人们相信它通过抑制肝糖分泌,以及提高外周组织对胰岛素的灵敏度,发挥作用。
It is believed to work by inhibiting hepatic glucose production and increasing the sensitivity of peripheral tissue to insulin.
经SP受体的介导,不仅可通过扩张外周阻力血管而降低动脉血压,而且能抑制心肌收缩性能。
Theresults showed that hy receptor of SP, the Possible cause of hypotension may be a reduction ofperipheral resistance, or the inhibition of the cardiac contractility.
目的:观察在体外混合培养条件下,抗原能否诱导外周淋巴细胞反应抑制,建立体外淋巴细胞反应抑制模型。
AIM: To observe whether antigens can induce the restrained peripheral lymphocytes response under mixed culture in vitro, and establish a model of restrained lymphocytes response in vitro.
结论免疫抑制剂fk506能促进外周神经端-侧吻合后神经再生的速度和质量。
Conclusion Immunosuppresssant FK506 could promote nerve regenerative speed and quality after end-to-side neurorrhaphy of peripheral nerve.
结论自体心包外周支持能抑制静脉移植物内膜的增生。
Conclusion Perivenous support of the vein graft with autologous pericardium can reduce intimal and medial hyperplasia in the graft.
结论:米力农损害了胰岛素抑制脂解和肝糖输出的能力及胰岛素介导的外周组织糖的利用。
CONCLUSION: These data suggest that milrinone impaires the abilities of insulin to suppress lipolysis and HGP, and insulin-mediated glucose utilization in peripheral tissue.
结果外周给予二巯丙磺钠能有效抑制急性中毒动物的强直性惊厥,显著提高CD97,降低死亡数;
RESULTS Peripheral administration of trace DMPS effectively inhibited tetanic convulsion and significantly elevated CD97 and reduced the death number in acutely poisoned animals.
近年研究发现,脂肪酸合成酶抑制剂C75可以抑制小鼠进食量,增加外周能量消耗,因而具有减轻小鼠体重的作用。
Only recently has it been appreciated that C75, the inhibitor of fatty acid synthase can make mice lose weight via reducing food intake and increasing energy consumption.
行为学结果显示,阻断外周5-HT_(2A)受体能够明显抑制慢性炎症及神经病理性痛引发的热痛觉过敏。
The behavior results showed that blocking peripheral 5-HT_(2A)receptors inhibited the thermal hyperalgesia in inflammatory and neuropathic pain.
这些元素的多样化组合产生不同的梯度水平,高性能梯度系统能成功抑制外周神经刺激。
A variety of configurations of these elements results in a range of gradient performance levels, and successful prohibition of peripheral nerve stimulation while providing high gradient performance.
这些元素的多样化组合产生不同的梯度水平,高性能梯度系统能成功抑制外周神经刺激。
A variety of configurations of these elements results in a range of gradient performance levels, and successful prohibition of peripheral nerve stimulation while providing high gradient performance.
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