超声造影剂的靶向性。体外可行性研究。

Acta radiologica. Supplementum Pub Date : 1997-01-01
A L Klibanov, M S Hughes, J N Marsh, C S Hall, J G Miller, J H Wible, G H Brandenburger
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引用次数: 0

摘要

目的:设计一种靶向性的微泡超声造影剂,在超声检查中选择性地结合身体感兴趣的区域,增强靶器官。材料和方法:我们研究了模型系统中靶向的可行性。我们使用亲和素和生物素作为模型配体-受体对。亲和素吸附在聚苯乙烯表面,生物素衍生物附着在微泡壳上。从微泡中去除未掺入的生物素后,允许它们与亲和素包被或白蛋白包被的塑料接触。一股水流冲刷着松散的气泡。结果:微泡与表面的结合在亲和素层沉积的区域有选择性地发生。微泡与亲和素层的结合取决于微泡壳中生物素的掺入量。游离生物素的存在完全阻断了靶向。声学研究使用定制的超声测量仪和超声医学成像系统进行。超声成像清晰地显示了塑料盘的微泡包覆区域。当微泡表面密度低至3%时,获得了较强的后向散射信号。结论:微泡通过配体-受体系统在体外具有选择性靶向作用。已经实现了微气泡与亲和素涂层表面的牢固结合。超声成像系统显示了沉积在靶上的微泡。
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Targeting of ultrasound contrast material. An in vitro feasibility study.

Purpose: It would be beneficial to design a targetable microbubble ultrasound contrast agent that would selectively bind to the areas of interest in the body and enhance the target organ in the ultrasound examination.

Material and methods: We have studied the feasibility of targeting in a model system. We used avidin and biotin as a model ligand-receptor pair. Avidin was adsorbed on the surface of polystyrene, and biotin derivative was attached to microbubble shells. After removal of unincorporated biotin from the microbubbles, they were allowed to come in contact with avidin-coated or albumin-coated plastic. Unbound bubbles were washed by a stream of water.

Results: Binding of microbubbles to the surface occurred selectively in the areas where avidin layer was deposited. Binding of microbubbles to avidin layer was dependent on the amount of biotin incorporated in the microbubble shell. Presence of free biotin blocked targeting completely. Acoustic studies were performed using a custom-built ultrasound measurement apparatus and an ultrasound medical imaging system. Microbubble-coated areas of the plastic dish were clearly visualized with ultrasound imaging. A strong backscattered signal was obtained for microbubble surface densities as low as 3%.

Conclusion: Microbubbles have been selectively targeted via a ligand-receptor system in vitro. Firm binding of microbubbles to avidin-coated surface has been achieved. Microbubbles deposited on the target were visualized with ultrasound imaging systems.

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