Kirsten Vandercruyssen scite author profile

BackgroundArtemisinin-based fixed dose combination (FDC) products are recommended by World Health Organization (WHO) as a first-line treatment. However, the current artemisinin FDC products, such as β-artemether and lumefantrine, are inherently unstable and require controlled distribution and storage conditions, which are not always available in resource-limited settings. Moreover, quality control is hampered by lack of suitable analytical methods. Thus, there is a need for a rapid and simple, but stability-indicating method for the simultaneous assay of β-artemether and lumefantrine FDC products.MethodsThree reversed-phase fused-core HPLC columns (Halo RP-Amide, Halo C18 and Halo Phenyl-hexyl), all thermostated at 30°C, were evaluated. β-artemether and lumefantrine (unstressed and stressed), and reference-related impurities were injected and chromatographic parameters were assessed. Optimal chromatographic parameters were obtained using Halo RP-Amide column and an isocratic mobile phase composed of acetonitrile and 1mM phosphate buffer pH 3.0 (52:48; V/V) at a flow of 1.0 ml/min and 3 μl injection volume. Quantification was performed at 210 nm and 335 nm for β-artemether and for lumefantrine, respectively. In-silico toxicological evaluation of the related impurities was made using Derek Nexus v2.0®.ResultsBoth β-artemether and lumefantrine were separated from each other as well as from the specified and unspecified related impurities including degradants. A complete chromatographic run only took four minutes. Evaluation of the method, including a Plackett-Burman robustness verification within analytical QbD-principles, and real-life samples showed the method is suitable for quantitative assay purposes of both active pharmaceutical ingredients, with a mean recovery relative standard deviation (± RSD) of 99.7 % (± 0.7%) for β-artemether and 99.7 % (± 0.6%) for lumefantrine. All identified β-artemether-related impurities were predicted in Derek Nexus v2.0® to have toxicity risks similar to β-artemether active pharmaceutical ingredient (API) itself.ConclusionsA rapid, robust, precise and accurate stability-indicating, quantitative fused-core isocratic HPLC method was developed for simultaneous assay of β-artemether and lumefantrine. This method can be applied in the routine regulatory quality control of FDC products. The in-silico toxicological investigation using Derek Nexus® indicated that the overall toxicity risk for β-artemether-related impurities is comparable to that of β-artemether API.

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LC–UV/MS quality analytics of paediatric artemether formulations

Vandercruyssen

D׳Hondt

Vergote

et al. 2014

Journal of Pharmaceutical Analysis

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A highly selective and stability-indicating HPLC-method, combined with appropriate sample preparation steps, is developed for β-artemether assay and profiling of related impurities, including possible degradants, in a complex powder for oral suspension. Following HPLC conditions allowed the required selectivity: a Prevail organic acid (OA) column (250 mm×4.6 mm, 5 μm), flow rate set at 1.5 mL/min combined with a linear gradient (where A=25 mM phosphate buffer (pH 2.5), and B=acetonitrile) from 30% to 75% B in a runtime of 60 min. Quantitative UV-detection was performed at 210 nm. Acetonitrile was applied as extraction solvent for sample preparation. Using acetonitrile–water mixtures as extraction solvent, a compartmental behaviour by a non-solving excipient-bound fraction and an artemether-solubilising free fraction of solvent was demonstrated, making a mobile phase based extraction not a good choice. Method validation showed that the developed HPLC-method is considered to be suitable for its intended regulatory stability-quality characterisation of β-artemether paediatric formulations. Furthermore, LC–MS on references as well as on stability samples was performed allowing identity confirmation of the β-artemether related impurities. MS-fragmentation scheme of β-artemether and its related substances is proposed, explaining the m/z values of the in-source fragments obtained.

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Relative response factor determination of β-artemether degradants by a dry heat stress approach

Spiegeleer

D׳Hondt

Vangheluwe

et al. 2012

Journal of Pharmaceutical and Biomedical Analysis

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Relative response factor determination of rmbeta-artemether degradants by a dry heat stress approach, Journal of Pharmaceutical and Biomedical Analysis (2010), doi:10.1016/j.jpba.2012 This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. During the stability evaluation of -artemether containing finished drug products, a consistent 20 and disproportional increase in the UV-peak areas of -artemether degradation products, 21 when compared to the peak area decline of -artemether itself, was observed. This suggested 22 that the response factors of the formed -artemether degradants were significantly higher than 23 β-artemether. Dry heat stressing of -artemether powder, as a single compound, using 24 different temperatures (125 °C -150 °C), times (10 min -90 min) and environmental 25 conditions (neutral, KMnO 4 and zinc), resulted in the formation of 17 degradants. The vast 26 majority of degradants seen during the long-term and accelerated ICH stability study of the 27 drug product, were also observed here. The obtained stress results allowed the calculation of 28 the overall average relative response factor (RRF) of -artemether degradants, i.e. 21.2, 29 whereas the individual RRF values of the 9 most prominent selected degradants ranged from 30 4.9 to 42.4. Finally, Ames tests were performed on -artemether as well as a representative 31 stressed sample mixture, experimentally assessing their mutagenic properties. Both were 32 found to be negative, suggesting no mutagenicity problems of the degradants at high 33 concentrations. Our general approach and specific results solve the developmental quality 34 issue of mass balance during stability studies and the related genotoxicity concerns of the key 35 antimalarial drug -artemether and its degradants. 36

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UHPLC-MS/MS method for the determination of the cyclic depsipeptide mycotoxins beauvericin and enniatins in in vitro transdermal experiments

Taevernier

Veryser

Vandercruyssen

et al. 2014

Journal of Pharmaceutical and Biomedical Analysis

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Investigation of active pharmaceutical ingredient loss in pharmaceutical compounding of capsules

D׳Hondt

Wynendaele

Vandercruyssen

et al. 2014

Journal of Pharmaceutical and Biomedical Analysis

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