超声破坏血脑屏障后血脑屏障关闭的动态研究:定量分析。
Dynamic study of blood-brain barrier closure after its disruption using ultrasound: a quantitative analysis.
机构信息
NeuroSpin, IBM, Commissariat à l'Énergie Atomique, Gif-sur-Yvette, France.
出版信息
J Cereb Blood Flow Metab. 2012 Oct;32(10):1948-58. doi: 10.1038/jcbfm.2012.100. Epub 2012 Jul 18.
Abstract
Delivery of therapeutic or diagnostic agents to the brain is majorly hindered by the blood-brain barrier (BBB). Recently, many studies have demonstrated local and transient disruption of the BBB using low power ultrasound sonication combined with intravascular microbubbles. However, BBB opening and closure mechanisms are poorly understood, especially the maximum gap that may be safely generated between endothelial cells and the duration of opening of the BBB. Here, we studied BBB opening and closure under magnetic resonance (MR) guidance in a rat model. First, MR contrast agents (CA) of different hydrodynamic diameters (1 to 65 nm) were employed to estimate the largest molecular size permissible across the cerebral tissues. Second, to estimate the duration of the BBB opening, the CA were injected at various times post-BBB disruption (12 minutes to 24 hours). A T(1) mapping strategy was developed to assess CA concentration at the ultrasound (US) focal point. Based on our experimental data and BBB closure modeling, a calibration curve was obtained to compute the half closure time as a function of CA hydrodynamic diameter. These findings and the model provide an invaluable basis for optimal design and delivery of nanoparticles to the brain.
摘要
治疗或诊断剂递送至大脑主要受到血脑屏障(BBB)的阻碍。最近,许多研究表明,使用低功率超声处理联合血管内微泡可局部且短暂地破坏 BBB。然而,BBB 开放和关闭的机制尚不清楚,特别是内皮细胞之间可能安全产生的最大间隙和 BBB 开放的持续时间。在这里,我们在大鼠模型中在磁共振(MR)引导下研究了 BBB 的开放和关闭。首先,使用不同水动力直径(1 至 65nm)的磁共振对比剂(CA)来估计可穿过脑组织的最大分子尺寸。其次,为了估计 BBB 开放的持续时间,在 BBB 破坏后不同时间(12 分钟至 24 小时)注射 CA。开发了 T(1)映射策略来评估超声(US)焦点处的 CA 浓度。基于我们的实验数据和 BBB 关闭模型,获得了校准曲线,可计算 CA 水动力直径的半关闭时间作为函数。这些发现和模型为将纳米颗粒递送至大脑的最佳设计和输送提供了宝贵的基础。
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