References
- Almeida, J.A., et al., 2020. High-protein diet associated with bocaiuva supplementation decreases body fat and improves glucose tolerance in resistance-trained rats. Journal of Medicinal Food, 23 (3), 258–258.
- Alves, J.P., et al., 2014. Resistance training improves hemodynamic function, collagen deposition and inflammatory profiles: experimental model of heart failure. PLoS One, 9 (10), e110317.
- Antonio, J., et al., 2015. A high protein diet (3.4 g/Kg/d) combined with a heavy resistance training program improves body composition in healthy trained men and women – a follow-up investigation. Journal of the International Society of Sports Nutrition, 12 (1), 1–9.
- Avila, E.T.P., et al., 2018. Effects of high-protein diet containing isolated whey protein in rats submitted to resistance training of aquatic jumps. Nutrition (Burbank, Los Angeles County, Calif.), 53, 85–94.
- Barboza, C.A., et al., 2016. Cardioprotective properties of aerobic and resistance training against myocardial infarction. International Journal of Sports Medicine, 37 (6), 421–430.
- Bartekova, M., et al., 2018. Role of cytokines and inflammation in heart function during health and disease. Heart Failure Reviews, 23 (5), 733–758.
- Batista, A., et al., 2019. Association between whey protein, regional fat mass, and strength in resistance-trained men: a cross-sectional study. Applied Physiology, Nutrition, and Metabolism = Physiologie Appliquee, Nutrition et Metabolisme, 44 (1), 7–12.
- Bauer, J., et al., 2013. Evidence-based recommendations for optimal dietary protein intake in older people: a position paper from the prot-age study group. Journal of the American Medical Directors Association, 14 (8), 542–559. http://dx.doi.org/10.1016/j.jamda.2013.05.021.
- Bellafiore, M., et al., 2019. Expression pattern of angiogenic factors in healthy heart in response to physical exercise intensity. Frontiers in Physiology, 10 (March), 238.
- Bernstein, A.M., et al., 2010. Major dietary protein sources and risk of coronary heart disease in women. Circulation, 122 (9), 876–883.
- Birse, R.T., et al., 2008. High fat diet-induced obesity and heart dysfunction is regulated by the TOR pathway in drosophila. Bone, 23 (1), 1–7.
- Broderick, T.L., et al., 2019. Anti-inflammatory and angiogenic effects of exercise training in cardiac muscle of diabetic mice. Diabetes, Metabolic Syndrome and Obesity: Targets and Therapy, 12, 565–573.
- Busetto, L., Marangon, M., and De Stefano, F., 2011. High-protein low-carbohydrate diets: what is the rationale?. Diabetes/Metabolism Research and Reviews, 27 (3), 230–232.
- Cantuária, A.P.C., et al., 2018. The effects of glucose concentrations associated with lipopolysaccharide and interferon-gamma stimulus on mediators' production of RAW 264.7 cells. Cytokine, 107 (November), 18–25.
- De Sousa Neto, I.V., et al., 2017. Effects of resistance training volume on MMPs in circulation, muscle and adipose tissue. International Journal of Sports Medicine, 38 (4), 307–313.
- Deutz, N.E.P., et al., 2014. Protein intake and exercise for optimal muscle function with aging: recommendations from the ESPEN expert group. Clinical Nutrition (Edinburgh, Scotland), 33 (6), 929–936.
- Fontes, A.J., Noel, R.R., and Čiháková, D., 2017. The varying faces of IL-6: from cardiac protection to cardiac failure. Physiology & Behavior, 176 (5), 139–148.
- Foo, Y.S., et al., 2009. Vascular effects of a low-carbohydrate high-protein diet. Proceedings of the National Academy of Sciences of Sciences, 106 (36), 15418–15423.
- Foster, G.D., et al., 2003. A randomized trial of a low-carbohydrate diet for obesity. The New England Journal of Medicine, 348 (21), 2082–2090.
- Gardner, C.D., et al., 2007. Comparison of the Atkins, Zone, Ornish, and LEARN diets for change in weight and related risk factors among overweight premenopausal women: The A to Z weight loss study: a randomized trial. JAMA, 297 (9), 969–977.
- Ghorbanzadeh, V., et al., 2017. Efeito cardioprotetor de crocina combinado com exercício voluntário em ratos: papel do Mir-126 e Mir-210 na angiogênese cardíaca. Arquivos Brasileiros de Cardiologia, 109 (1), 54–62.
- Green, L.C., et al., 1982. Analysis of nitrate, nitrite, and [15N] nitrate in biological fluids. Analytical Biochemistry, 126 (1), 131–138.
