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治疗药物监测中泪液浓度的评估。II. 丙戊酸在豚鼠血清、脑脊液和泪液中的药代动力学分析。

Assessment of tear concentrations on therapeutic drug monitoring. II. Pharmacokinetic analysis of valproic acid in guinea pig serum, cerebrospinal fluid, and tears.

作者信息

Sato S, Kitagawa S, Nakajima M, Shimada K, Honda A, Miyazaki H

机构信息

Department of Pharmaceutics, Niigata College of Pharmacy, Japan.

出版信息

Pharm Res. 2001 Apr;18(4):500-9. doi: 10.1023/a:1011010528642.

Abstract

PURPOSE

To quantitatively describe the pharmacokinetics of valproic acid (VPA) in guinea pig serum (total [Cf+b] and free [Cf]), cerebrospinal fluid (CSF) [C]CSF and tears [C]T using a simple kinetic model, and to examine whether [Cf] and [C]CSF can be predicted by [C]T using the resulting pharmacokinetic parameters.

METHODS

[Cf+b], [Cf], [C]CSF and [C]T were determined after bolus i.v. injection of 10 or 20 mg/kg VPA using GC/ECNCI/MS.

RESULTS

[Cf+b] could be quantitatively described by a two compartment model with linear elimination kinetics. [Cf] was separately analyzed using multi-exponential equations. [C]CSF was analyzed using a simple kinetic model in which the CSF compartment is independently connected with the serum compartment by the apparent diffusion constants (KINCSF and KOUTCSF). [C]T was analyzed using the same simple kinetic model used for [C]CSF. The values of [C]CSF and [Cf] in the steady state can be represented by the following equations; [C]CSF = KINCSF/KOUTCSF x [Cf], [Cf] = KOUT/KINT x [C]T, and indicating that [Cf] and [C]CSF can be predicted by [C]T using the resulting pharmacokinetic parameters.

CONCLUSIONS

The measurement of [C]T which can be collected non-invasively and estimated the pharmacokinetic parameters for [Cf], [C]CSF, and [C]T might be a very useful method for TDM of VPA.

摘要

目的

使用简单动力学模型定量描述豚鼠血清(总浓度[Cf+b]和游离浓度[Cf])、脑脊液(CSF)[C]CSF和泪液[C]T中丙戊酸(VPA)的药代动力学,并研究能否使用所得药代动力学参数通过[C]T预测[Cf]和[C]CSF。

方法

静脉推注10或20mg/kg VPA后,使用气相色谱/电子捕获负化学电离/质谱法测定[Cf+b]、[Cf]、[C]CSF和[C]T。

结果

[Cf+b]可用具有线性消除动力学的二室模型进行定量描述。[Cf]使用多指数方程单独分析。[C]CSF使用简单动力学模型分析,其中脑脊液室通过表观扩散常数(KINCSF和KOUTCSF)与血清室独立连接。[C]T使用与[C]CSF相同的简单动力学模型分析。稳态下[C]CSF和[Cf]的值可用以下方程表示;[C]CSF = KINCSF/KOUTCSF x [Cf],[Cf] = KOUT/KINT x [C]T,这表明使用所得药代动力学参数可通过[C]T预测[Cf]和[C]CSF。

结论

[C]T的测量可通过非侵入性收集,并且可估算[Cf]、[C]CSF和[C]T的药代动力学参数,这可能是VPA治疗药物监测的一种非常有用的方法。

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