A framework for systematic crystal shape tuning – Case of Lovastatin's needle-shaped crystals

Wei Li, Lauren E. Hatcher, Chick C. Wilson, Chris D. Rielly, Brahim Benyahia

Research output: Contribution to journalArticlepeer-review

1 Citation (SciVal)

Abstract

One of the most important challenges in the pharmaceutical industry is to produce crystals with desired size and shape distributions, to enhance the critical quality attributes of the drug product, such as efficacy, and to improve manufacturability during downstream processing, such as filtration, drying and granulation. The paper provides a framework for effective crystal shape and size tuning, based on a systematic exploration of standard techniques, such as the linear cooling and supersaturation control (SSC), and novel methods based on the systematic combination of several techniques, namely direct nucleation control (DNC), wet milling, SSC and shape modification additives. The crystallization of lovastatin, which is notorious for its challenging needle-shaped crystals, with an extremely high aspect ratio, was used as a case study, and polypropylene glycol (PPG-4000), at different concentrations, was used as an effective shape modifier from small-scale tests studied previously. The proposed techniques were implemented in the case of seeded and unseeded systems. It was demonstrated that the combination of temperature cycling and polymer additive enhances greatly the control over the aspect ratio and crystal size distribution, compared to conventional linear cooling and SSC strategies. The implementation of wet milling at the beginning of the process, or the introduction of seeds, enhances even further the control of the critical quality attributes of the crystalline product.

Original languageEnglish
Pages (from-to)126-146
Number of pages21
JournalChemical Engineering Research and Design
Volume202
Early online date15 Dec 2023
DOIs
Publication statusPublished - 29 Feb 2024

Funding

The authors acknowledge funding from the UK Engineering and Physical Siences Research Council's (EPSRC) Future Continuous Manufacturing and Advanced Crystallisation Research Hub Grant EP/P006965/1 (https://www.cmac.ac.uk/). The chord length distribution (CLD) inversion application (CLDInversionAPP) was provided by ICT-CMAC funded by EPSRC grant EP/K014250/1.

FundersFunder number
Engineering and Physical Sciences Research CouncilEP/K014250/1, EP/P006965/1

Keywords

  • Aspect ratio
  • Batch crystallization
  • Direct nucleation control
  • Lovastatin
  • Shape modifier
  • Supersaturation control
  • Unseeded and seeded systems
  • Wet milling
  • Workflow

ASJC Scopus subject areas

  • General Chemistry
  • General Chemical Engineering

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