Cardiovascular
Associations of ultra-processed food consumption, circulating protein biomarkers, and risk of cardiovascular disease
Nov
Collaborators GBDCoD. Global, regional, and national age-sex-specific mortality for 282 causes of death in 195 countries and territories, 1980–2017: a systematic analysis for the Global Burden of Disease Study 2017. Lancet. 2018;392(10159):1736–88.
Schwalm JD, McKee M, Huffman MD, Yusuf S. Resource effective strategies to prevent and treat cardiovascular disease. Circulation. 2016;133(8):742–55.
Google Scholar
Yu E, Malik VS, Hu FB. Cardiovascular disease prevention by diet modification: JACC Health Promotion Series. J Am Coll Cardiol. 2018;72(8):914–26.
Google Scholar
Mozaffarian D. Dietary and policy priorities for cardiovascular disease, diabetes, and obesity: a comprehensive review. Circulation. 2016;133(2):187–225.
Google Scholar
Monteiro CA, Cannon G, Levy RB, Moubarac JC, Louzada ML, Rauber F, Khandpur N, Cediel G, Neri D, Martinez-Steele E, et al. Ultra-processed foods: what they are and how to identify them. Public Health Nutr. 2019;22(5):936–41.
Google Scholar
Louzada ML, Martins AP, Canella DS, Baraldi LG, Levy RB, Claro RM, Moubarac JC, Cannon G, Monteiro CA. Impact of ultra-processed foods on micronutrient content in the Brazilian diet. Rev Saude Publica. 2015;49:45.
Google Scholar
Jang W, Jeoung NH, Cho KH. Modified apolipoprotein (apo) A-I by artificial sweetener causes severe premature cellular senescence and atherosclerosis with impairment of functional and structural properties of apoA-I in lipid-free and lipid-bound state. Mol Cells. 2011;31(5):461–70.
Google Scholar
Singh K, Ahluwalia P. Effect of monosodium glutamate on lipid peroxidation and certain antioxidant enzymes in cardiac tissue of alcoholic adult male mice. J Cardiovasc Dis Res. 2012;3(1):12–8.
Google Scholar
Zhang Q, Bai Y, Yang Z, Tian J, Meng Z. The molecular mechanisms of sodium metabisulfite on the expression of K ATP and L-Ca2+ channels in rat hearts. Regul Toxicol Pharmacol. 2015;72(3):440–6.
Google Scholar
Chen X, Chu J, Hu W, Sun N, He Q, Liu S, Feng Z, Li T, Han Q, Shen Y. Associations of ultra-processed food consumption with cardiovascular disease and all-cause mortality: UK Biobank. Eur J Public Health. 2022;32(5):779–85.
Google Scholar
Juul F, Vaidean G, Lin Y, Deierlein AL, Parekh N. Ultra-processed foods and incident cardiovascular disease in the Framingham Offspring Study. J Am Coll Cardiol. 2021;77(12):1520–31.
Google Scholar
Srour B, Fezeu LK, Kesse-Guyot E, Alles B, Mejean C, Andrianasolo RM, Chazelas E, Deschasaux M, Hercberg S, Galan P, et al. Ultra-processed food intake and risk of cardiovascular disease: prospective cohort study (NutriNet-Sante). BMJ. 2019;365:l1451.
Google Scholar
Mertens E, Colizzi C, Penalvo JL. Ultra-processed food consumption in adults across Europe. Eur J Nutr. 2022;61(3):1521–39.
Google Scholar
Williams SA, Kivimaki M, Langenberg C, Hingorani AD, Casas JP, Bouchard C, Jonasson C, Sarzynski MA, Shipley MJ, Alexander L, et al. Plasma protein patterns as comprehensive indicators of health. Nat Med. 2019;25(12):1851–7.
Google Scholar
Emilsson V, Ilkov M, Lamb JR, Finkel N, Gudmundsson EF, Pitts R, Hoover H, Gudmundsdottir V, Horman SR, Aspelund T, et al. Co-regulatory networks of human serum proteins link genetics to disease. Science. 2018;361(6404):769–73.
Google Scholar
Sun BB, Maranville JC, Peters JE, Stacey D, Staley JR, Blackshaw J, Burgess S, Jiang T, Paige E, Surendran P, et al. Genomic atlas of the human plasma proteome. Nature. 2018;558(7708):73–9.
