Background and aim: The beneficial effects of exercise in reducing the incidence of cardiovascular diseases are well known. Several studies have demonstrated that forced exercise (FE) could activate a stress response similar to a restrain stress. Previous studies suggest that heart protection to ischemic events would be improved by an omega 3 free fatty acid (omega3-FFA)-enriched diet. Here, we investigate the impact of stressful FE and an omega 3-FFA-enriched diet on cardiac tolerance to ischemic events over one month.
Methods and results: Twenty-four Wistar rats were randomly assigned to one of the following protocols: 1) Sedentary (SED) animals who were regularly fed; 2) sedentary animals who were given 1ml/day of fish oil for one month; 3) FE+omega3-FFA rats who were given 1ml/day of fish oil and forced to run on a motorized wheel for 30min every day, both for one month; and 4) FE animals were forced to exercise as group 3 and fed with a regular diet. At the end of the treatments an isolated heart preparation was performed. After a 30min global ischemic event and 2h reperfusion, hearts of sedentary-omega3 animals recovered about 37% of left ventricular developed pressure, whereas FE, omega3+FE and CTRL-SED animals recovered only about 15%, 5% and 8% respectively. Similarly, heart infarct size was significantly lower in sedentary-omega3 animals compared to animals in the three other groups.
Conclusions: Results indicate that one month of treatment with an omega3-FFA-enriched diet improves cardioprotection upon ischemic events, whereas FE leads to a reduced heart tolerance to ischemic events, which cannot be reversed by an omega3-FFA diet.