排序方式: 共有25条查询结果,搜索用时 15 毫秒
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目的: 探讨薏苡叶和淫羊藿及其配伍的耐缺氧抗疲劳作用。方法: 按体重随机将小鼠平均分为6组:空白对照组、薏苡叶组、淫羊藿组、薏苡叶淫羊藿1∶1配比低中高3个剂量实验组。3个剂量实验组分别给予1.5,4.5,7.5 g·kg-1·d-1的对应浓度提液,空白对照组灌以生理盐水,薏苡叶组和淫羊藿组分别给予1.5 g·kg-1·d-1浓度的对应提取液,连续灌胃21 d后,观察不同剂量的实验组对小鼠游泳时间,常压耐缺氧时间、爬杆时间、断头后呼吸维持时间及肝重系数的影响。结果: 与对照组比较,实验组抗缺氧耐疲劳作用较好(P<0.05),其中中剂量组差异均极显著(P<0.01)。在抗疲劳实验、肝重系数及断头后呼吸方面体现出两味药配伍具有复合作用(P<0.05),而在常压耐缺氧方面并未表现出复合作用。结论: 薏苡叶和淫羊藿及其配伍对抗疲劳有显著的复合作用,中剂量组耐缺氧抗疲劳效果最好。在耐缺氧方面仅对肝重系数与断头呼吸时间上体现出复合作用。 相似文献
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支链氨基酸的抗疲劳作用 总被引:2,自引:0,他引:2
支链氨基酸作为必需氨基酸,不仅是合成机体蛋白质的原料,而且具有特殊的生理、生物学功能。其代谢与抗疲劳作用的机理在本文中进行了详细阐述。 相似文献
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柴达木盆地唐古特白刺果实调节免疫、抗疲劳和耐寒冷作用研究 总被引:5,自引:0,他引:5
采用环磷酰胺所致的免疫功能低下的模型小鼠试验柴达木盆地唐古特白刺果实的免疫调节作用,并进行了抗疲劳和耐寒冷试验。结果显示:唐古特白刺果实3.6g/kg灌胃剂量能显著增强模型小鼠单核巨噬细胞吞噬功能、迟发性超敏反应;1.8g/kg和3.6/kg灌胃剂量能显著提高模型小鼠血清溶血素生成能力;3.6g/kgg灌胃剂量可显著减轻环磷酰胺对小鼠胸腺DNA含量的抑制作用;3.6g/kg灌胃剂量能显著延长小鼠的游泳时间和爬杆时间,并能提高小鼠在低温的存活时间。实验表明唐古特白刺果实具有调节免疫、抗疲劳和耐寒冷作用。 相似文献
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为探讨淫羊藿苷(icariin,ICA)对小鼠力竭游泳时间及力竭恢复小鼠血清生化指标的影响,对小鼠以不同剂量的ICA灌胃12 d,进行一次性力竭游泳,恢复24 h后,用超微量微孔板分光光度计测定小鼠血清的丙氨酸转氨酶(ALT)、天冬氨酸转氨酶(AST)活性和丙二醛(MDA)、血尿素氮(BUN)、血糖(SG)含量,用聚丙烯酰胺凝胶电泳分析乳酸脱氢酶(LDH)同工酶.结果表明,ICA中剂量组小鼠力竭游泳时间明显延长(P<0.05),血清的ALT、AST活性和MDA、BUN含量以及LDH总活力与对照组相比都有显著性降低(P<0.05),SG无显著性差异(P>0.05).结果说明,淫羊藿苷中剂量组具有较强的抗疲劳作用. 相似文献
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通过观察小鼠负重力竭游泳时间探讨精氨酸-酮戊二酸盐(精酮合剂,AAKG)对小鼠的抗疲劳作用,分别测定小鼠游泳前后血清尿素含量、肝糖原含量、全血乳酸含量等指标以探讨AAKG抗疲劳机制。结果表明,经AAKG处理过的小鼠负重游泳时间(4.71±1.36min)比对照组小鼠(3.01±0.46min)明显延长(P<0.05),AAKG组小鼠血清尿素氮含量(177.94±17.7mg/L)明显低于对照组(202.38±8.95mg/L)(P<0.05),AAKG组小鼠乳酸曲线下面积(85.88±9.74mmol/L)也显著低于对照组(112.82±17.10mmol/L)(P<0.05),而AAKG组小鼠肝糖原含量(11.95±0.35mg/g)显著性高于对照组小鼠(8.42±0.97mg/g)(P<0.05)。本实验结果表明AAKG具有较好的抗疲劳作用,推测与其能够提高小鼠代谢能力和增强应激能力有关。 相似文献
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观察人参皂甙Rg1与1,6-二磷酸果糖配伍的抗疲劳效果,寻找最佳配伍剂量。根据雄性清洁级昆明种小鼠按体重随机分为安静对照组、运动对照组、人参皂甙Rg1对照组及4个配伍组。通过析因实验设计分析人参皂甙Rg1与1,6-二磷酸果糖提高运动耐力的效果及两者的交互作用。结果不同剂量人参皂甙Rg1对小鼠力竭游泳时间影响有显著差异(P<0.05)。各配伍组力竭游泳时间均有显著延长,C组延长最显著;与人参皂甙Rg1对照组相比,各配伍组力竭游泳时间均显著降低(P<0.01)。MDA含量A组显著低于运动对照组和D组,与安静对照组相比,各组均升高。SOD/MDA比值A、C组显著高于运动对照组,C组显著高于人参皂甙Rg1对照组,与安静对照组相比,各组均有下降趋势,D组下降最显著(P<0.01)。乳酸脱氢酶C、D组显著低于运动对照组和人参皂甙Rg1对照组(P<0.05)。与运动对照组及人参皂甙Rg1对照组相比,配伍在一定程度上减少心肌、骨骼肌细胞线粒体和其他细胞超微结构损伤。结论:与FDP配伍未能延长小鼠力竭游泳时间,配伍可减轻耐力运动对小鼠心肌和骨骼肌的细胞损害,一定程度上保护线粒体的呼吸功能,缓解细胞缺氧损伤。 相似文献
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《Bioscience, biotechnology, and biochemistry》2013,77(10):2294-2296
