and breast cancer: a pooled analysis of cohort studies. Int J Epidemiol 2002; 31: 78–85. ArticlePubMed Google Scholar
Aune D, Lau R, Chan DS, Vieira R, Greenwood DC, Kampman E et al. Dairy products and colorectal cancer risk: a systematic review and meta-analysis of cohort studies. Ann Oncol 2012; 23: 37–45. ArticleCASPubMed Google Scholar
Ralston RA, Truby H, Palermo CE, Walker KZ . Colorectal cancer and nonfermented milk, solid cheese, and fermented milk consumption: a systematic review and meta-analysis of prospective studies. Crit Rev Food Sci Nutr 2014; 54: 1167–1179. ArticleCASPubMed Google Scholar
Chen M, Sun Q, Giovannucci E, Mozaffarian D, Manson JE, Willett WC et al. Dairy consumption and risk of type 2 diabetes: 3 cohorts of US adults and an updated meta-analysis. BMC Med 2014; 12: 215. ArticlePubMedPubMed Central Google Scholar
Keum N, Aune D, Greenwood DC, Ju W, Giovannucci EL . Calcium intake and colorectal cancer risk: dose-response meta-analysis of prospective observational studies. Int J Cancer 2014; 135: 1940–1948. ArticleCASPubMed Google Scholar
Huncharek M, Muscat J, Kupelnick B . Colorectal cancer risk and dietary intake of calcium, vitamin D, and dairy products: a meta-analysis of 26,335 cases from 60 observational studies. Nutr Cancer 2009; 61: 47–69. ArticleCASPubMed Google Scholar
Rossum CTM, van, Fransen HP, Verkaik-Kloosterman J, Buurma-Rethans EJM, Ocké MC . Dutch National Food Consumption Survey 2007-2010. Diet of children and adults aged 7 to 69 years. Report no.: 350050006/2011. Bilthoven, 2011.
Weggemans RM, Zock PL, Katan MB . Dietary cholesterol from eggs increases the ratio of total cholesterol to high-density lipoprotein cholesterol in humans: a meta-analysis. Am J Clin Nutr 2001; 73: 885–891. ArticleCASPubMed Google Scholar
Berger S, Raman G, Vishwanathan R, Jacques PF, Johnson EJ . Dietary cholesterol and cardiovascular disease: a systematic review and meta-analysis. Am J Clin Nutr 2015; 102: 276–294. ArticleCASPubMed Google Scholar
Rong Y, Chen L, Zhu T, Song Y, Yu M, Shan Z et al. Egg consumption and risk of coronary heart disease and stroke: dose-response meta-analysis of prospective cohort studies. BMJ 2013; 346: e8539. ArticlePubMedPubMed Central Google Scholar
Shin JY, Xun P, Nakamura Y, He K . Egg consumption in relation to risk of cardiovascular disease and diabetes: a systematic review and meta-analysis. Am J Clin Nutr 2013; 98: 146–159. ArticleCASPubMedPubMed Central Google Scholar
Ha V, Sievenpiper JL, de Souza RJ, Jayalath VH, Mirrahimi A, Agarwal A et al. Effect of dietary pulse intake on established therapeutic lipid targets for cardiovascular risk reduction: a systematic review and meta-analysis of randomized controlled trials. CMAJ 2014; 186: E252–E262. ArticlePubMedPubMed Central Google Scholar
Afshin A, Micha R, Khatibzadeh S, Mozaffarian D . Consumption of nuts and legumes and risk of incident ischemic heart disease, stroke, and diabetes: a systematic review and meta-analysis. Am J Clin Nutr 2014; 100: 278–288. ArticleCASPubMedPubMed Central Google Scholar
Banel DK, Hu FB . Effects of walnut consumption on blood lipids and other cardiovascular risk factors: a meta-analysis and systematic review. Am J Clin Nutr 2009; 90: 56–63. ArticleCASPubMedPubMed Central Google Scholar
