为防治蓝藻水华,从超声的生物效应出发提出了新的抑藻思路。
To prevent water bloom, a new method of inhibiting cyanobacteria's growth was presented based on the bio-effect of ultrasound.
根据其他研究团队既往的试验,该小组认识到超声波可对组织产生物理效应。
The team knew from experiments done by other groups of researchers that ultrasound can have a physical effect on tissue.
近几年,国内外学者利用超声联合微泡造影技术所产生的生物学效应,实现了微泡造影剂携载药物和基因对肿瘤的靶向治疗。
Resently years, researchers utilize biological effects generated by microbubble contrast agent combined ultrasound techniques to implement therapy of tumor by microbubble carrying drug and gene.
设计了一个超声频率、超声功率和辐射时间三因素四水平的正交实验,研究超声辐射对海水小球藻的生物效应。
In this study, a three factor and four level orthogonal experiment was designed to study the biologic effect of ultrasonic radiation on Marine Chlorella.
目前,噪声的生物效应多集中于研究音频噪声造成的危害,而关于超声波清洗空化噪声对生物体生理机能影响的研究还未见报道。
Nowadays, studies on biological effects of noise are mostly focused on the effect of audio noise, but studies of the effect of ultrasonic cleaning noise on human haven't been found yet.
在理论上有这样的可能性,即诊断性超声和超声造影剂的相互作用会产生生物效应。
There is a theoretical possibility that the interaction of diagnostic ultrasound and UCA could produce bioeffects.
剖析了超声波的声学性质、超声空化效应及其与生物介质相互作用的机理;
The acoustic properties of ultrasound and the interaction of biomaterial and cavitation are analyzed.
空化效应是超声的主要生物学效应之一。
空化效应是超声的主要生物学效应之一。
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