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7.18 : Mechanistic Models: Compartment Models in Individual and Population Analysis

The individual analysis uses mechanistic models involving single-source data. However, data collection errors prevent perfect observed data prediction.

In the mathematical equation, X_i, C_i, ε_i, ϕ_j, and ƒ_irepresent known values, observed concentrations, measurement errors, model parameters, and related function, for i values, respectively.

Least-squares metrics quantify differences between the predicted and observed values.

The ordinary least squares method is biased towards larger observations.

Weighted least squares and maximum likelihood or extended least squares methods improve OLS by incorporating a weighting factor.

Population analysis models predict data for multiple subjects, accounting for interindividual variability.

The same structural model fits all individuals' data for a specific drug under study.

The relationship between mean and individual pharmacokinetic parameters is described by an equation, with η_j representing random variability.

Different population compartmental analyses include naïve-average data, naïve pooled data, and the two-stage approach.

Mechanistic models are utilized in individual analysis using single-source data, but imperfections arise due to data collection errors, preventing perfect prediction of observed data. The mathematical equation involves known values (X_i), observed concentrations (C_i), measurement errors (ε_i), model parameters (ϕ_j), and the related function (ƒ_i) for i number of values. Different least-squares metrics quantify differences between predicted and observed values. The ordinary least squares (OLS) method favors better predictions for larger observations. In contrast, weighted least squares (WLS) and maximum likelihood/expected least squares (ML/ELS) methods improve OLS by incorporating a weighting factor.

Population analysis models predict concentration data for multiple individuals, accounting for interindividual variability and providing individual and population predictions. The same structural model fits all individuals' data for a specific drug under study. Different types of population compartmental analysis include naïve-average data, naïve pooled data, and the two-stage approach, which includes standard, global, and iterative types. In the two-stage approach, population parameter estimates are obtained through iterative processes, such as standard two-stage (STS) and global two-stage (GTS).

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Mechanistic Models Compartment Models Individual Analysis Population Analysis Single source Data Mathematical Equations Observed Concentrations Measurement Errors Model Parameters Least squares Metrics Ordinary Least Squares OLS Weighted Least Squares WLS Maximum Likelihood expected Least Squares ML ELS Interindividual Variability Population Compartmental Analysis Two stage Approach Standard Two stage STS Global Two stage GTS

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