通过嗅觉黏膜采用改良的区域特异性鼻内给药技术实现对中枢神经系统的选择性靶向和分布。

Selective CNS Targeting and Distribution with a Refined Region-Specific Intranasal Delivery Technique via the Olfactory Mucosa.

作者信息

Maigler Frank, Ladel Simone, Flamm Johannes, Gänger Stella, Kurpiers Barbara, Kiderlen Stefanie, Völk Ronja, Hamp Carmen, Hartung Sunniva, Spiegel Sebastian, Soleimanizadeh Arghavan, Eberle Katharina, Hermann Rebecca, Krainer Lukas, Pitzer Claudia, Schindowski Katharina

机构信息

Institute of Applied Biotechnology, University of Applied Science Biberach, Hubertus-Liebrecht Straße 35, 88400 Biberach, Germany.

Faculty of Natural Science, University of Ulm, Albert-Einstein-Allee 11, 89081 Ulm, Germany.

出版信息

Pharmaceutics. 2021 Nov 10;13(11):1904. doi: 10.3390/pharmaceutics13111904.

DOI:10.3390/pharmaceutics13111904

PMID:34834319

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8620656/

Abstract

Intranasal drug delivery is a promising approach for the delivery of drugs to the CNS, but too heterogenous, unprecise delivery methods without standardization decrease the quality of many studies in rodents. Thus, the lack of a precise and region-specific application technique for mice is a major drawback. In this study, a previously developed catheter-based refined technique was validated against the conventional pipette-based method and used to specifically reach the olfactory or the respiratory nasal regions. This study successfully demonstrated region-specific administration at the olfactory mucosa resulting in over 20% of the administered fluorescein dose in the olfactory bulbs, and no peripheral bioactivity of insulin detemir and Fc-dependent uptake of two murine IgG1 (11C7 and P3X) along the olfactory pathway to cortex and hippocampus. An scFv of 11C7 showed hardly any uptake to the CNS. Elimination was dependent on the presence of the IgG's antigen. In summary, it was successfully demonstrated that region-specific intranasal administration via the olfactory region resulted in improved brain targeting and reduced peripheral targeting in mice. The data are discussed with regard to their clinical potential.

摘要

鼻内给药是一种将药物递送至中枢神经系统的有前景的方法，但目前存在太多异质性、不精确且未经标准化的给药方法，这降低了许多啮齿动物研究的质量。因此，缺乏一种针对小鼠的精确且区域特异性的应用技术是一个主要缺陷。在本研究中，一种先前开发的基于导管的改进技术与传统的基于移液管的方法进行了验证，并用于特异性地到达嗅觉或呼吸性鼻区域。本研究成功证明了在嗅觉黏膜处进行区域特异性给药，导致嗅球中超过20%的荧光素给药剂量被摄取，且地特胰岛素无外周生物活性，两种鼠源IgG1（11C7和P3X）沿嗅觉通路至皮质和海马体不存在Fc依赖性摄取。11C7的单链抗体片段几乎未显示对中枢神经系统的摄取。清除取决于IgG抗原的存在。总之，成功证明了通过嗅觉区域进行区域特异性鼻内给药可改善小鼠的脑靶向性并减少外周靶向性。讨论了这些数据的临床潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e03/8620656/dbb30b99bda9/pharmaceutics-13-01904-g001.jpg

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通过嗅觉黏膜采用改良的区域特异性鼻内给药技术实现对中枢神经系统的选择性靶向和分布。

Selective CNS Targeting and Distribution with a Refined Region-Specific Intranasal Delivery Technique via the Olfactory Mucosa.

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