Masson GS, Borges JP, da Silva PP et al (2016) Effect of continuous and interval aerobic
exercise training on baroreflex sensitivity in heart failure. Auton Neurosci 197:9–13
Bowles DK, Farrar RP, Starnes JW (1992) Exercise training improves cardiac function after
ischemia in the isolated, working rat heart. Am J Phys 263(3 Pt 2):H804–H809
Esposito F, Ronchi R, Milano G et al (2011) Myocardial tolerance to ischemia-reperfusion
injury, training intensity and cessation. Eur J Appl Physiol 111(5):859–868
Lennon SL, Quindry JC, French JP et al (2004) Exercise and myocardial tolerance to
ischaemia- reperfusion. Acta Physiol Scand 182(2):161–169
Tjonna AE, Lee SJ, Rognmo O et al (2008) Aerobic interval training versus continuous
moderate exercise as a treatment for the metabolic syndrome: a pilot study. Circulation
118(4):346–354
Daussin FN, Zoll J, Dufour SP et al (2008) Effect of interval versus continuous training on
cardiorespiratory and mitochondrial functions: relationship to aerobic performance improve-
ments in sedentary subjects. Am J Physiol Regul Integr Comp Physiol 295(1):R264–R272
Paes LS, Borges JP, Cunha FA et al (2016) Oxygen uptake, respiratory exchange ratio, or
total distance: a comparison of methods to equalize exercise volume in Wistar rats. Braz
J Med Biol Res 49(8)
Doustar Y, Soufi FG, Jafary A et al (2012) Role of four-week resistance exercise in preserving
the heart against ischaemia-reperfusion-induced injury. Cardiovasc J Afr 23(8):451–455
Spence AL, Naylor LH, Carter HH et al (2011) A prospective randomised longitudinal MRI
study of left ventricular adaptation to endurance and resistance exercise training in humans.
J Physiol 589(Pt 22):5443–5452
Venckunas T, Simonavicius J, Marcinkeviciene JE (2016) Cardiac size of high-volume
resistance trained female athletes: shaping the body but not the heart. Acta Physiol Hung
103(1):105–111
Hambrecht R, Gielen S, Linke A et al (2000) Effects of exercise training on left ventricular
function and peripheral resistance in patients with chronic heart failure: a randomized trial.
JAMA 283(23):3095–3101
Soufi FG, Saber MM, Ghiassie R et al (2011) Role of 12-week resistance training in preserv-
ing the heart against ischemia-reperfusion-induced injury. Cardiol J 18(2):140–145
Powers SK, Locke DHA (2001) Exercise, heat shock proteins, and myocardial protection
from I-R injury. Med Sci Sports Exerc 33(3):386–392
Locke M, Noble EG, Tanguay RM et al (1995) Activation of heat-shock transcription factor
in rat heart after heat shock and exercise. Am J Phys 268(6 Pt 1):C1387–C1394
Yuan Y, Pan SS, Shen YJ (2016) Cardioprotection of exercise preconditioning involving heat
shock protein 70 and concurrent autophagy: a potential chaperone-assisted selective macro-
autophagy effect. J Physiol Sci:1–13
Hamilton KL, Powers SK, Sugiura T et al (2001) Short-term exercise training can improve
myocardial tolerance to I/R without elevation in heat shock proteins. Am J Physiol Heart Circ
Physiol 281(3):H1346–H1352
Calvert JW, Lefer DJ (2013) Role of beta-adrenergic receptors and nitric oxide signaling in
exercise-mediated cardioprotection. Physiology (Bethesda) 28(4):216–224
Calvert JW, Condit ME, Aragon JP et al (2011) Exercise protects against myocardial
ischemia- reperfusion injury via stimulation of beta(3)-adrenergic receptors and increased
nitric oxide signaling: role of nitrite and nitrosothiols. Circ Res 108(12):1448–1458
Davis ME, Grumbach IM, Fukai T et al (2004) Shear stress regulates endothelial nitric-
oxide synthase promoter activity through nuclear factor kappaB binding. J Biol Chem
279(1):163–168
Farah C, Kleindienst A, Bolea G et al (2013) Exercise-induced cardioprotection: a role for
eNOS uncoupling and NO metabolites. Basic Res Cardiol 108(6):389
Taylor RP, Olsen ME, Starnes JW (2007) Improved postischemic function following acute
exercise is not mediated by nitric oxide synthase in the rat heart. Am J Physiol Heart Circ
Physiol 292(1):H601–H607