Pan A, Yu D, mark-Wahnefried W, Franco OH, Lin X . Meta-analysis of the effects of flaxseed interventions on blood lipids. Am J Clin Nutr 2009; 90: 288–297. ArticleCASPubMedPubMed Central Google Scholar
Sabate J, Oda K, Ros E . Nut consumption and blood lipid levels: a pooled analysis of 25 intervention trials. Arch Intern Med 2010; 170: 821–827. ArticlePubMed Google Scholar
Luo C, Zhang Y, Ding Y, Shan Z, Chen S, Yu M et al. Nut consumption and risk of type 2 diabetes, cardiovascular disease, and all-cause mortality: a systematic review and meta-analysis. Am J Clin Nutr 2014; 100: 256–269. ArticleCASPubMed Google Scholar
Estruch R, Ros E, Salas-Salvado J, Covas MI, Corella D, Aros F et al. Primary prevention of cardiovascular disease with a Mediterranean diet. N Engl J Med 2013; 368: 1279–1290. ArticleCASPubMed Google Scholar
Cho SS, Qi L, Fahey GC Jr, Klurfeld DM . Consumption of cereal fiber, mixtures of whole grains and bran, and whole grains and risk reduction in type 2 diabetes, obesity, and cardiovascular disease. Am J Clin Nutr 2013; 98: 594–619. ArticleCASPubMed Google Scholar
Djousse L, Gaziano JM . Breakfast cereals and risk of heart failure in the physicians' health study I. Arch Intern Med 2007; 167: 2080–2085. ArticlePubMed Google Scholar
Jacobs DR Jr, Meyer KA, Kushi LH, Folsom AR . Is whole grain intake associated with reduced total and cause-specific death rates in older women? The Iowa Women's Health Study. Am J Public Health 1999; 89: 322–329. ArticlePubMedPubMed Central Google Scholar
Nettleton JA, Steffen LM, Loehr LR, Rosamond WD, Folsom AR . Incident heart failure is associated with lower whole-grain intake and greater high-fat dairy and egg intake in the Atherosclerosis Risk in Communities (ARIC) study. J Am Diet Assoc 2008; 108: 1881–1887. ArticlePubMedPubMed Central Google Scholar
Streppel MT, Arends LR, van t V, Grobbee DE, Geleijnse JM . Dietary fiber and blood pressure: a meta-analysis of randomized placebo-controlled trials. Arch Intern Med 2005; 165: 150–156. ArticlePubMed Google Scholar
Whelton SP, Hyre AD, Pedersen B, Yi Y, Whelton PK, He J . Effect of dietary fiber intake on blood pressure: a meta-analysis of randomized, controlled clinical trials. J Hypertens 2005; 23: 475–481. ArticleCASPubMed Google Scholar
Threapleton DE, Greenwood DC, Evans CE, Cleghorn CL, Nykjaer C, Woodhead C et al. Dietary fibre intake and risk of cardiovascular disease: systematic review and meta-analysis. BMJ 2013; 347: f6879. ArticlePubMedPubMed Central Google Scholar
Zhang Z, Xu G, Liu D, Zhu W, Fan X, Liu X . Dietary fiber consumption and risk of stroke. Eur J Epidemiol 2013; 28: 119–130. ArticlePubMedCAS Google Scholar
Bazzano LA, He J, Ogden LG, Loria CM, Whelton PK . Dietary fiber intake and reduced risk of coronary heart disease in US men and women: the National Health and Nutrition Examination Survey I Epidemiologic Follow-up Study. Arch Intern Med 2003; 163: 1897–1904. ArticlePubMed Google Scholar
Kelly SA, Summerbell CD, Brynes A, Whittaker V, Frost G Wholegrain cereals for coronary heart disease. Cochrane Database Syst Rev 2007; (2)Art. no. CD005051.
