The Effect of Four-Week Resistance Exercise along with Milk Consumption on NT-proBNP and Plasma Troponin I
 Lippi, G., et al., Influence of physical exercise and relationship with biochemical variables of NT-pro-brain natriuretic peptide and ischemia modified albumin. Clinica chimica acta, 2006. 367(1): p. 175-180.
 Daniels, L. B. and A. S. Maisel, Natriuretic peptides. Journal of the American college of cardiology, 2007. 50(25): p. 2357-2368.
 Raymond, I., et al., The influence of age, sex and other variables on the plasma level of N-terminal pro brain natriuretic peptide in a large sample of the generalpopulation. Heart, 2003. 89(7): p. 745-751.
 Januzzi Jr, J. L., et al., Utility of amino-terminal pro-brain natriuretic peptide testing for prediction of 1-year mortality in patients with dyspnea treated in the emergency department. Archives of internalmedicine, 2006. 166(3): p. 315.
 Scharhag, J., et al., Independent elevations of N-terminal pro–brain natriuretic peptide and cardiac troponins in endurance athletes after prolonged strenuous exercise. American heart journal, 2005. 150(6): p. 1128-1134.
 Krupička, J., et al., Effect of short-term maximal exercise on BNP plasma levels in healthy individuals. Physiol. Res, 2010. 59: p. 625-628.
 Smart, N. and M. Steele, Systematic review of the effect of aerobic and resistance exercise training on systemic brain natriuretic peptide (BNP) and N-terminal BNP expression in heart failure patients. International journal of cardiology, 2010. 140(3): p. 260-265.
 Schulz, O. and H. H. Sigusch, Impact of an exercise-induced increase in cardiac troponin I in chronic heart failure secondary to ischemic or idiopathic dilated cardiomyopathy. The American journal of cardiology, 2002. 90(5): p. 547-550.
 Shave, R., et al., Prolonged exercise should be considered alongside typical symptoms of acute myocardial infarction when evaluating increases in cardiac troponin T. Heart, 2005. 91(9): p. 1219-1220.
 O'Hanlon, R., et al., Research Troponin release following endurance exercise: is inflammation the cause? a cardiovascular magnetic resonance study. 2010.
 Rahnama, N., M. Faramarzi, and A. A. Gaeini, Effects of intermittent exercise on cardiac troponin i and creatine kinase-MB. International journal of preventive medicine, 2011. 2(1): p. 20.
 Shave, R., et al., Evidence of exercise-induced cardiac dysfunction and elevated cTnT in separate cohorts competing in an ultra-endurance mountain marathon race. International journal of sports medicine, 2002. 23(07): p. 489-494.
 Michielsen, E. C., W. K. Wodzig, and M. P. Van Dieijen-Visser, Cardiac troponin T releaseafter prolonged strenuous exercise. Sports Medicine, 2008. 38(5): p. 425-435.
 Lippi, G. and M. Plebani, High-sensitive troponin testing and the “runner's syndrome”. The Journal of Emergency Medicine, 2011. 41(1): p. 85-87.
 Neumayr, G., et al., Plasma levels of cardiac troponin I after prolonged strenuous endurance exercise. The American journal of cardiology, 2001. 87(3): p. 369-371.
 Scharhag, J., et al., Exercise-associated increases in cardiac biomarkers. Medicine+ Science in Sports+ Exercise, 2008. 40(8): p. 1408.
 Shave, R., K. George, and D. Gaze, The influence of exercise upon cardiac biomarkers: a practical guide for clinicians and scientists. Current medicinal chemistry, 2007. 14(13): p. 1427-1436.
 Collinson, P., P. Stubbs, andA. Kessler, Multicentre evaluation of the diagnostic value of cardiac troponin T, CK-MB mass, and myoglobin for assessing patients with suspected acute coronary syndromes in routine clinical practice. Heart, 2003. 89(3): p. 280-286.
 Cockburn, E., et al., Effect of volume of milk consumed on the attenuation of exercise-induced muscle damage. European journal of applied physiology, 2012. 112(9): p. 3187-3194.
 Kammer, L., et al., Journal of the International Society of Sports Nutrition. Journal of the International Society of Sports Nutrition, 2009. 6: p. 11.
 Cooke, M.B., et al., Ingestion of 10 grams of whey protein prior to a single bout of resistance exercise does not augment Akt/mTOR pathway signaling compared to carbohydrate. Journal of theInternational Society of Sports Nutrition, 2011. 8(1): p. 1-9.
 Hoffman, J.R., et al., Effect of a proprietary protein supplement on recovery indices following resistance exercise in strength/power athletes. Amino acids, 2010. 38(3): p. 771-778.
 Shave, R. and D. Oxborough, Exercise-Induced Cardiac Injury: Evidence From Novel Imaging Techniques and Highly Sensitive Cardiac Troponin Assays. Progress in cardiovascular diseases, 2012. 54(5): p. 407-415.
 Conraads, V. M., et al., Combined endurance/resistance training reduces NT-proBNP levels in patients with chronic heart failure. European heart journal, 2004. 25(20): p. 1797-1805.
 König, D., et al., Biomarkers of exercise-induced myocardial stress in relation to inflammatory and oxidative stress. Exerc Immunol Rev, 2007. 13(1): p. 15-36.
 McLachlan, C. and P. Mossop, Are elevations of N-terminal probrain natriuretic peptide in endurance athletes after prolonged strenuous exercise due to systemic inflammatory cytokines? American heart journal, 2006. 152(1): p. e1.
 Bordbar, S., et al., Effect of endurance and strength exercise on release of brain natriuretic peptide. Journal of cardiovascular disease research, 2012. 3(1): p. 22.
 Mair, J., et al., Concentration time courses of troponin and myosin subunits after acute myocardial infarction. Coronary artery disease, 1994. 5(10): p. 865-872.
 Neilan, T. G., et al., Myocardial injury and ventricular dysfunction related to training levels among nonelite participants in the Boston marathon. Circulation, 2006. 114(22): p. 23, 25-2333.
 Clarkson, P. M. and M. J. Hubal, Exercise-induced muscle damage in humans. American journal of physical medicine & rehabilitation, 2002. 81(11): p. S52-S69.
 Cheung, K., P. A. Hume, and L. Maxwell, Delayed onset muscle soreness. Sports Medicine, 2003. 33(2): p. 145-164.
 Wojcik J. R. Effect of carbohydrate-protein beverageon glycogen resynthesis and muscle damageinduced by eccentric resistance exercise. J IntSocSports Nutr 2001`; 31: 228-33.
 Baty, J. J., et al., The effect of a carbohydrate and protein supplement on resistance exercise performance, hormonal response, and muscle damage. Journal of Strength and Conditioning Research, 2007. 21(2): p. 321.
 Stock, M.S., et al., The effects of adding leucine to pre and postexercise carbohydrate beverages on acute muscle recovery from resistance training. The Journal of Strength & Conditioning Research, 2010. 24(8): p. 2211-2219.
 Romano-Ely, B. C., et al., Effect of an isocaloric carbohydrate-protein-antioxidant drink on cycling performance. Medicine and science in sports and exercise, 2006. 38(9): p. 1608-1616.
 Cockburn, E., et al., Acute milk-based protein-CHO supplementation attenuates exercise-induced muscle damage. Applied Physiology, Nutrition, and Metabolism, 2008. 33(4): p. 775-783.
 Bird, S. P., K. M. Tarpenning, and F. E. Marino, Independent and combined effects of liquid carbohydrate/essential amino acid ingestion on hormonal and muscular adaptations followingresistance training in untrained men. European journal of applied physiology, 2006. 97(2): p. 225-238.