Johny Bertels scite author profile

Keywords:oral drug delivery amorphous solid dispersion dissolution crystallization nanotechnology tableting chemical stability Raman spectroscopy a b s t r a c t Investigation of downstream processing of nanofibrous amorphous solid dispersions to generate tablet formulation is in a quite early phase. Development of high speed electrospinning opened up the possibility to study tableting of electrospun solid dispersions (containing polyvinylpyrrolidone-vinyl acetate and itraconazole [ITR] in this case). This work was conducted to investigate the influence of excipients on dissolution properties and the feasibility of scaled-up rotary press tableting. The dissolution rates from tablets proved to be mainly composition dependent. Magnesium stearate acted as a nucleation promoting agent (providing an active hydrophobic environment for crystallization of ITR) hindering the total dissolution of ITR. This crystallization process proved to be temperature dependent as well. However, the extent of dissolution of more than 95% was realizable when a less hydrophobic lubricant, sodium stearyl fumarate (soluble in the medium), was applied. Magnesium stearate induced crystallization even if it was put in the dissolution medium next to proper tablets. After optimization of the composition, scaled-up tableting on a rotary press was carried out. Appropriate dissolution of ITR from tablets was maintained for 3 months at 25 C/60% relative humidity. HPLC measurements confirmed that ITR was chemically stable both in the course of downstream processing and storage.

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Development and tableting of directly compressible powder from electrospun nanofibrous amorphous solid dispersion

Démuth

Farkas

Szabó

et al. 2017

Advanced Powder Technology

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A multivariate formulation and process development platform for direct compression

Dhondt

Bertels

Kumar

et al. 2022

International Journal of Pharmaceutics

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Prediction of tablet weight variability in continuous manufacturing

Razavi

Scicolone

Snee³

et al. 2020

International Journal of Pharmaceutics

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Johny Bertels

A multivariate raw material property database to facilitate drug product development and enable in-silico design of pharmaceutical dry powder processes

Lubricant-Induced Crystallization of Itraconazole From Tablets Made of Electrospun Amorphous Solid Dispersion

Development and tableting of directly compressible powder from electrospun nanofibrous amorphous solid dispersion

A multivariate formulation and process development platform for direct compression

Prediction of tablet weight variability in continuous manufacturing

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