AbuMweis SS, Jew S, Ames NP . beta-glucan from barley and its lipid-lowering capacity: a meta-analysis of randomized, controlled trials. Eur J Clin Nutr 2010; 64: 1472–1480. ArticleCASPubMed Google Scholar
EFSA Panel on Dietetic Products, Nutrition and Allergies (NDA).. Scientific opinion on the substantiation of a health claim related to oat beta-glucans and lowering of blood cholesterol and reduced risk of (coronary) heart disease pursuant to Article 14 of Regulation (EC) No 1924/2006. EFSA J 2010; 8: 1885. Google Scholar
Talati R, Baker WL, Pabilonia MS, White CM, Coleman CI . The effects of barley-derived soluble fiber on serum lipids. Ann Fam Med 2009; 7: 157–163. ArticlePubMedPubMed Central Google Scholar
Anderson JW, Hanna TJ, Peng X, Kryscio RJ . Whole grain foods and heart disease risk. J Am Coll Nutr 2000; 19: 291S–299S. ArticleCASPubMed Google Scholar
Jensen MK, Koh-Banerjee P, Hu FB, Franz M, Sampson L, Gronbaek M et al. Intakes of whole grains, bran, and germ and the risk of coronary heart disease in men. Am J Clin Nutr 2004; 80: 1492–1499. ArticleCASPubMed Google Scholar
Liu S, Sesso HD, Manson JE, Willett WC, Buring JE . Is intake of breakfast cereals related to total and cause-specific mortality in men? Am J Clin Nutr 2003; 77: 594–599. ArticleCASPubMed Google Scholar
Steffen LM, Jacobs DR Jr, Stevens J, Shahar E, Carithers T, Folsom AR . Associations of whole-grain, refined-grain, and fruit and vegetable consumption with risks of all-cause mortality and incident coronary artery disease and ischemic stroke: the Atherosclerosis Risk in Communities (ARIC) Study. Am J Clin Nutr 2003; 78: 383–390. ArticleCASPubMed Google Scholar
Ye EQ, Chacko SA, Chou EL, Kugizaki M, Liu S . Greater whole-grain intake is associated with lower risk of type 2 diabetes, cardiovascular disease, and weight gain. J Nutr 2012; 142: 1304–1313. ArticleCASPubMedPubMed Central Google Scholar
Yao B, Fang H, Xu W, Yan Y, Xu H, Liu Y et al. Dietary fiber intake and risk of type 2 diabetes: a dose-response analysis of prospective studies. Eur J Epidemiol 2014; 29: 79–88. ArticleCASPubMed Google Scholar
Aune D, Norat T, Romundstad P, Vatten LJ . Whole grain and refined grain consumption and the risk of type 2 diabetes: a systematic review and dose-response meta-analysis of cohort studies. Eur J Epidemiol 2013; 28: 845–858. ArticleCASPubMed Google Scholar
Aune D, Chan DS, Lau R, Vieira R, Greenwood DC, Kampman E et al. Dietary fibre, whole grains, and risk of colorectal cancer: systematic review and dose-response meta-analysis of prospective studies. BMJ 2011; 343: d6617. ArticlePubMedPubMed Central Google Scholar
Kyro C, Skeie G, Loft S, Landberg R, Christensen J, Lund E et al. Intake of whole grains from different cereal and food sources and incidence of colorectal cancer in the Scandinavian HELGA cohort. Cancer Causes Control 2013; 24: 1363–1374. ArticlePubMed Google Scholar
Hansen L, Skeie G, Landberg R, Lund E, Palmqvist R, Johansson I et al. Intake of dietary fiber, especially from cereal foods, is associated with lower incidence of colon cancer in the HELGA cohort. Int J Cancer 2012; 131: 469–478. ArticleCASPubMed Google Scholar
Murphy N, Norat T, Ferrari P, Jenab M, Bueno-de-Mesquita B, Skeie G et al. Dietary fibre intake and risks of cancers of the colon and rectum in the European prospective investigation into cancer and nutrition (EPIC). PLoS One 2012; 7: e39361. ArticleCASPubMedPubMed Central Google Scholar
Zock PL, Katan MB . Butter, margarine and serum lipoproteins. Atherosclerosis 1997; 131: 7–16. ArticleCASPubMed Google Scholar
Mensink RP, Zock PL, Kester AD, Katan MB . Effects of dietary fatty acids and carbohydrates on the ratio of serum total to HDL cholesterol and on serum lipids and apolipoproteins: a meta-analysis of 60 controlled trials. Am J Clin Nutr 2003; 77: 1146–1155. ArticleCASPubMed Google Scholar
Skeaff CM, Miller J . Dietary fat and coronary heart disease: summary of evidence from prospective cohort and randomised controlled trials. Ann Nutr Metab 2009; 55: 173–201. ArticleCASPubMed Google Scholar
Mozaffarian D, Micha R, Wallace S . Effects on coronary heart disease of increasing polyunsaturated fat in place of saturated fat: a systematic review and meta-analysis of randomized controlled trials. PLoS Med 2010; 7: e1000252. ArticlePubMedPubMed CentralCAS Google Scholar
Hooper L, Summerbell CD, Thompson R, Sills D, Roberts FG, Moore H _et al_Reduced or modified dietary fat for preventing cardiovascular disease. Cochrane Database Syst Rev 2012; (5)Art. no. CD002137.
