Jose S. Rodriguez scite author profile

To increase manufacturing flexibility and system understanding in pharmaceutical development, the FDA launched the quality by design (QbD) initiative. Within QbD, the design space is the multidimensional region (of the input variables and process parameters) where product quality is assured. Given the high cost of extensive experimentation, there is a need for computational methods to estimate the probabilistic design space that considers interactions between critical process parameters and critical quality attributes, as well as model uncertainty. In this paper we propose two algorithms that extend the flexibility test and flexibility index formulations to replace simulation-based analysis and identify the probabilistic design space more efficiently. The effectiveness and computational efficiency of these approaches is shown on a small example and an industrial case study.

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Effect of N uptake concentration on nitrate leaching from tomato grown in free-draining soilless culture under Mediterranean conditions

Thompson

Gallardo

Rodriguez

et al. 2013

Scientia Horticulturae

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Benchmarking ADMM in nonconvex NLPs

Rodriguez

Nicholson

Laird

et al. 2018

Computers & Chemical Engineering

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Introducing KIPET: A novel open-source software package for kinetic parameter estimation from experimental datasets including spectra

Schenk

Short

Rodriguez

et al. 2020

Computers & Chemical Engineering

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Jose S. Rodriguez

Simulation of transpiration, drainage, N uptake, nitrate leaching, and N uptake concentration in tomato grown in open substrate

An Optimization-Based Framework to Define the Probabilistic Design Space of Pharmaceutical Processes with Model Uncertainty

Effect of N uptake concentration on nitrate leaching from tomato grown in free-draining soilless culture under Mediterranean conditions

Benchmarking ADMM in nonconvex NLPs

Introducing KIPET: A novel open-source software package for kinetic parameter estimation from experimental datasets including spectra

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