nmb
- 网络nmb;神经肌肉阻滞;日本;美蓓亚;日本美蓓亚;美培亚
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The results showed as following : NMB was suitable for the callus induction , and MS for differentiation .
结果表明:NMB培养基适合水稻成熟胚盾片愈伤组织诱导,MS培养基适合愈伤分化;
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Conclusions Facial nerve monitoring can be performed even during the 100 % NMB level by atracurium , with significant elevated stimulating thresholds .
结论阿曲库铵应用后周围神经肌肉阻滞达100%时依然可以进行面神经监测,但刺激电流阈值显著增大;
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Objective To study the feasibility of monitoring intense neuromuscular blockade ( NMB ) with post tetanic burst ( PTB ) .
目的研究肌电图型强直后单爆发刺激(PTB)在监测深度非去极化阻滞中的作用。
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The results showed that the best media NN ( NMB + NB ) were in favor of the induction and regeneration of embryonic callus .
试验结果表明:培养基组合NN(NMB+NB)有利于胚性愈伤组织的诱导和分化。
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CONCLUSION NMB could increase IK · Ca in the rat mesenteric resistance vascular smooth muscle cells , which may be one of the mechanisms of lowering blood pressure .
结论N甲基小檗胺可以增加大鼠肠系膜阻力血管平滑肌细胞IK·Ca,这可能是其降血压机制之一。
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A novel amperometric hydrogen peroxide sensor is proposed by co-immobilizing new methylene blue ( NMB ) and horseradish peroxidase ( HRP ) on glassy carbon electrode .
利用共价键合法,将新亚甲蓝(NMB)与辣根过氧化酶(HRP)修饰于玻碳电极表面,制成一种新型的电流型H2O2传感器。
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AIM To investigate the effect of N methyl berbamine ( NMB ) on ATP sensitive potassium currents ( I KATP ) in single ventricular myocytes of guinea pig .
目的研究N甲基小檗胺对豚鼠单一心室肌细胞ATP敏感钾电流的作用。
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Aim To investigate the effect of N-methyl berbamine ( NMB ) on calcium-activated potassium currents ( I_ K · Ca ) in rat mesenteric artery smooth muscle cells .
目的研究N-甲基小檗胺对大鼠肠系膜阻力血管平滑肌细胞钙激活钾电流(IK·Ca)的作用,以阐明其降血压的离子机制。
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AIM The previous studies on animals showed that N - methyl berbamine ( NMB ) could inhibit ATP sensitive potassium current and Ca 2 + current in ventricular myocytes of guinea pig and play an effective role in arrhythmia and myocardial ischemia .
目的动物实验表明N甲基小檗胺(NMB)通过抑制豚鼠心室肌细胞ATP敏感性钾电流和钙电流来发挥抗心律失常和抗心肌缺血作用,故进一步研究NMB对人心肌细胞电流的作用。
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Results : ( 1 ) T 1 ( first twitch height of TOF ) at submaximal CS is lower than that at supramaximal CS , but it has not clinical significance for monitoring of non depolarizing NMB ;
结果:(1)用亚强刺激测得的T1值(TOF中的第一个颤搐反应高度)虽降低,但可能在监测非去极化阻滞中无实际意义;