AI Article Synopsis
- A new distributed delay approach for modeling delayed outcomes in pharmacokinetics and pharmacodynamics studies was introduced, allowing flexibility in a variety of related models.
- This method can accommodate both typical and atypical absorption models, including zero-order and first-order absorption processes.
- The paper also provides practical examples using the software Phoenix NLME™ 8.0, highlighting the benefits of this approach compared to traditional modeling techniques.
Article Abstract
A distributed delay approach was proposed in this paper to model delayed outcomes in pharmacokinetics and pharmacodynamics studies. This approach was shown to be general enough to incorporate a wide array of pharmacokinetic and pharmacodynamic models as special cases including transit compartment models, effect compartment models, typical absorption models (either zero-order or first-order absorption), and a number of atypical (or irregular) absorption models (e.g., parallel first-order, mixed first-order and zero-order, inverse Gaussian, and Weibull absorption models). Real-life examples were given to demonstrate how to implement distributed delays in Phoenix NLME™ 8.0, and to numerically show the advantages of the distributed delay approach over the traditional methods.
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| http://dx.doi.org/10.1007/s10928-018-9570-4 | DOI Listing |
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