BACKGROUND: Exercise training (ET) has been used as a nonpharmacological strategy for treatment of diabetes and myocardial infarction (MI) separately. We evaluated the effects ET on functional and molecular left ventricular (LV) parameters as well as on autonomic function and mortality in diabetics after MI. METHODS AND RESULTS: Male Wistar rats were divided into control (C), sedentary-diabetic infarcted (SDI), and trained-diabetic infarcted (TDI) groups. MI was induced after 15 days of streptozotocin-diabetes induction. Seven days after MI, the trained group underwent ET protocol (90 days, 50-70% maximal oxygen consumption-VO(2)max). LV function was evaluated noninvasively and invasively; baroreflex sensitivity, pulse interval variability, cardiac output, tissue blood flows, VEGF mRNA and protein, HIF1-α mRNA, and Ca(2+) handling proteins were measured. MI area was reduced in TDI (21 ± 4%) compared with SDI (38 ± 4%). ET induced improvement in cardiac function, hemodynamics, and tissue blood flows. These changes were probable consequences of a better expression of Ca(2+) handling proteins, increased VEGF mRNA and protein expression as well as improvement in autonomic function, that resulted in reduction of mortality in TDI (33%) compared with SDI (68%) animals. CONCLUSIONS: ET reduced cardiac and peripheral dysfunction and preserved autonomic control in diabetic infarcted rats. Consequently, these changes resulted in improved VO(2)max and survival after MI.
BACKGROUND: Exercise training (ET) has been used as a nonpharmacological strategy for treatment of diabetes and myocardial infarction (MI) separately. We evaluated the effects ET on functional and molecular left ventricular (LV) parameters as well as on autonomic function and mortality in diabetics after MI. METHODS AND RESULTS: Male Wistar rats were divided into control (C), sedentary-diabetic infarcted (SDI), and trained-diabetic infarcted (TDI) groups. MI was induced after 15 days of streptozotocin-diabetes induction. Seven days after MI, the trained group underwent ET protocol (90 days, 50-70% maximal oxygen consumption-VO(2)max). LV function was evaluated noninvasively and invasively; baroreflex sensitivity, pulse interval variability, cardiac output, tissue blood flows, VEGF mRNA and protein, HIF1-α mRNA, and Ca(2+) handling proteins were measured. MI area was reduced in TDI (21 ± 4%) compared with SDI (38 ± 4%). ET induced improvement in cardiac function, hemodynamics, and tissue blood flows. These changes were probable consequences of a better expression of Ca(2+) handling proteins, increased VEGF mRNA and protein expression as well as improvement in autonomic function, that resulted in reduction of mortality in TDI (33%) compared with SDI (68%) animals. CONCLUSIONS: ET reduced cardiac and peripheral dysfunction and preserved autonomic control in diabetic infarctedrats. Consequently, these changes resulted in improved VO(2)max and survival after MI.
Authors: Cristiane M França; Greeshma Thrivikraman; Avathamsa Athirasala; Anthony Tahayeri; Laurie B Gower; Luiz E Bertassoni Journal: J Biomed Mater Res B Appl Biomater Date: 2018-09-29 Impact factor: 3.368
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Authors: Jarrod A Call; Jean Donet; Kyle S Martin; Ashish K Sharma; Xiaobin Chen; Jiuzhi Zhang; Jie Cai; Carolina A Galarreta; Mitsuharu Okutsu; Zhongmin Du; Vitor A Lira; Mei Zhang; Borna Mehrad; Brian H Annex; Alexander L Klibanov; Russell P Bowler; Victor E Laubach; Shayn M Peirce; Zhen Yan Journal: Free Radic Biol Med Date: 2017-10-02 Impact factor: 7.376