Your search keyword '"Lecomte, F"' showing total 3 results

1. Comparison of the quantitative performances and measurement uncertainty estimates obtained during method validation versus routine applications of a novel hydrophilic interaction chromatography method for the determination of cidofovir in human plasma

Author

Lecomte, F., Hubert, C., Demarche, S., De Bleye, C., Dispas, A., Jost, M., Frankenne, F., Ceccato, A., Rozet, E., and Hubert, Ph.

Subjects

*BLOOD plasma, *HYDROPHILIC interaction liquid chromatography, *COMPARATIVE studies, *QUANTITATIVE chemical analysis, *DRUG administration, *ESTIMATION theory, *UNCERTAINTY

Abstract

Abstract: Method validation is essential to ensure that an analytical method is fit for its intended purpose. Additionally, it is advisable to estimate measurement uncertainty in order to allow a correct interpretation of the results generated by analytical methods. Measurement uncertainty can be efficiently estimated during method validation as a top–down approach. However, method validation predictions of the quantitative performances of the assay and estimations of measurement uncertainty may be far away from the real performances obtained during the routine application of this assay. In this work, the predictions of the quantitative performances and measurement uncertainty estimations obtained from a method validation are compared to those obtained during routine applications of a bioanalytical method. For that purpose, a new hydrophilic interaction chromatography (HILIC) method was used. This method was developed for the determination of cidofovir, an antiviral drug, in human plasma. Cidofovir (CDV) is a highly polar molecule presenting three ionizable functions. Therefore, it is an interesting candidate for determination by HILIC mode. CDV is an acyclic cytidine monophosphate analog that has a broad antiviral spectrum and is currently undergoing evaluation in clinical trials as a topical agent for treatment of papillomavirus infections. The analytical conditions were optimized by means of design of experiments approach in order to obtain robust analytical conditions. These ones were absolutely necessary to enable the comparisons mentioned above. After a sample clean-up by means of solid phase extraction, the chromatographic analysis was performed on bare silica stationary phase using a mixture of acetonitrile–ammonium hydrogen carbonate (pH 7.0; 20mM) (72:28, v/v) as mobile phase. This newly developed bioanalytical method was then fully validated according to FDA (Food and Drug Administration) requirements using a total error approach that guaranteed that each future result will fall within acceptance limits of ±30% with a probability of 95% over a concentration range of 92.7–1020ng/mL. A routine application of the cidofovir determination in two pre-clinical trials demonstrated that the prediction made during the pre-study validation was consistent by retrospective analysis of the quality control (QC) samples. Finally, comparison of the measurement uncertainty estimations calculated from the method validation with those obtained from the routine application of the method was performed, stressing that the estimations obtained during method validation underestimated those obtained from routine applications and that the magnitude of this underestimation was function of the cidofovir concentration. Finally, this new HILIC method is reliable, easily applicable to routine analysis and transposable at low cost in other laboratories. [Copyright &y& Elsevier]

Published

2012

2. Performance evaluation of a MIP for the MISPE-LC determination of p-[18F]MPPF and a potential metabolite in human plasma.

Author

Lecomte, F., Aerts, J., Plenevaux, A., Defraiteur, C., Chapuis-Hugon, F., Rozet, E., Chiap, P., Luxen, A., Pichon, V., Hubert, Ph., and Hubert, C.

Subjects

*IMPRINTED polymers, *SOLID phase extraction, *POSITRON emission tomography, *PERFORMANCE evaluation, *METABOLITES, *PSILOCYBIN

Abstract

• Retention in porogen shows specific interaction between p- [18F]MPPF and MIP. • First efficient selective extraction of p -[18F]MPPF from plasma by using a MIP. • Pragmatic pre-validation step to confirm these results using MISPE-LC. Within the family of serotonin (5-HT) receptors, the 5-HT 1A subtype is particularly interesting as it may be involved in various physiological processes or psychological disorders. The p -[18F]MPPF, a highly selective 5-HT 1A antagonist, is used for in vivo studies in human or animal by means of positron emission tomography (PET) [ 1 ]. In order to selectively extract p -[18F]MPPF and its main metabolites from plasma, molecularly imprinted polymer (MIP) was prepared against these compounds by using the p -MPPF as template. For the control of the selectivity, non-imprinted polymer (NIP) was also synthesized without template. The MIP sorbent, packed in disposable extraction cartridges (DECs), was then evaluated as molecularly imprinted solid-phase extraction (MISPE) prior to the LC determination. The conditions of extraction were evaluated in order to obtain the highest selective retention of the p -[18F]MPPF and its metabolites on this MIP. The MIP selectivity was exploited in the loading and washing steps by adjusting the pH of plasma samples at a suitable value and by selecting mixtures for the washing step to limit the contribution of non-specific interactions. Other important parameters involved in the conditioning and elution steps were also studied. Finally, a pre-validation was carried out with optimal extraction conditions to demonstrate the performance of this MISPE-LC method as a generic method in the context of evaluation of new MISPE for p -[18F]MPPF and its potential for metabolites extraction from human plasma. [ABSTRACT FROM AUTHOR]

Published

2020

3. Application of a new optimization strategy for the separation of tertiary alkaloids extracted from Strychnos usambarensis leaves

Author

Nistor, I., Cao, M., Debrus, B., Lebrun, P., Lecomte, F., Rozet, E., Angenot, L., Frederich, M., Oprean, R., and Hubert, Ph.

Subjects

*ALKALOIDS, *SEPARATION (Technology), *STRYCHNOS, *PLANT extracts, *ACETONITRILE, *INDEPENDENT component analysis, *HIGH performance liquid chromatography, *EXPERIMENTAL design

Abstract

Abstract: The HPLC separation of six alkaloids extracted from Strychnos usambarensis leaves has been developed and optimized by means of a powerful methodology for modelling chromatographic responses, based on three steps, i.e. design of experiments (DoE), independent component analysis (ICA) and design space (DS). This study was the first application of a new optimization strategy to a complex natural matrix. The compounds separated are the isomers isostrychnopentamine and strychnopentamine, 10-hydroxyusambarine and 11-hydroxyusambarine, also strychnophylline and strychnofoline. Three LC parameters have been optimized using a multifactorial design comprising 29 experiments that includes 2 center point replicates. The parameters were the percentage of organic modifiers used at the beginning of a gradient profile which consisted in different proportions of methanol (MeOH) and acetonitrile (MeCN), the gradient time to reach 70% of organic modifiers starting from the initial percentage and the percentage of MeCN found in the mobile phase. Subsequent to the experimental design application, predictive multilinear models were developed and used in order to provide optimal analytical conditions. The optimum assay conditions were: methanol/acetonitrile-sodium pentane sulfonate (pH 2.2; 7.5mM) (33.4:66.6, v/v) at a mobile phase flow rate of 1ml/min during a 40.6min gradient time. The initial organic phase contained 3.7% MeCN and 96.3% MeOH. The method showed good agreement between the experimental data and predictive value throughout the studied parameters space. Improvement of the analysis time and optimized separation for the compounds of interest was possible due to the original and powerful tools applied. Finally, this study permitted the acquisition of isomers profiles allowing the identification of the optimal collecting period of S. usambarensis. [Copyright &y& Elsevier]

Published

2011