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用于介导和监测血脑屏障渗透的治疗诊断型载超顺磁性氧化铁微泡

Theranostic USPIO-Loaded Microbubbles for Mediating and Monitoring Blood-Brain Barrier Permeation.

作者信息

Lammers Twan, Koczera Patrick, Fokong Stanley, Gremse Felix, Ehling Josef, Vogt Michael, Pich Andrij, Storm Gert, van Zandvoort Marc, Kiessling Fabian

机构信息

Department for Experimental Molecular Imaging University Clinic and Helmholtz Institute for Biomedical Engineering RWTH Aachen University Pauwelsstrasse 20, 52074 Aachen (Germany) Tel: +49-241-8080116; ; Department of Controlled Drug Delivery MIRA Institute for Biomedical Engineering and Technical Medicine University of Twente, Enschede (The Netherlands); Department of Pharmaceutics Utrecht Institute for Pharmaceutical Sciences Utrecht University, Utrecht (The Netherlands).

Department for Experimental Molecular Imaging University Clinic and Helmholtz Institute for Biomedical Engineering RWTH Aachen University Pauwelsstrasse 20, 52074 Aachen (Germany) Tel: +49-241-8080116.

出版信息

Adv Funct Mater. 2015 Jan 7;25(1):36-43. doi: 10.1002/adfm.201401199.

DOI:10.1002/adfm.201401199
PMID:25729344
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4340520/
Abstract

Efficient and safe drug delivery across the blood-brain barrier (BBB) remains to be one of the major challenges of biomedical and (nano-) pharmaceutical research. Here, we show that poly(butyl cyanoacrylate)-based microbubbles (MB), carrying ultrasmall superparamagnetic iron oxide (USPIO) nanoparticles within their shell, can be used to mediate and monitor BBB permeation. Upon exposure to transcranial ultrasound pulses, USPIO-MB are destroyed, resulting in acoustic forces inducing vessel permeability. At the same time, USPIO are released from the MB shell, they extravasate across the permeabilized BBB and they accumulate in extravascular brain tissue, thereby providing non-invasive R*-based magnetic resonance imaging information on the extent of BBB opening. Quantitative changes in R* relaxometry were in good agreement with 2D and 3D microscopy results on the extravascular deposition of the macromolecular model drug FITC-dextran into the brain. Such theranostic materials and methods are considered to be useful for mediating and monitoring drug delivery across the BBB, and for enabling safe and efficient treatment of CNS disorders.

摘要

实现高效且安全的药物通过血脑屏障(BBB)递送仍然是生物医学和(纳米)药物研究的主要挑战之一。在此,我们表明,基于聚氰基丙烯酸丁酯的微泡(MB),其壳内携带超小超顺磁性氧化铁(USPIO)纳米颗粒,可用于介导和监测血脑屏障的渗透。在受到经颅超声脉冲照射后,USPIO-MB被破坏,产生的声学力会诱导血管通透性增加。与此同时,USPIO从MB壳中释放出来,它们通过通透性增加的血脑屏障渗出并积聚在血管外脑组织中,从而提供基于R的非侵入性磁共振成像信息,以了解血脑屏障开放的程度。R弛豫测量法的定量变化与二维和三维显微镜观察结果高度一致,后者显示了大分子模型药物异硫氰酸荧光素标记的葡聚糖在血管外沉积到大脑中的情况。这种治疗诊断材料和方法被认为有助于介导和监测药物通过血脑屏障的递送,并实现对中枢神经系统疾病的安全有效治疗。

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