Ramsden CE, Zamora D, Leelarthaepin B, Majchrzak-Hong SF, Faurot KR, Suchindran CM et al. Use of dietary linoleic acid for secondary prevention of coronary heart disease and death: evaluation of recovered data from the Sydney Diet Heart Study and updated meta-analysis. BMJ 2013; 346: e8707. ArticlePubMedPubMed CentralCAS Google Scholar
Chowdhury R, Warnakula S, Kunutsor S, Crowe F, Ward HA, Johnson L et al. Association of dietary, circulating, and supplement fatty acids with coronary risk: a systematic review and meta-analysis. Ann Intern Med 2014; 160: 398–406. ArticlePubMed Google Scholar
Farvid MS, Cho E, Chen WY, Eliassen AH, Willett WC . Dietary protein sources in early adulthood and breast cancer incidence: prospective cohort study. BMJ 2014; 348: g3437. ArticlePubMedPubMed CentralCAS Google Scholar
Mozaffarian D, Aro A, Willett WC . Health effects of trans-fatty acids: experimental and observational evidence. Eur J Clin Nutr 2009; 63 (Suppl 2), S5–S21. ArticleCASPubMed Google Scholar
Bendsen NT, Christensen R, Bartels EM, Astrup A . Consumption of industrial and ruminant trans fatty acids and risk of coronary heart disease: a systematic review and meta-analysis of cohort studies. Eur J Clin Nutr 2011; 65: 773–783. ArticleCASPubMed Google Scholar
Leon H, Shibata MC, Sivakumaran S, Dorgan M, Chatterley T, Tsuyuki RT . Effect of fish oil on arrhythmias and mortality: systematic review. BMJ 2008; 337: a2931. ArticlePubMedPubMed Central Google Scholar
Delgado-Lista J, Perez-Martinez P, Lopez-Miranda J, Perez-Jimenez F . Long chain omega-3 fatty acids and cardiovascular disease: a systematic review. Br J Nutr 2012; 107 (Suppl 2), S201–S213. ArticleCASPubMed Google Scholar
Trikalinos TA, Moorthy D, Yu WW, Lau J, Lichtenstein AH, Chung M . Nutritional Research Series. Volume 4: Effects of Eicosapentanoic Acid and Docosahexanoic Acid on Mortality across Diverse Settings: Systematic Review and Meta-analysis of Randomized Trials and Prospective Cohorts. Agency for Health Care Research and Quality: Rockville, MD, USA, 2012. Google Scholar
Kwak SM, Myung SK, Lee YJ, Seo HG . Efficacy of omega-3 fatty acid supplements (eicosapentaenoic acid and docosahexaenoic acid) in the secondary prevention of cardiovascular disease: a meta-analysis of randomized, double-blind, placebo-controlled trials. Arch Intern Med 2012; 172: 686–694. ArticleCASPubMed Google Scholar
Rizos EC, Ntzani EE, Bika E, Kostapanos MS, Elisaf MS . Association between omega-3 fatty acid supplementation and risk of major cardiovascular disease events: a systematic review and meta-analysis. JAMA 2012; 308: 1024–1033. ArticleCASPubMed Google Scholar
Wen YT, Dai JH, Gao Q . Effects of Omega-3 fatty acid on major cardiovascular events and mortality in patients with coronary heart disease: a meta-analysis of randomized controlled trials. Nutr Metab Cardiovasc Dis 2014; 24: 470–475. ArticleCASPubMed Google Scholar
Zheng J, Huang T, Yu Y, Hu X, Yang B, Li D . Fish consumption and CHD mortality: an updated meta-analysis of seventeen cohort studies. Public Health Nutr 2012; 15: 725–737. ArticlePubMed Google Scholar
Engeset D, Braaten T, Teucher B, Kuhn T, Bueno-de-Mesquita HB, Leenders M et al. Fish consumption and mortality in the European Prospective Investigation into Cancer and Nutrition cohort. Eur J Epidemiol 2015; 30: 57–70. ArticleCASPubMed Google Scholar
Burr ML, Fehily AM, Gilbert JF, Rogers S, Holliday RM, Sweetnam PM et al. Effects of changes in fat, fish, and fibre intakes on death and myocardial reinfarction: diet and reinfarction trial (DART). Lancet 1989; 2: 757–761. ArticleCASPubMed Google Scholar
Larsson SC, Orsini N . Fish consumption and the risk of stroke: a dose-response meta-analysis. Stroke 2011; 42: 3621–3623. ArticlePubMed Google Scholar
