靶向超声微泡属于“超声分子影像学”的范畴。
Research on targeted ultrasonic microbubbles belongs to the field of "ultrasonic molecular imaging".
微泡可能成为靶向治疗的载体,超声造影剂作为一种新型、无创的运载系统具有广阔的应用前景。
Microbubble may be a vector for target treatment. Therefore, ultrasound contrast agent as an new and non-invasive vector for treatment holds considerable promises.
同时采用超声辐射力法以增加靶向性微泡造影剂在血管壁上的黏附效率,改善成像的性能。
Meanwhile, the ultrasonic radiation force method is used to get the higher adhering efficiency for the targeted micro-bubble contrast agent, which will improve the imaging quality.
其中靶向微泡对比剂经静脉注射可到达特定靶区,低功率超声作用下可提高局部组织显影的分辨率。
Targeted micro-bubble contrast agent can reach a specific target via intravenous injection, and improve the resolution of local tissues under the action of low power ultrasound imaging.
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.
结论靶向超声纳米对比剂具有特异性和敏感性,纳米级微泡造影剂用于超声造影增强是完全可行的。
Conclusion Targeted nano ultrasound contrast agents are specific and sensitive, nanoscale for ultrasound microbubble contrast enhancement is completely feasible.
结论靶向超声纳米对比剂具有特异性和敏感性,纳米级微泡造影剂用于超声造影增强是完全可行的。
Conclusion Targeted nano ultrasound contrast agents are specific and sensitive, nanoscale for ultrasound microbubble contrast enhancement is completely feasible.
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