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Step‐By‐Step Standardization of the Bottom‐Up Semi‐Automated Nanocrystallization of Pharmaceuticals: A Quality By Design and Design of Experiments Joint Approach

Luis Castillo Henríquez, Badr Bahloul, Khair Alhareth, Feras Oyoun, Markéta Frejková, Libor Kostka, Tomáš Etrych, Luc Kalshoven, A. Guillaume, Nathalie Mignet, Yohann Corvis

2024Small17 citationsDOIOpen Access PDF

Abstract

Abstract Nanosized drug crystals have been reported with enhanced apparent solubility, bioavailability, and therapeutic efficacy compared to microcrystal materials, which are not suitable for parenteral administration. However, nanocrystal design and development by bottom‐up approaches are challenging, especially considering the non‐standardized process parameters in the injection step. This work aims to present a systematic step‐by‐step approach through Quality‐by‐Design (QbD) and Design of Experiments (DoE) for synthesizing drug nanocrystals by a semi‐automated nanoprecipitation method. Curcumin is used as a drug model due to its well‐known poor water solubility (0.6 µg mL −1 , 25 °C). Formal and informal risk assessment tools allow identifying the critical factors. A fractional factorial 2 4−1 screening design evaluates their impact on the average size and polydispersity of nanocrystals. The optimization of significant factors is done by a Central Composite Design. This response surface methodology supports the rational design of the nanocrystals, identifying and exploring the design space. The proposed joint approach leads to a reproducible, robust, and stable nanocrystalline preparation of 316 nm with a PdI of 0.217 in compliance with the quality profile. An orthogonal approach for particle size and polydispersity characterization allows discarding the formation of aggregates. Overall, the synergy between advanced data analysis and semi‐automated standardized nanocrystallization of drugs is highlighted.

Topics & Concepts

Quality by DesignCritical quality attributesMaterials scienceCentral composite designDesign of experimentsDispersityFactorial experimentSolubilityNanocrystalRational designNanotechnologyParticle sizeProcess engineeringComputer scienceResponse surface methodologyChemical engineeringMathematicsChemistryEngineeringOrganic chemistryStatisticsPolymer chemistryMachine learningDrug Solubulity and Delivery SystemsCrystallization and Solubility StudiesAdvanced Drug Delivery Systems
Step‐By‐Step Standardization of the Bottom‐Up Semi‐Automated Nanocrystallization of Pharmaceuticals: A Quality By Design and Design of Experiments Joint Approach | Litcius