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扩散机制增强了顺磁全氟碳纳米粒子中的氟磁共振弛豫,为检测细胞内体激活提供了“弛豫开关”。

Diffusional mechanisms augment the fluorine MR relaxation in paramagnetic perfluorocarbon nanoparticles that provides a "relaxation switch" for detecting cellular endosomal activation.

机构信息

Department of Physics, Washington University in St. Louis, Missouri, USA.

出版信息

J Magn Reson Imaging. 2011 Sep;34(3):653-61. doi: 10.1002/jmri.22656. Epub 2011 Jul 14.

Abstract

PURPOSE

To develop a physical model for the (19)F relaxation enhancement in paramagnetic perfluorocarbon nanoparticles (PFC NP) and demonstrate its application in monitoring cellular endosomal functionality through a "(19)F relaxation switch" phenomenon.

MATERIALS AND METHODS

An explicit expression for (19)F longitudinal relaxation enhancement was derived analytically. Monte-Carlo simulation was performed to confirm the gadolinium-induced magnetic field inhomogeneity inside the PFC NP. Field-dependent T(1) measurements for three types of paramagnetic PFC NPs were carried out to validate the theoretical prediction. Based on the physical model, (19)F and (1)H relaxation properties of macrophage internalized paramagnetic PFC NPs were measured to evaluate the intracellular process of NPs by macrophages in vitro.

RESULTS

The theoretical description was confirmed experimentally by field-dependent T(1) measurements. The shortening of (19)F T(1) was found to be attributed to the Brownian motion of PFC molecules inside the NP in conjunction with their ability to permeate into the lipid surfactant coating. A dramatic change of (19)F T(1) was observed upon endocytosis, revealing the transition from intact bound PFC NP to processed constituents.

CONCLUSION

The proposed first-principle analysis of (19)F spins in paramagnetic PFC NP relates their structural parameters to the special MR relaxation features. The demonstrated "(19)F relaxation switch" phenomenon is potentially useful for monitoring cellular endosomal functionality.

摘要

目的

开发一种用于顺磁全氟碳纳米粒子(PFC NP)中(19)F 弛豫增强的物理模型,并通过“(19)F 弛豫开关”现象证明其在监测细胞内体功能中的应用。

材料和方法

通过解析推导了(19)F 纵向弛豫增强的显式表达式。通过蒙特卡罗模拟证实了 PFC NP 内钆诱导的磁场不均匀性。进行了三种类型的顺磁 PFC NP 的场依赖性 T(1)测量,以验证理论预测。基于该物理模型,测量了巨噬细胞内化的顺磁 PFC NP 的(19)F 和(1)H 弛豫特性,以评估体外巨噬细胞内 NP 的细胞内过程。

结果

理论描述通过场依赖性 T(1)测量得到了实验验证。发现(19)F T(1)的缩短归因于 NP 内 PFC 分子的布朗运动以及它们渗透到脂质表面活性剂涂层的能力。在胞吞作用后观察到(19)F T(1)的急剧变化,揭示了从完整结合的 PFC NP 到加工成分的转变。

结论

提出的顺磁 PFC NP 中(19)F 自旋的第一性原理分析将其结构参数与特殊的磁共振弛豫特征联系起来。所证明的“(19)F 弛豫开关”现象可能有助于监测细胞内体功能。

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