使用一组逆高斯函数来描述具有复杂吸收特性的药物的吸收曲线。

The use of a sum of inverse Gaussian functions to describe the absorption profile of drugs exhibiting complex absorption.

作者信息

Csajka Chantal, Drover David, Verotta Davide

机构信息

Department of Biopharmaceutical Sciences, University of California, San Francisco, California 94143, USA.

出版信息

Pharm Res. 2005 Aug;22(8):1227-35. doi: 10.1007/s11095-005-5266-8. Epub 2005 Aug 3.

DOI:10.1007/s11095-005-5266-8

PMID:16078132

Abstract

PURPOSE

The aim of this study was to evaluate the utility of a parametric deconvolution method using a sum of inverse Gaussian functions (IG) to characterize the absorption and concentrations vs. time profile of drugs exhibiting complex absorption.

METHODS

For a linear time-invariant system the response, Y(t), following an arbitrary input function I(t), is the convolution of I(t) with the disposition function, H(t), of the system: [Formula: see text]. The method proposed uses a sum of n inverse Gaussian functions to characterize I(t). The approach was compared with a standard nonparametric method using linear splines. Data were provided from previously published studies on two drugs (hydromorphone and veralipride) showing complex absorption and analyzed with NONMEM.

RESULTS

A satisfactory fit for hydromorphone and veralipride data following oral administration was achieved by fitting a sum of two or three IG functions. The predictions of the input functions were very similar to those using linear splines.

CONCLUSIONS

The use of a sum of IG as opposed to nonparametric functions, such as splines, offers a simpler implementation, a more intuitive interpretation of the results, a built-in extrapolation, and an easier implementation in a population context. Disadvantages are an apparent greater sensitivity to initial value estimates (when used with NONMEM).

摘要

目的

本研究的目的是评估使用逆高斯函数（IG）之和的参数去卷积方法在表征具有复杂吸收的药物的吸收及浓度-时间曲线方面的效用。

方法

对于线性时不变系统，在任意输入函数I(t)之后的响应Y(t)是I(t)与系统处置函数H(t)的卷积：[公式：见正文]。所提出的方法使用n个逆高斯函数之和来表征I(t)。该方法与使用线性样条的标准非参数方法进行了比较。数据来自先前发表的关于两种药物（氢吗啡酮和维拉必利）的研究，这两种药物显示出复杂吸收，并使用NONMEM进行了分析。

结果

通过拟合两个或三个IG函数之和，实现了口服给药后氢吗啡酮和维拉必利数据的满意拟合。输入函数的预测与使用线性样条的预测非常相似。

结论

与非参数函数（如样条）相比，使用IG之和具有更简单的实现方式、对结果更直观的解释、内置的外推功能以及在群体背景下更容易的实现方式。缺点是对初始值估计明显更敏感（与NONMEM一起使用时）。

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使用一组逆高斯函数来描述具有复杂吸收特性的药物的吸收曲线。

The use of a sum of inverse Gaussian functions to describe the absorption profile of drugs exhibiting complex absorption.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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