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首页> 美国卫生研究院文献>Physiological Reports >Cardiac adaptations from 4 weeks of intensity-controlled vigorous exercise are lost after a similar period of detraining
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Cardiac adaptations from 4 weeks of intensity-controlled vigorous exercise are lost after a similar period of detraining

机译:经过类似的训练时间后失去了4周强度控制剧烈运动的心脏适应能力

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Intensity-controlled (relative to VO2max) treadmill exercise training in adult rats results in the activation and ensuing differentiation of endogenous c-kitpos cardiac stem/progenitor cells (eCSCs) into newly formed cardiomyocytes and capillaries. Whether these training-induced adaptations persist following detraining is undetermined. Twelve male Wistar rats (∼230 g) were exercised at 80–85% of their VO2max for 30 min day−1, 4 days week−1 for 4 weeks (TR;n = 6), followed by 4 weeks of detraining (DTR; n = 6). Twelve untrained rats acted as controls (CTRL). Exercise training significantly enhanced VO2max (11.34 mL kg−1 min−1) and wet heart weight (29%) above CTRL (P < 0.05). Echocardiography revealed that exercise training increased LV mass (∼32%), posterior and septal wall thickness (∼15%), ejection fraction and fractional shortening (∼10%) compared to CTRL (P < 0.05). Cardiomyocyte diameter (17.9 ± 0.1 μm vs. 14.9 ± 0.6 μm), newly formed (BrdUpos/Ki67pos) cardiomyocytes (7.2 ± 1.3%/1.9 ± 0.7% vs. 0.2 ± 0.1%/0.1 ± 0.1%), total cardiomyocyte number (45.6 ± 0.6 × 106 vs. 42.5 ± 0.4 × 106), c-kitpos eCSC number (884 ± 112 per 106 cardiomyocytes vs. 482 ± 132 per 106 cardiomyocytes), and capillary density (4123 ± 227 per mm2 vs. 2117 ± 118 per mm2) were significantly greater in the LV of trained animals (P < 0.05) than CTRL. Detraining removed the stimulus for c-kitpos eCSC activation (640 ± 98 per 106 cardiomyocytes) and resultant cardiomyocyte hyperplasia (0.4 ± 0.3% BrdUpos/0.2 ± 0.2% Ki67pos cardiomyocytes). Capillary density (3673 ± 374 per mm2) and total myocyte number (44.7 ± 0.5 × 106) remained elevated following detraining, but cardiomyocyte hypertrophy (15.0 ± 0.4 μm) was lost, resulting in a reduction of anatomical (wall thickness ∼4%; LV mass ∼10% and cardiac mass ∼8%, above CTRL) and functional (EF & FS ∼2% above CTRL) parameters gained through exercise training. These findings demonstrate that cardiac adaptations, produced by 4 weeks of intensity-controlled exercise training are lost after a similar period of detraining.
机译:在成年大鼠中进行强度控制(相对于VO2max)跑步机运动训练,可激活并随之导致内源性c-kit osups 心脏干/祖细胞(eCSCs)分化为新形成的心肌细胞和毛细血管。这些训练引起的适应是否在训练后仍然存在尚不确定。十二只雄性Wistar大鼠(〜230 g)以其最大摄氧量的80–85%进行锻炼30分钟 -1 ,每周4天 -1 4周(TR ; n = 6),然后进行4周的训练(DTR; n = 6)。十二只未经训练的大鼠充当对照(CTRL)。运动训练显着提高了VO2max(11.34 mL kg −1 min -1 )和湿心重量(29%)高于CTRL(P <0.05)。超声心动图显示,与CTRL相比,运动训练增加了LV量(〜32%),后壁和间隔壁厚度(〜15%),射血分数和分数缩短(〜10%)。新建的心肌细胞(BrdU pos / Ki67 pos )的心肌细胞直径(17.9±0.1μmvs. 14.9±0.6μm)vs(7.2±1.3%/ 1.9±0.7%vs 。0.2±0.1%/ 0.1±0.1%),心肌总细胞数(45.6±0.6×10 6 与42.5±0.4×10 6 ),c-kit < sup> pos eCSC值(每10 6 心肌细胞884±112 vs.每10 6 心肌细胞482±132)和毛细血管密度(每4 <123> 227) mm 2 与2117±118 / mm 2 相比,训练动物的LV明显大于CTRL(P <0.05)。减训练消除了刺激c-kit pos eCSC的刺激(每10 6 心肌细胞640±98)和导致的心肌细胞增生(0.4±0.3%BrdU pos /0.2±0.2%Ki67 pos 心肌细胞)。训练后毛细血管密度(3673±374 / mm 2 )和总心肌细胞数(44.7±0.5×10 6 )仍升高,但心肌细胞肥大(15.0±0.4μm)通过运动训练获得的解剖学参数(壁厚约4%; LV质量约10%,心脏质量约8%,比CTRL高)和功能参数(EF和FS约比CTRL高2%)减少。这些发现表明,经过类似的训练时间后,经过4周的强度控制运动训练产生的心脏适应性丧失了。

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