Google Scholar
Manjer J, Carlsson S, Elmstahl S, Gullberg B, Janzon L, Lindstrom M, Mattisson I, Berglund G. The Malmo Diet and Cancer Study: representativity, cancer incidence and mortality in participants and non-participants. Eur J Cancer Prev. 2001;10(6):489–99.
Google Scholar
Muhammad IF, Borne Y, Bao X, Melander O, Orho-Melander M, Nilsson PM, Nilsson J, Engstrom G. Circulating HER2/ErbB2 levels are associated with increased incidence of diabetes: population-based cohort study. Diabetes Care. 2019;42(8):1582–8.
Google Scholar
Elmstahl S, Riboli E, Lindgarde F, Gullberg B, Saracci R. The Malmo Food Study: the relative validity of a modified diet history method and an extensive food frequency questionnaire for measuring food intake. Eur J Clin Nutr. 1996;50(3):143–51.
Google Scholar
Ludvigsson JF, Andersson E, Ekbom A, Feychting M, Kim JL, Reuterwall C, Heurgren M, Olausson PO. External review and validation of the Swedish national inpatient register. BMC Public Health. 2011;11:450.
Google Scholar
Jerntorp P, Berglund G. Stroke registry in Malmo. Sweden Stroke. 1992;23(3):357–61.
Google Scholar
Wirfalt E, Mattisson I, Johansson U, Gullberg B, Wallstrom P, Berglund G. A methodological report from the Malmo Diet and Cancer study: development and evaluation of altered routines in dietary data processing. Nutr J. 2002;1:3.
Google Scholar
Gonzalez-Padilla E, Tao Z, Sanchez-Villegas A, Alvarez-Perez J, Borne Y, Sonestedt E. Association between adherence to Swedish dietary guidelines and Mediterranean diet and risk of stroke in a Swedish population. Nutrients. 2022;14(6):1253.
Google Scholar
Desquilbet L, Mariotti F. Dose-response analyses using restricted cubic spline functions in public health research. Stat Med. 2010;29(9):1037–57.
Google Scholar
Shrier I, Platt RW. Reducing bias through directed acyclic graphs. BMC Med Res Methodol. 2008;8:70.
Google Scholar
Song M, Giovannucci E. Substitution analysis in nutritional epidemiology: proceed with caution. Eur J Epidemiol. 2018;33(2):137–40.
Google Scholar
Lachat C, Hawwash D, Ocke MC, Berg C, Forsum E, Hornell A, Larsson C, Sonestedt E, Wirfalt E, Akesson A, et al. Strengthening the Reporting of Observational Studies in Epidemiology-Nutritional Epidemiology (STROBE-nut): an extension of the STROBE statement. PLoS Med. 2016;13(6):e1002036.
Google Scholar
Romero Ferreiro C, Martin-Arriscado Arroba C, CancelasNavia P, Lora Pablos D, de la Camara AG. Ultra-processed food intake and all-cause mortality: DRECE cohort study. Public Health Nutr. 2021;25(7):1–10.
Google Scholar
Lopez-Garcia E, Schulze MB, Meigs JB, Manson JE, Rifai N, Stampfer MJ, Willett WC, Hu FB. Consumption of trans fatty acids is related to plasma biomarkers of inflammation and endothelial dysfunction. J Nutr. 2005;135(3):562–6.
Google Scholar
de Cabrera Leon A, Almeida Gonzalez D, Gonzalez Hernandez A, Dominguez Coello S, Marrugat J. Juan Aleman Sanchez J, Brito Diaz B, Marcelino Rodriguez I, Perez Mdel C: Relationships between serum resistin and fat intake, serum lipid concentrations and adiposity in the general population. J Atheroscler Thromb. 2014;21(5):454–62.
Martinez-Carrillo BE, Rosales-Gomez CA, Ramirez-Duran N, Resendiz-Albor AA, Escoto-Herrera JA, Mondragon-Velasquez T, Valdes-Ramos R, Castillo-Cardiel A. Effect of chronic consumption of sweeteners on microbiota and immunity in the small intestine of young mice. Int J Food Sci. 2019;2019:9619020.
