Hot melt extruded amorphous solid dispersions containing lumefantrine and Soluplus

Shu Li, Zian Zhang, Wenjie Gu, Mael Gallas, David Jones, Pascal Boulet, Lindsay M. Johnson, Victoire de Margerie, Gavin P. Andrews*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

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Abstract

Over the last 15 years, a small number of paediatric artemisinin-based combination therapy products have been marketed. These included Riamet® and Coartem® dispersible tablets, a combination of artemether and lumefantrine, co-developed by the Medicines for Malaria Venture and Novartis. Disappointingly, patient compliance, requirement for high-fat meal, and sporadic drug dissolution behaviours following administration still result in considerable challenges for these products. The first and foremost barrier that needs addressed for successful delivery of the artemether/lumefantrine combination is the poor solubility of lumefantrine within the gastrointestinal fluids. In this work, amorphous solid dispersions of lumefantrine within Soluplus®-based matrices have been manufactured using hot melt extrusion as a potential formulation strategy to achieve enhanced dissolution and apparent solubility. The drug loading capacity of Soluplus® to accommodate amorphous lumefantrine, whilst ensuring improved in-vitro dissolution performance, was investigated. The extrusion process employed a variety of processing parameters, including various temperature profiles and different production scales. The influence of variation in extrusion conditions upon the physical stability of manufactured amorphous solid dispersions was also examined. This allowed for a greater understanding of the role of extrusion processing conditions on the performance of supersaturated amorphous solid dispersions during dissolution and storage. This may allow for the design and manufacture of drug enabled formulations with lower drug dosing and thus a lower risk of adverse effects.
Original languageEnglish
Article number124676
JournalInternational Journal of Pharmaceutics
Early online date08 Sept 2024
DOIs
Publication statusEarly online date - 08 Sept 2024

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Keywords

  • hot melt extrusion
  • high dose
  • amorphous solid dispersions
  • drug enablement
  • lumefantrine
  • Soluplus®
  • anti-malarial

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