- Guzzoni, V., et al., 2017. Reduced collagen accumulation and augmented MMP-2 activity in Left ventricle of old rats submitted to high-intensity resistance training. Journal of Applied Physiology (Physiology), 123 (3), 655–663.
- Janczewski, A.M., et al., 2003. Morphological and functional changes in cardiac myocytes isolated from mice overexpressing TNF-α. American Journal of Physiology - Heart and Circulatory Physiology, 284, 960–969.
- Lagiou, P., et al., 2012. Low carbohydrate-high protein diet and incidence of cardiovascular diseases in Swedish women: prospective cohort study. BMJ (Bmj), 344 (jun26 3), e4026.
- Leite, R.D., et al., 2013. Resistance training may concomitantly benefit body composition, blood pressure and muscle MMP-2 activity on the left ventricle of high-fat fed diet rats. Metabolism: Clinical and Experimental, 62 (10), 1477–1484.
- Melo, S.F.S., et al., 2018. Cardiovascular adaptations induced by resistance training in animal models. International Journal of Medical Sciences, 15 (4), 403–410.
- Milkiewicz, M., et al., 2005. Nitric Oxide, VEGF, and VEGFR-2: Interactions in Activity-Induced Angiogenesis in Rat Skeletal Muscle. American Journal of Physiology – Heart and Circulatory Physiology, 289 (1 58-1), 336–343.
- Mittendorfer, B., Klein, S., and Fontana, L., 2020. A word of caution against excessive protein intake. Nature Reviews Endocrinology, 16 (1), 59–66.
- Mötteli, S., et al., 2016. Consumers' practical understanding of healthy food choices: a fake food experiment. The British Journal of Nutrition, 116 (3), 559–566.
- Nakamura, M., and Sadoshima, J., 2018. Mechanisms of physiological and pathological cardiac hypertrophy. Nature Reviews Cardiology, 15 (7), 387–407.
- Nascimento, D.C., et al., 2016. Acute eccentric resistance exercise decreases matrix metalloproteinase activity in obese elderly women. Clinical Physiology and Functional Imaging, 36 (2), 139–145.
- Piek, A., et al., 2019. Pharmacological myeloperoxidase (MPO) inhibition in an obese/hypertensive mouse model attenuates obesity and liver damage, but not cardiac remodeling. Scientific Reports, 9 (1), 1–12.
- Rand, W.M., Pellett, P.L., and Young, V.R., 2003. Meta-analysis of nitrogen balance studies for estimating protein requirements in healthy adults. The American Journal of Clinical Nutrition, 77 (1), 109–127.
- Reeves, P.G., Nielsen, F.H., and Fahey, G.C., 1993. AIN-93 purified diets for laboratory rodents: final report of the american institute of nutrition Ad Hoc writing committee on the reformulation of the AIN-76A rodent diet. The Journal of Nutrition, 123 (11), 1939–1951.
- Ribeiro, R.F., et al., 2014. Effect of a high-protein diet on development of heart failure in response to pressure overload. Applied physiology, nutrition, and metabolism = Physiologie appliquee. Applied Physiology, Nutrition, and Metabolism, 39 (2), 238–247.
- Samal, J.R.K., and Samal, I.R., 2018. Protein supplements: pros and cons. Journal of Dietary Supplements, 15 (3), 365–371.
- Shai, I., et al., 2008. Weight loss with a low-carbohydrate, mediterranean, or low-fat diet. New England Journal of Medicine, 359 (3), 229–241.
- Souza, M.K., et al., 2018. Resistance training attenuates inflammation and the progression of renal fibrosis in chronic renal disease. Life Sciences, 206, 93–97.
- Speretta, G.F., et al., 2016. Resistance training prevents the cardiovascular changes caused by high-fat diet. Life Sciences, 146, 154–162.
- Virtanen, H.E.K., et al., 2019. Dietary proteins and protein sources and risk of death: the kuopio ischaemic heart disease risk factor study. The American Journal of Clinical Nutrition, 109 (5), 1462–1471.
- Westerterp-Plantenga, M.S., Lemmens, S.G., and Westerterp, K.R., 2012. Dietary protein - Its role in satiety, energetics, weight loss and health. British Journal of Nutrition, 108 (S2), S105–S112.
- Wing, R.R., et al., 2005. Cardiovascular effects of intensive lifestyle intervention in type 2 diabetes. New England Journal of Medicine, 23 (1), 1–7.
- Zhang, X., et al., 2020. High-protein diets increase cardiovascular risk by activating macrophage MTOR to suppress mitophagy. Nature Metabolism, 2 (1), 110–125.