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本研究发现运动后血K+有下降趋势,对照组运动后24小时P<0.01,用药组P>0.05,血Na+、Cl-无变化。运动后尿K+增高,尿Na+、Cl-下降,用药组尿K+静息状态低于对照组,但运动后增幅大于对照组,尿Na+、Cl-低于对照组,分别为P<0.02,P<0.05。运动后血红细胞和血红蛋白下降。对照组运动后24小时分别为P<0.1,P<0.01,用药组血红细胞和血红蛋白略低于对照组(P>0.05),但运动后减少不显著,同时血红蛋白尿的发生率和人均含量低于对照组。运动后即刻血白细胞增高,对照组P<0.05,用药组P>0.05,运动后3小时进一步增高(P<0.01),达峰值。提示自由基清除合剂Ⅰ号配方能加强运动时的应激反应,促进Na+-K+交换,增加血容量,减少红细胞破坏。
The study found that blood K + after exercise decreased, the control group 24 hours after exercise P <0.01, the drug group P> 0.05, blood Na +, Cl- no change. After exercise, urinary K + increased, urine Na + and Cl- decreased. Urinary K + resting state in the medication group was lower than that in the control group, but the increase after exercise was greater than that in the control group. Urinary Na + and Cl- were lower than those in the control group , P <0.05. After exercise red blood cells and hemoglobin decreased. Control group 24 hours after exercise were P <0.1, P <0.01, the drug group of red blood cells and hemoglobin slightly lower than the control group (P> 0.05), but not significantly reduced after exercise, while hemoglobinuria The incidence and per capita content were lower than those in the control group. The white blood cells increased immediately after exercise in the control group, P <0.05, P <0.05 in the treatment group, and further increased 3 hours after exercise (P <0.01), reaching the peak. Tip free radical scavenging mixture Ⅰ formula can enhance the stress reaction during exercise to promote the exchange of Na + -K +, increase blood volume and reduce the destruction of red blood cells.