结论采用套囊压力计监测套囊内压力是一种科学、理想的方法。
Method A and B are not reliable to prevent excessive cuff pressure.
这个巨型浮囊内部有一套自给自足的生态系统,其利用太阳产生自身所需的能源,并通过生物过滤来减少水源污染。
The Physalia is a self-sufficient ecosystem that generates all the power it needs from the sun and works to reduce water pollution through bio-filtration .
目的提出一种力学办法,并设计一套实验装置建立囊状动脉瘤动物模型。
Objective To propose the mechanical method and design the experimental devices for establishing the saccular aneurysm animal model.
这个巨型浮囊内部有一套自给自足的生态系统,其利用太阳产生自身所需的能源,并通过生物过滤来减少水源污染。
The Physalia is a self-sufficient ecosystem that generates all the power it needs from the sun and works to reduce water pollution through bio-filtration.
本实用新型涉及一种体外反搏治疗用囊套。
The utility model relates to a bag used for external counterpulsation treatment, comprising a bag body and a fixing piece.
在所述的弹性球囊内腔的内管上,在弹性球囊的上端和下端各固定套有一个金属标记环。
Metal mark rings are respectively sheathed on the inner tube in the inner cavity of the elastic saccule and the upper and the lower ends of the elastic saccule.
基于中蜂囊状幼虫病病毒基因组序列AF469603中的RNA依赖的RNA聚合酶基因,建立该病毒的半套式RT-PCR检测方法。
A specific semi-nested RT-PCR based on the RNA-dependent RNA polymerase gene in AF469603 of Chinese bee (Apis sinensis) sacbrood virus was established to detect Chinese bee sacbrood virus.
基于中蜂囊状幼虫病病毒基因组序列AF469603中的RNA依赖的RNA聚合酶基因,建立该病毒的半套式RT-PCR检测方法。
A specific semi-nested RT-PCR based on the RNA-dependent RNA polymerase gene in AF469603 of Chinese bee (Apis sinensis) sacbrood virus was established to detect Chinese bee sacbrood virus.
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