The anti-stress and anti-fatigue effects on rats and mice of a hot water extract of rice bran fermented with Saccharomyces cerevisae IFO 2346 were investigated. Oral administration (1 g/kg/day) of the hot water extract of fermented rice bran (FRB) inhibited major changes in the weight of the adrenal, thymus, spleen and thyroid, showing an anti-stress effect. The hot water extract of FRB also inhibited increases in the GPT and LDH activity, cholesterol and glucose in the serum. The administration (1 g/kg/day) for 2 weeks significantly prolonged the swimming time, resulting in an increase in the anti-fatigue effect. It is considered from these results that FRB had anti-stress and anti-fatigue effects. 相似文献
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Sung-Keun Choi Seung-Hui Baek Seung-Wook Choi 《Journal of Exercise Nutrition & Biochemistry》2013,17(4):189-198
The purpose of this study was to find the effect of endurance training and thiamine supplementation on anti-fatigue during the exercise. Each nine students from K Women’s University went through three cross-over treatments: placebo treatment, training treatment and thiamine treatment. Training treatment was performed with bicycle ergometer exercise for four weeks (five days per week). Each exercise was performed for an hour with intensity set at 70% (50rpm) of maximal oxygen uptake. Thiamine treatment group was given 10mg of thiamine tetrahydrofurfuryl disulfide per one kilogram for four weeks. The bicycle ergometer exercise was performed at 70% of maximal oxygen uptake in exercise intensity which 60 minutes of exercise was performed at 50rpm . Lactate concentration was significantly decreased during 15 to 30 minutes of exercise for those with training treatment and 15 to 60 minutes of exercise for those with thiamine treatment compared to placebo treatment group. Ammonia concentration was significantly decreased during 15 to 60 minutes of exercise and 15 to 30 minutes of recovery for those with training and thiamine treatment compared to placebo treatment. Resting blood thiamine concentrations of placebo treatment were significantly lower than training treatment. 60 minutes after the exercise, plasma thiamine concentration was significantly increased in all treatment group. To sum up the previous, thiamine intake during exercise positively benefits carbohydrate metabolism in a way that will decrease lactate concentration, ammonia concentration, and anti- fatigue by reducing the RPE. Therefore, we can consider thiamine intake to be utilized as similar benefits as endurance training. 相似文献
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