Xun P, Qin B, Song Y, Nakamura Y, Kurth T, Yaemsiri S et al. Fish consumption and risk of stroke and its subtypes: accumulative evidence from a meta-analysis of prospective cohort studies. Eur J Clin Nutr 2012; 66: 1199–1207. ArticleCASPubMedPubMed Central Google Scholar
Chowdhury R, Stevens S, Gorman D, Pan A, Warnakula S, Chowdhury S et al. Association between fish consumption, long chain omega 3 fatty acids, and risk of cerebrovascular disease: systematic review and meta-analysis. BMJ 2012; 345: e6698. ArticlePubMedPubMed CentralCAS Google Scholar
EFSA Scientific Committee. Statement on the benefits of fish/seafood consumption compared to the risks of methylmercury in fish/seafood. EFSA J 2015; 13: 3982. ArticleCAS Google Scholar
Khalesi S, Sun J, Buys N, Jamshidi A, Nikbakht-Nasrabadi E, Khosravi-Boroujeni H . Green tea catechins and blood pressure: a systematic review and meta-analysis of randomised controlled trials. Eur J Nutr 2014; 53: 1299–1311. ArticleCASPubMed Google Scholar
Onakpoya I, Spencer E, Heneghan C, Thompson M . The effect of green tea on blood pressure and lipid profile: a systematic review and meta-analysis of randomized clinical trials. Nutr Metab Cardiovasc Dis 2014; 24: 823–836. ArticleCASPubMed Google Scholar
Greyling A, Ras RT, Zock PL, Lorenz M, Hopman MT, Thijssen DH et al. The effect of black tea on blood pressure: a systematic review with meta-analysis of randomized controlled trials. PLoS One 2014; 9: e103247. ArticlePubMedPubMed CentralCAS Google Scholar
Shen L, Song LG, Ma H, Jin CN, Wang JA, Xiang MX . Tea consumption and risk of stroke: a dose-response meta-analysis of prospective studies. J Zhejiang Univ Sci B 2012; 13: 652–662. ArticlePubMedPubMed Central Google Scholar
Yang WS, Wang WY, Fan WY, Deng Q, Wang X . Tea consumption and risk of type 2 diabetes: a dose-response meta-analysis of cohort studies. Br J Nutr 2014; 111: 1329–1339. ArticleCASPubMed Google Scholar
Voorlichtingsbureau voor Koffie en Gezondheid. Koffie, hart en bloedvaten, Amsterdam, 2007.
Cai L, Ma D, Zhang Y, Liu Z, Wang P . The effect of coffee consumption on serum lipids: a meta-analysis of randomized controlled trials. Eur J Clin Nutr 2012; 66: 872–877. ArticleCASPubMed Google Scholar
Ding M, Bhupathiraju SN, Satija A, van Dam RM, Hu FB . Long-term coffee consumption and risk of cardiovascular disease: a systematic review and a dose-response meta-analysis of prospective cohort studies. Circulation 2014; 129: 643–659. ArticleCASPubMed Google Scholar
Malik VS, Pan A, Willett WC, Hu FB . Sugar-sweetened beverages and weight gain in children and adults: a systematic review and meta-analysis. Am J Clin Nutr 2013; 98: 1084–1102. ArticleCASPubMedPubMed Central Google Scholar
Greenwood DC, Threapleton DE, Evans CE, Cleghorn CL, Nykjaer C, Woodhead C et al. Association between sugar-sweetened and artificially sweetened soft drinks and type 2 diabetes: systematic review and dose-response meta-analysis of prospective studies. Br J Nutr 2014; 112: 725–734. ArticleCASPubMed Google Scholar
Xi B, Li S, Liu Z, Tian H, Yin X, Huai P et al. Intake of fruit juice and incidence of type 2 diabetes: a systematic review and meta-analysis. PLoS One 2014; 9: e93471. ArticlePubMedPubMed CentralCAS Google Scholar
Xin X, He J, Frontini MG, Ogden LG, Motsamai OI, Whelton PK . Effects of alcohol reduction on blood pressure: a meta-analysis of randomized controlled trials. Hypertension 2001; 38: 1112–1117. ArticleCASPubMed Google Scholar
Ronksley PE, Brien SE, Turner BJ, Mukamal KJ, Ghali WA . Association of alcohol consumption with selected cardiovascular disease outcomes: a systematic review and meta-analysis. BMJ 2011; 342: d671. ArticlePubMedPubMed Central Google Scholar
Roerecke M, Rehm J . Irregular heavy drinking occasions and risk of ischemic heart disease: a systematic review and meta-analysis. Am J Epidemiol 2010; 171: 633–644. ArticlePubMed Google Scholar
