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作 者:韩鹏[1] 汪洋[1] 朱斌[1] Han Peng;Wang Yang;Zhu Bin(Radiological Department of Drum Tower Hospital,Medical School of Nanjing University,Jiangsu Nanjing 210008,China.)
机构地区:[1]南京大学医学院附属鼓楼医院放射科,江苏南京210008
出 处:《现代肿瘤医学》2018年第19期3038-3042,共5页Journal of Modern Oncology
摘 要:目的:研究并评价基于全氟己烷的新型纳米超声造影剂的可行性。方法:本实验首先设计并成功制备了一种全新的全氟己烷(PFH)-光敏剂(IR780)脂质体纳米粒[LIP(PFH+IR780)]。该纳米粒可在近红外光激发下,由IR780产热升温,触发PFH气化产生大量微泡。对LIP(PFH+IR780)进行粒径测定、光镜成像,明确性质。并在体外及体内对该纳米粒子进行超声成像,验证LIP(PFH+IR780)的超声增强效果。结果:通过体外表征,证实该纳米粒粒径为250 nm左右。经过体外超声实验发现,LIP(PFH+IR780)较对照组使得超声回声明显增强。荷瘤小鼠体内实验发现,LIP(PFH+IR780)可以有效蓄积在肿瘤部位,并且同样使得超声图像得到显著增强。结论:LIP(PFH+IR780)纳米粒子在超声造影成像上具有一定的应用价值。Objective:To explore whether perflexane based liposome nanoparlicles can be used as ultrasound contrast agent. Methods:Firstly,we had designed and synthesized a creatively size -variable liposome nanoparficle I LIP (PFH + IR780) ] with perfluorohexane(PFH) liquid and photosensitizer IR780 loaded in. When irradiated by near - ilffrared light last for 1 rain, PFH nano-droplet vaporized into micro - bubble by heated from IR780. Then we conducted experimental study on ultrasound images both in vitro and in vivo, and analyzed data finally. Results:After successful synthesis and size measurement, the diameter of LIP( PFH + IR780) reached to about 250 nm that was easier to accumulated into tumor under enhanced permeabiliU and retention(EPR) effect. Through ultrasound experiment in vitro,we found a more enhanced ultrasound image was made by LIP( PFH + IR780) than others,as same as the experiment in vivo. Conclusion:Hence, perfluorohexane based liposome nanoparticles have a promising application prospective on ultrasound enhanced imaging.
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