四参数山丘模型参数估计的优化设计。

Leonid A Khinkis, Laurence Levasseur, Hélène Faessel, William R Greco
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引用次数: 32

摘要

许多药物浓度-效应关系用非线性s型模型来描述。常用的四参数Hill模型就属于这一类。实验设计是准确估计模型参数的必要条件。在这篇报告中,我们研究了d -最优设计的性质。d -最优设计将参数估计的置信区域的体积最小化,或者等效地最小化估计参数的方差-协方差矩阵的行列式。假设随机误差的方差与响应的某个幂成正比。为了生成d -最优设计,需要假设参数的值。即使这些对参数值的初步猜测与参数的真实值明显不同,d -最优设计也会产生令人满意的结果。d -最优设计的这种特性称为鲁棒性。它可以用d效率来量化。引入了由四个d -最优点和一个额外的第五个点组成的五点设计,目的是增加鲁棒性并更好地表征Hill曲线的中间部分。然后将四点d最优设计与五点设计和对数扩展设计进行了理论和实践的实验室实验比较。d -最优设计证明了自己是实用和有用的,当真正的潜在模型是已知的,当参数的良好先验知识是可用的,当实验单元是昂贵的。本报告的目的是让实践者更好地理解d -最优设计作为实验室实验常规规划的有用工具。
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Optimal design for estimating parameters of the 4-parameter hill model.

Many drug concentration-effect relationships are described by nonlinear sigmoid models. The 4-parameter Hill model, which belongs to this class, is commonly used. An experimental design is essential to accurately estimate the parameters of the model. In this report we investigate properties of D-optimal designs. D-optimal designs minimize the volume of the confidence region for the parameter estimates or, equivalently, minimize the determinant of the variance-covariance matrix of the estimated parameters. It is assumed that the variance of the random error is proportional to some power of the response. To generate D-optimal designs one needs to assume the values of the parameters. Even when these preliminary guesses about the parameter values are appreciably different from the true values of the parameters, the D-optimal designs produce satisfactory results. This property of D-optimal designs is called robustness. It can be quantified by using D-efficiency. A five-point design consisting of four D-optimal points and an extra fifth point is introduced with the goals to increase robustness and to better characterize the middle part of the Hill curve. Four-point D-optimal designs are then compared to five-point designs and to log-spread designs, both theoretically and practically with laboratory experiments.D-optimal designs proved themselves to be practical and useful when the true underlying model is known, when good prior knowledge of parameters is available, and when experimental units are dear. The goal of this report is to give the practitioner a better understanding for D-optimal designs as a useful tool for the routine planning of laboratory experiments.

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