Hamajima N, Hirose K, Tajima K, Rohan T, Calle EE, Heath CW Jr et al. Alcohol, tobacco and breast cancer—collaborative reanalysis of individual data from 53 epidemiological studies, including 58,515 women with breast cancer and 95,067 women without the disease. Br J Cancer 2002; 87: 1234–1245. ArticleCASPubMed Google Scholar
Romieu I, Scoccianti C, Chajes V, de BJ, Biessy C, Dossus L et al. Alcohol intake and breast cancer in the European prospective investigation into cancer and nutrition. Int J Cancer 2015; 137: 1921–1930. ArticleCASPubMedPubMed Central Google Scholar
Seitz HK, Pelucchi C, Bagnardi V, La VC . Epidemiology and pathophysiology of alcohol and breast cancer: Update 2012. Alcohol Alcohol 2012; 47: 204–212. ArticlePubMed Google Scholar
Cho E, Smith-Warner SA, Ritz J, van den Brandt PA, Colditz GA, Folsom AR et al. Alcohol intake and colorectal cancer: a pooled analysis of 8 cohort studies. Ann Intern Med 2004; 140: 603–613. ArticlePubMed Google Scholar
Ferrari P, Jenab M, Norat T, Moskal A, Slimani N, Olsen A et al. Lifetime and baseline alcohol intake and risk of colon and rectal cancers in the European prospective investigation into cancer and nutrition (EPIC). Int J Cancer 2007; 121: 2065–2072. ArticleCASPubMed Google Scholar
Moskal A, Norat T, Ferrari P, Riboli E . Alcohol intake and colorectal cancer risk: a dose-response meta-analysis of published cohort studies. Int J Cancer 2007; 120: 664–671. ArticleCASPubMed Google Scholar
Chao C . Associations between beer, wine, and liquor consumption and lung cancer risk: a meta-analysis. Cancer Epidemiol Biomarkers Prev 2007; 16: 2436–2447. ArticleCASPubMed Google Scholar
Freudenheim JL, Ritz J, Smith-Warner SA, Albanes D, Bandera EV, van den Brandt PA et al. Alcohol consumption and risk of lung cancer: a pooled analysis of cohort studies. Am J Clin Nutr 2005; 82: 657–667. ArticleCASPubMed Google Scholar
Padilla H, Michael GJ, Djousse L . Alcohol consumption and risk of heart failure: a meta-analysis. Phys Sportsmed 2010; 38: 84–89. ArticlePubMed Google Scholar
Baliunas DO, Taylor BJ, Irving H, Roerecke M, Patra J, Mohapatra S et al. Alcohol as a risk factor for type 2 diabetes: a systematic review and meta-analysis. Diabetes Care 2009; 32: 2123–2132. ArticleCASPubMedPubMed Central Google Scholar
Beulens JW, van der Schouw YT, Bergmann MM, Rohrmann S, Schulze MB, Buijsse B et al. Alcohol consumption and risk of type 2 diabetes in European men and women: influence of beverage type and body size The EPIC-InterAct study. J Intern Med 2012; 272: 358–370. ArticleCASPubMed Google Scholar
Koppes LL, Dekker JM, Hendriks HF, Bouter LM, Heine RJ . Moderate alcohol consumption lowers the risk of type 2 diabetes: a meta-analysis of prospective observational studies. Diabetes Care 2005; 28: 719–725. ArticlePubMed Google Scholar
Anstey KJ, Mack HA, Cherbuin N . Alcohol consumption as a risk factor for dementia and cognitive decline: meta-analysis of prospective studies. Am J Geriatr Psychiatry 2009; 17: 542–555. ArticlePubMed Google Scholar
Ferrari P, Licaj I, Muller DC, Kragh AP, Johansson M, Boeing H et al. Lifetime alcohol use and overall and cause-specific mortality in the European Prospective Investigation into Cancer and nutrition (EPIC) study. BMJ Open 2014; 4: e005245. ArticlePubMedPubMed Central Google Scholar
DiCastelnuovo A, Costanzo S, Bagnardi V, Donati MB, Iacoviello L, de Gaetano G . Alcohol dosing and total mortality in men and women: an updated meta-analysis of 34 prospective studies. Arch Intern Med 2006; 166: 2437–2445. Article Google Scholar
Aburto NJ, Ziolkovska A, Hooper L, Elliott P, Cappuccio FP, Meerpohl JJ . Effect of lower sodium intake on health: systematic review and meta-analyses. BMJ 2013; 346: f1326. ArticlePubMedPubMed Central Google Scholar
Graudal NA, Hubeck-Graudal T, Jurgens G Effects of low-sodium diet vs. high-sodium diet on blood pressure, renin, aldosterone, catecholamines, cholesterol, and triglyceride. Cochrane Database Syst Rev 2011; (11)Art. no. CD004022.
