Focused Ultrasound Preconditioning for Augmented Nanoparticle Penetration and Efficacy in the Central Nervous System

Brian P. Mead; Colleen T. Curley; Namho Kim; Karina Negron; William J. Garrison; Ji Song; Divya Rao; G. Wilson Miller; James W. Mandell; Benjamin W. Purow; Jung Soo Suk; Justin Hanes; Richard J. Price

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Focused Ultrasound Preconditioning for Augmented Nanoparticle Penetration and Efficacy in the Central Nervous System

机译：中枢神经系统中增强纳米粒子渗透和功效的聚焦超声预处理

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Microbubble activation with focused ultrasound (FUS) facilitates the noninvasive and spatially-targeted delivery of systemically administered therapeutics across the blood-brain barrier (BBB). FUS also augments the penetration of nanoscale therapeutics through brain tissue; however, this secondary effect has not been leveraged. Here, 1 MHz FUS sequences that increase the volume of transfected brain tissue after convection-enhanced delivery of gene-vector "brain-penetrating" nanoparticles were first identified. Next, FUS preconditioning is applied prior to trans-BBB nanoparticle delivery, yielding up to a fivefold increase in subsequent transgene expression. Magnetic resonance imaging (MRI) analyses of tissue temperature and K_(trans) confirm that augmented transfection occurs through modulation of parenchymal tissue with FUS. FUS preconditioning represents a simple and effective strategy for markedly improving the efficacy of gene vector nanoparticles in the central nervous system.

机译：微泡激活具有聚焦超声（FUS）促进在血脑屏障（BBB）上系统施用的治疗性的非侵入性和空间靶向递送。 Fus还增加了纳米级治疗剂通过脑组织的渗透; 但是，这种二次效应尚未得到利用。这里，首先鉴定出在对对流 - 载体“脑穿透”纳米粒子的对流增强递送后转染的脑组织体积的1MHz FUS序列。接下来，在反式-BBB纳米颗粒递送之前施加FUS预处理，从而达到随后的转基因表达中的五倍增加。组织温度和K_（Trans）的磁共振成像（MRI）分析确认通过用FUS的实质组织调节进行增强转染。 Fus预处理代表了一种简单有效的策略，可显着提高基因载体纳米粒子在中枢神经系统中的功效。

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《Small》 |2019年第49期|共6页
作者
Brian P. Mead; Colleen T. Curley; Namho Kim; Karina Negron; William J. Garrison; Ji Song; Divya Rao; G. Wilson Miller; James W. Mandell; Benjamin W. Purow; Jung Soo Suk; Justin Hanes; Richard J. Price;
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作者单位

Department of Biomedical Engineering University of Virginia Charlottesville VA 22908 USA;

Department of Biomedical Engineering University of Virginia Charlottesville VA 22908 USA;

Center for Nanomedicine at the Wilmer Eye Institute Johns Hopkins University School of Medicine Baltimore MD 21231 USA;

Center for Nanomedicine at the Wilmer Eye Institute Johns Hopkins University School of Medicine Baltimore MD 21231 USA;

Department of Biomedical Engineering University of Virginia Charlottesville VA 22908 USA;

Department of Biomedical Engineering University of Virginia Charlottesville VA 22908 USA;

Center for Nanomedicine at the Wilmer Eye Institute Johns Hopkins University School of Medicine Baltimore MD 21231 USA;

Department of Biomedical Engineering University of Virginia Charlottesville VA 22908 USA;

Department of Pathology University of Virginia Charlottesville VA 22908 USA;

Department of Neurology University of Virginia Charlottesville VA 22908 USA;

Center for Nanomedicine at the Wilmer Eye Institute Johns Hopkins University School of Medicine Baltimore MD 21231 USA;

Center for Nanomedicine at the Wilmer Eye Institute Johns Hopkins University School of Medicine Baltimore MD 21231 USA;

Department of Biomedical Engineering University of Virginia Charlottesville VA 22908 USA;

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原文格式 PDF
正文语种 eng
中图分类特种结构材料;
关键词
focused ultrasound; microbubbles; nanoparticles; nonviral gene delivery;

机译：聚焦超声;微泡;纳米颗粒;非血管基因递送;

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专利

1. Focused Ultrasound Preconditioning for Augmented Nanoparticle Penetration and Efficacy in the Central Nervous System [J] . Brian P. Mead, Colleen T. Curley, Namho Kim, Small . 2019,第49期

机译：中枢神经系统中增强纳米粒子渗透和功效的聚焦超声预处理
2. Focused Ultrasound Immunotherapy for Central Nervous System Pathologies: Challenges and Opportunities [J] . Colleen T. Curley, Natasha D. Sheybani, Timothy N. Bullock, Theranostics . 2017,第15期

机译：集中的超声免疫治疗中枢神经系统病理：挑战与机遇
3. Focused Ultrasound Enhances Central Nervous System Delivery of Bevacizumab for Malignant Glioma Treatment [J] . Newman W. Christopher, Amankulor Nduka A. Clinical neurosurgery. . 2016,第6期

机译：聚焦超声增强贝伐单抗用于恶性胶质瘤治疗的中枢神经系统传递
4. Real-Time Displacement and Cavitation Imaging of Non-Invasive Neuromodulation of the Peripheral Nervous System via Focused Ultrasound [C] . Stephen A. Lee, Hermes A.S. Kamimura, Mark T. Burgess, IEEE International Ultrasonics Symposium . 2018

机译：通过聚焦超声对周围神经系统的非侵入性神经调节进行实时移位和空化成像
5. Modulation of adenosine triphosphate binding cassette transporters has differential effects on central nervous system penetration of camptothecin analogs. [D] . Zhuang, Yanli. 2006

机译：三磷酸腺苷结合盒转运蛋白的调节对喜树碱类似物的中枢神经系统渗透具有不同的作用。
6. Recent Advances in the Use of Focused Ultrasound for Magnetic Resonance Image-Guided Therapeutic Nanoparticle Delivery to the Central Nervous System [O] . Delaney G. Fisher, Richard J. Price 2019

机译：用于磁共振图像引导治疗性纳米粒子输送到中枢神经系统的磁共振图像引导的超声的最新进展
7. Recent Advances in the Use of Focused Ultrasound for Magnetic Resonance Image-Guided Therapeutic Nanoparticle Delivery to the Central Nervous System [O] . Delaney G. Fisher, Richard J. Price 2019

机译：用于磁共振图像引导治疗性纳米粒子输送到中枢神经系统的磁共振图像引导的超声的最新进展

Focused Ultrasound Preconditioning for Augmented Nanoparticle Penetration and Efficacy in the Central Nervous System

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