A high-precision view of intercompartmental drug transport via simultaneous, seconds-resolved, in situ measurements in the vein and brain

IF 6.8 2区医学 Q1 PHARMACOLOGY & PHARMACY

British Journal of Pharmacology Pub Date : 2024-06-15 DOI:10.1111/bph.16471

Julian Gerson, Murat Kaan Erdal, Philippe Dauphin-Ducharme, Andrea Idili, Joao P. Hespanha, Kevin W. Plaxco, Tod E. Kippin

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Abstract

Background and Purpose

The ability to measure specific molecules at multiple sites within the body simultaneously, and with a time resolution of seconds, could greatly advance our understanding of drug transport and elimination.

Experimental Approach

As a proof-of-principle demonstration, here we describe the use of electrochemical aptamer-based (EAB) sensors to measure transport of the antibiotic vancomycin from the plasma (measured in the jugular vein) to the cerebrospinal fluid (measured in the lateral ventricle) of live rats with temporal resolution of a few seconds.

Key Results

In our first efforts, we made measurements solely in the ventricle. Doing so we find that, although the collection of hundreds of concentration values over a single drug lifetime enables high-precision estimates of the parameters describing intracranial transport, due to a mathematical equivalence, the data produce two divergent descriptions of the drug's plasma pharmacokinetics that fit the in-brain observations equally well. The simultaneous collection of intravenous measurements, however, resolves this ambiguity, enabling high-precision (typically of ±5 to ±20% at 95% confidence levels) estimates of the key pharmacokinetic parameters describing transport from the blood to the cerebrospinal fluid in individual animals.

Conclusions and Implications

The availability of simultaneous, high-density ‘in-vein’ (plasma) and ‘in-brain’ (cerebrospinal fluid) measurements provides unique opportunities to explore the assumptions almost universally employed in earlier compartmental models of drug transport, allowing the quantitative assessment of, for example, the pharmacokinetic effects of physiological processes such as the bulk transport of the drug out of the CNS via the dural venous sinuses.

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通过在静脉和大脑中同时进行秒级分辨的原位测量，高精度地观察药物的室间转运。

背景和目的：以几秒钟的时间分辨率同时测量体内多个部位的特定分子的能力，可以极大地促进我们对药物转运和消除的了解：实验方法：作为原理验证，我们在这里描述了使用基于电化学适配体（EAB）的传感器测量抗生素万古霉素从活体大鼠血浆（在颈静脉中测量）到脑脊液（在侧脑室中测量）的转运，时间分辨率为几秒钟：我们首次仅在侧脑室进行测量。这样做的结果是，我们发现，尽管在单次药物作用时间内收集数百个浓度值可以对描述颅内转运的参数进行高精度估算，但由于数学等价性，这些数据会产生两种不同的药物血浆药代动力学描述，而这两种描述与脑内观察结果同样吻合。然而，同步收集静脉注射测量数据则解决了这一模糊性，可对描述个体动物从血液向脑脊液转运的关键药代动力学参数进行高精度估算（在 95% 置信度下通常为 ±5% 至 ±20%）：同时进行高密度的 "静脉内"（血浆）和 "脑内"（脑脊液）测量为探索早期药物转运分区模型中几乎普遍采用的假设提供了独特的机会，从而可以定量评估药物通过硬脑膜静脉窦大量转运出中枢神经系统等生理过程的药代动力学效应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

British Journal of Pharmacology 医学-药学

CiteScore

15.40

自引率

12.30%

发文量

270

审稿时长

2.0 months

期刊介绍： The British Journal of Pharmacology (BJP) is a biomedical science journal offering comprehensive international coverage of experimental and translational pharmacology. It publishes original research, authoritative reviews, mini reviews, systematic reviews, meta-analyses, databases, letters to the Editor, and commentaries. Review articles, databases, systematic reviews, and meta-analyses are typically commissioned, but unsolicited contributions are also considered, either as standalone papers or part of themed issues. In addition to basic science research, BJP features translational pharmacology research, including proof-of-concept and early mechanistic studies in humans. While it generally does not publish first-in-man phase I studies or phase IIb, III, or IV studies, exceptions may be made under certain circumstances, particularly if results are combined with preclinical studies.

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