He FJ, Li J, Macgregor GA . Effect of longer term modest salt reduction on blood pressure: Cochrane systematic review and meta-analysis of randomised trials. BMJ 2013; 346: 1–15. Article Google Scholar
Fortmann SP, Burda BU, Senger CA, Lin JS, Whitlock EP . Vitamin and mineral supplements in the primary prevention of cardiovascular disease and cancer: an updated systematic evidence review for the US Preventive Services Task Force. Ann Intern Med 2013; 159: 824–834. ArticlePubMed Google Scholar
The Alpha-Tocopherol Beta-Carotene Cancer Prevention Study Group. The effect of vitamin E and beta carotene on the incidence of lung cancer and other cancers in male smokers. N Engl J Med 1994; 330: 1029–1035. Article Google Scholar
Omenn GS, Goodman GE, Thornquist MD, Balmes J, Cullen MR, Glass A et al. Effects of a combination of beta carotene and vitamin A on lung cancer and cardiovascular disease. N Engl J Med 1996; 334: 1150–1155. ArticleCASPubMed Google Scholar
Bolland MJ, Grey A, Gamble GD, Reid IR . The effect of vitamin D supplementation on skeletal, vascular, or cancer outcomes: a trial sequential meta-analysis. Lancet Diabetes Endocrinol 2014; 2: 307–320. ArticleCASPubMed Google Scholar
Juraschek SP, Guallar E, Appel LJ, Miller ER III . Effects of vitamin C supplementation on blood pressure: a meta-analysis of randomized controlled trials. Am J Clin Nutr 2012; 95: 1079–1088. ArticleCASPubMedPubMed Central Google Scholar
Sesso HD, Buring JE, Christen WG, Kurth T, Belanger C, MacFadyen J et al. Vitamins E and C in the prevention of cardiovascular disease in men: the Physicians' Health Study II randomized controlled trial. JAMA 2008; 300: 2123–2133. ArticleCASPubMedPubMed Central Google Scholar
Nutrition Evidence Library A Series of Systematic Reviews on the Relationship Between Dietary Patterns and Health Outcomes. US Department of Agriculture: Washington, DC, USA, 2014.
Saneei P, Salehi-Abargouei A, Esmaillzadeh A, Azadbakht L . Influence of Dietary Approaches to Stop Hypertension (DASH) diet on blood pressure: a systematic review and meta-analysis on randomized controlled trials. Nutr Metab Cardiovasc Dis 2014; 24: 1253–1261. ArticleCASPubMed Google Scholar
Brader L, Uusitupa M, Dragsted LO, Hermansen K . Effects of an isocaloric healthy Nordic diet on ambulatory blood pressure in metabolic syndrome: a randomized SYSDIET sub-study. Eur J Clin Nutr 2014; 68: 57–63. ArticleCASPubMed Google Scholar
Poulsen SK, Due A, Jordy AB, Kiens B, Stark KD, Stender S et al. Health effect of the New Nordic Diet in adults with increased waist circumference: a 6-mo randomized controlled trial. Am J Clin Nutr 2014; 99: 35–45. ArticleCASPubMed Google Scholar
Adamsson V, Reumark A, Fredriksson IB, Hammarstrom E, Vessby B, Johansson G et al. Effects of a healthy Nordic diet on cardiovascular risk factors in hypercholesterolaemic subjects: a randomized controlled trial (NORDIET). J Intern Med 2011; 269: 150–159. ArticleCASPubMed Google Scholar
Salehi-Abargouei A, Maghsoudi Z, Shirani F, Azadbakht L . Effects of Dietary Approaches to Stop Hypertension (DASH)-style diet on fatal or nonfatal cardiovascular diseases—incidence: a systematic review and meta-analysis on observational prospective studies. Nutrition 2013; 29: 611–618. ArticlePubMed Google Scholar
Kontogianni MD, Panagiotakos DB . Dietary patterns and stroke: a systematic review and re-meta-analysis. Maturitas 2014; 79: 41–47. ArticlePubMed Google Scholar