Google Scholar
Rodrigues DF, Henriques MC, Oliveira MC, Menezes-Garcia Z, Marques PE, Souza Dda G, Menezes GB, Teixeira MM, Ferreira AV. Acute intake of a high-fructose diet alters the balance of adipokine concentrations and induces neutrophil influx in the liver. J Nutr Biochem. 2014;25(4):388–94.
Google Scholar
Garcia-Montero C, Fraile-Martinez O, Gomez-Lahoz AM, Pekarek L, Castellanos AJ, Noguerales-Fraguas F, Coca S, Guijarro LG, Garcia-Honduvilla N, Asunsolo A, et al. Nutritional components in Western diet versus Mediterranean diet at the gut microbiota-immune system interplay Implications for Health and Disease. Nutrients. 2021;13(2):699.
Google Scholar
Zhu C, Sawrey-Kubicek L, Beals E, Rhodes CH, Houts HE, Sacchi R, Zivkovic AM. Human gut microbiome composition and tryptophan metabolites were changed differently by fast food and Mediterranean diet in 4 days: a pilot study. Nutr Res. 2020;77:62–72.
Google Scholar
Calder PC, Albers R, Antoine JM, Blum S, Bourdet-Sicard R, Ferns GA, Folkerts G, Friedmann PS, Frost GS, Guarner F, et al. Inflammatory disease processes and interactions with nutrition. Br J Nutr. 2009;101(Suppl 1):S1-45.
Google Scholar
Badimon L. Interleukin-18: a potent pro-inflammatory cytokine in atherosclerosis. Cardiovascul Res. 2012;96(2):172–5. discussion 176-18.
Google Scholar
Mizoguchi E, Mizoguchi A, Takedatsu H, Cario E, de Jong YP, Ooi CJ, Xavier RJ, Terhorst C, Podolsky DK, Bhan AK. Role of tumor necrosis factor receptor 2 (TNFR2) in colonic epithelial hyperplasia and chronic intestinal inflammation in mice. Gastroenterology. 2002;122(1):134–44.
Google Scholar
Taouis M, Benomar Y. Is resistin the master link between inflammation and inflammation-related chronic diseases? Mol Cell Endocrinol. 2021;533:111341.
Google Scholar
Ranciere F, Lyons JG, Loh VH, Botton J, Galloway T, Wang T, Shaw JE, Magliano DJ. Bisphenol A and the risk of cardiometabolic disorders: a systematic review with meta-analysis of the epidemiological evidence. Environ Health. 2015;14:46.
Google Scholar
Feng D, Zhang H, Jiang X, Zou J, Li Q, Mai H, Su D, Ling W, Feng X. Bisphenol A exposure induces gut microbiota dysbiosis and consequent activation of gut-liver axis leading to hepatic steatosis in CD-1 mice. Environ Pollut. 2020;265(Pt A):114880.
Google Scholar
Abedelhaffez AS, El-Aziz EAA, Aziz MAA, Ahmed AM. Lung injury induced by Bisphenol A: a food contaminant, is ameliorated by selenium supplementation. Pathophysiology. 2017;24(2):81–9.
Google Scholar
Bjorkbacka H, Yao Mattisson I, Wigren M, Melander O, Fredrikson GN, Bengtsson E, Goncalves I, Almgren P, Lagerstedt JO, Orho-Melander M, et al. Plasma stem cell factor levels are associated with risk of cardiovascular disease and death. J Intern Med. 2017;282(6):508–21.
Google Scholar
Lennartsson J, Ronnstrand L. Stem cell factor receptor/c-Kit: from basic science to clinical implications. Physiol Rev. 2012;92(4):1619–49.
Google Scholar
Wang CH, Anderson N, Li SH, Szmitko PE, Cherng WJ, Fedak PW, Fazel S, Li RK, Yau TM, Weisel RD, et al. Stem cell factor deficiency is vasculoprotective: unraveling a new therapeutic potential of imatinib mesylate. Circ Res. 2006;99(6):617–25.
Google Scholar
Edefonti V, De Vito R, Salvatori A, Bravi F, Patel L, Dalmartello M, Ferraroni M. Reproducibility of a posteriori dietary patterns across time and studies: a scoping review. Adv Nutr. 2020;11(5):1255–81.
Google Scholar
