Stereoselective determination of hydroxychloro‐quine and its major metabolites in human urine by solid‐phase microextraction and HPLC

Oliveira, Anderson Rodrigo Moraes de; Bonato, Pierina Sueli

doi:10.1002/jssc.200700121

Cited by 21 publications

(11 citation statements)

References 29 publications

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“…Thus, we compared two commonly used basic additives, diethylamine (DEA) and triethylamine (TEA). We found that the effects on the resolution by DEA were more obvious (data not shown), which is consistent with previous reports 28,29 . Consequently, we examined the in uence on the resolution by different amounts of DEA.…”

Section: Optimization Of Chromatographic Conditions With Chiralpak Adsupporting

confidence: 93%

“…To compare biological activities and therapeutic values of HCQ enantiomers, the separation of the enantiomers and the analysis of their optical purity are a prerequisite. Previously, two groups of researchers reported a similar analytical method for the analyses of HCQ enantiomers and their metabolites to investigate the enantiomeric preference on drug metabolism 28,29 . Unfortunately, in addition to the reproducibility issue, the reported resolution of HCQ enantiomers was very poor, which was unable to accurately and quantitatively analyze the actual values of respective enantiomer of HCQ.…”

Section: Introductionmentioning

confidence: 99%

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Development of a chiral HPLC method for the separation and quantification of hydroxychloroquine enantiomers

Chen

Xiong

Wang

et al. 2020

Preprint

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Hydroxychloroquine (2-[[4-[(7-Chloroquinolin-4-yl) amino]pentyl](ethyl) amino]-ethanol, HCQ), an effective anti-malarial drug, has been applied in the clinics for potential treatment of severe coronavirus disease 2019 (COVID-19). Although the clinical benefits of HCQ require extensive clinical data to confirm, the existence of a chiral center in the molecule to possess two optical isomers suggests that there might be an enantiomeric difference on the treatment of COVID-19. Due to poor resolution and the inability of quantification by previously reported methods for the analysis of HCQ enantiomers, it is necessary to develop an analytical method to achieve baseline separation for quantitative and accurate determination of the enantiomeric purity in order to compare the efficacy and toxicity profiles of different enantiomer. In this study, we developed and validated an accurate and reproducible normal phase chiral HPLC method for the analysis of two enantiomers of HCQ, and the method was further evaluated with biological samples. With this newly developed method, the relative standard deviation of all analytes was lower than 5%, and the limit of quantification was 0.27 μg/ml, 0.34 μg/ml and 0.20 μg/ml for racemate, R- and S-enantiomer, respectively. The present method provides an essential analytical tool for preclinical and clinical evaluation of HCQ enantiomers for potential treatment of COVID-19.

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Section: Optimization Of Chromatographic Conditions With Chiralpak Adsupporting

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Development of a chiral HPLC method for the separation and quantification of hydroxychloroquine enantiomers

Chen

Xiong

Wang

et al. 2020

Preprint

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“…SPME has been extensively used coupled to GC or GC‐MS for drug analysis with excellent clean‐up and high pre‐concentration capacity 1. SPME has also been used prior to LC or LC‐MS (LC‐MS or LC‐MS‐MS) analysis of a wide variety of compounds, specially thermally unstable, low to nonvolatile or very polar compounds not amenable to GC or GC‐MS analysis 2–12. CE has also been used for the analysis of drugs after SPME extraction 13.…”

Section: Introductionmentioning

confidence: 99%

Enantioselective analysis of mirtazapine, demethylmirtazapine and 8‐hydroxy mirtazapine in human urine after solid‐phase microextraction

Santana

Jabor

Cesarino

et al. 2010

J of Separation Science

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A selective and reproducible off-line solid-phase microextraction procedure was developed for the simultaneous enantioselective determination of mirtazapine (MRT), demethylmirtazapine and 8-hydroxymirtazapine in human urine. CE was used for optimization of the extraction procedure whereas LC-MS was used for method validation and application. The influence of important factors in the solid-phase microextraction efficiency is discussed, such as the fiber coatings, extraction time, pH, ionic strength, temperature and desorption time. Before extraction, human urine samples were submitted to enzymatic hydrolysis at 37 degrees C for 16 h. Then, the enzyme was precipitated with trichloroacetic acid and the pH was adjusted to 8 with 1 mol/L pH 11 phosphate buffer solution. In the extraction, the analytes were transferred from the aqueous solution to the polydimethylsiloxane-divinylbenzene fiber coating and then desorbed in methanol. The mean recoveries were 5.4, 1.7 and 1.0% for MRT, demethylmirtazapine and 8-hydroxymirtazapine enantiomers, respectively. The method was linear over the concentration range of 62-1250 ng/mL. The within-day and between-day assay precision and accuracy were lower than 15%. The method was successfully employed in a preliminary cumulative urinary excretion study after administration of racemic MRT to a healthy volunteer.

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“…This feature has been used for detection of quinine and metabolites and other antimalarial drugs in human samples, either with classical HPLC [103,104] or with capillary-LC [105]. Several different extraction techniques were used for methods using HPLC with UV detection for the quantification of antimalarial drugs: liquid-phase microextraction [106], solid-phase microextraction [107], automated solid-phase extraction [108], and extraction with restricted-access materials [109]. As sample material, many methods use dried blood spots, either with UV detection [110][111][112][113], or fluorescence detection [114].…”

Section: Antimalarial Drugsmentioning

confidence: 99%

Therapeutic drug monitoring by LC–MS–MS with special focus on anti-infective drugs

Müller

Rentsch

2010

Anal Bioanal Chem

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Liquid chromatography coupled to mass spectrometry nowadays plays an important role in the field of therapeutic drug monitoring (TDM), especially of new compounds for which no immunoassays are available. This paper reviews LC-MS(-MS) methods published recently for anti-infective drugs: antiretroviral drugs, other antiviral drugs, antibacterial drugs, antihelmintic drugs, antimalarial drugs, and other antiprotozoal drugs. An overview of the different methods is given, with special focus on selection of the internal standard and validation procedures.

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Stereoselective determination of hydroxychloro‐quine and its major metabolites in human urine by solid‐phase microextraction and HPLC

Cited by 21 publications

References 29 publications

Development of a chiral HPLC method for the separation and quantification of hydroxychloroquine enantiomers

Development of a chiral HPLC method for the separation and quantification of hydroxychloroquine enantiomers

Enantioselective analysis of mirtazapine, demethylmirtazapine and 8‐hydroxy mirtazapine in human urine after solid‐phase microextraction

Therapeutic drug monitoring by LC–MS–MS with special focus on anti-infective drugs

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