Yokoyama Y, Nishimura K, Barnard ND, Takegami M, Watanabe M, Sekikawa A et al. Vegetarian diets and blood pressure: a meta-analysis. JAMA Intern Med 2014; 174: 577–587. ArticlePubMed Google Scholar
Huang T, Yang B, Zheng J, Li G, Wahlqvist ML, Li D . Cardiovascular disease mortality and cancer incidence in vegetarians: a meta-analysis and systematic review. Ann Nutr Metab 2012; 60: 233–240. ArticleCASPubMed Google Scholar
Key TJ, Fraser GE, Thorogood M, Appleby PN, Beral V, Reeves G et al. Mortality in vegetarians and nonvegetarians: detailed findings from a collaborative analysis of 5 prospective studies. Am J Clin Nutr 1999; 70: 516S–524S. ArticleCASPubMed Google Scholar
Esposito K, Chiodini P, Maiorino MI, Bellastella G, Panagiotakos D, Giugliano D . Which diet for prevention of type 2 diabetes? A meta-analysis of prospective studies. Endocrine 2014; 47: 107–116. ArticleCASPubMed Google Scholar
Romaguera D, Guevara M, Norat T, Langenberg C, Forouhi NG, Sharp S et al. Mediterranean diet and type 2 diabetes risk in the European Prospective Investigation into Cancer and Nutrition (EPIC) study: the InterAct project. Diabetes Care 2011; 34: 1913–1918. ArticleCASPubMed Google Scholar
InterAct Consortium. Adherence to predefined dietary patterns and incident type 2 diabetes in European populations: EPIC-InterAct Study. Diabetologia 2014; 57: 321–333. ArticleCAS Google Scholar
Schwingshackl L, Hoffmann G . Adherence to Mediterranean diet and risk of cancer: a systematic review and meta-analysis of observational studies. Int J Cancer 2014; 135: 1884–1897. ArticleCASPubMed Google Scholar
Sofi F, Macchi C, Abbate R, Gensini GF, Casini A . Mediterranean diet and health status: an updated meta-analysis and a proposal for a literature-based adherence score. Public Health Nutr 2014; 17: 2769–2782. ArticlePubMed Google Scholar
Health Council of the Netherlands. Guideline for Dietary Fibre Intake. Publication no. 2006/E3. The Hague, 2006.
Health Council of the Netherlands. Guidelines for a Healthy Diet: the Ecological Perspective. Publication no. 2011/08E. The Hague, 2011.
Tilman D, Clark M . Global diets link environmental sustainability and human health. Nature 2014; 515: 518–522. ArticleCASPubMed Google Scholar
Auestad N, Fulgoni VL III . What current literature tells us about sustainable diets: emerging research linking dietary patterns, environmental sustainability, and economics. Adv Nutr 2015; 6: 19–36. ArticleCASPubMedPubMed Central Google Scholar
Alsaffar AA . Sustainable diets: the interaction between food industry, nutrition, health and the environment. Food Sci Technol Int 2016; 22: 102–111. ArticlePubMed Google Scholar
Temme EH, Toxopeus IB, Kramer GF, Brosens MC, Drijvers JM, Tyszler M et al. Greenhouse gas emission of diets in the Netherlands and associations with food, energy and macronutrient intakes. Public Health Nutr 2015; 18: 2433–2445. ArticlePubMed Google Scholar
The Netherlands Scientific Council for Government Policy. Towards a Food Policy. Synopsis of WRR-report no. 93. The Hague, 2015.
Health Council of the Netherlands. Healthy Nutrition: a Closer Look at Logos. Publication no. 2008/22E. The Hague, 2008.
U.S. Department of Health and Human Services and U.S. Department of Agriculture. 2015–2020 Dietary Guidelines for Americans. Washington DC 2015.
National Health and Medical Research Council Australian Dietary Guidelines. Canberra, 2013.