Stereoselective determination of hydroxychloroquine and its metabolites in human urine by liquid‐phase microextraction and CE

Oliveira, Anderson Rodrigo Moraes de; Cardoso, Carmen Dickow; Bonato, Pierina Sueli

doi:10.1002/elps.200600420

Cited by 41 publications

(32 citation statements)

References 27 publications

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“…BDCQ concentration found in human urine is very low, so, most of the published papers quantify just the two major metabolites in human urine, DCQ and DHCQ [8 -11]. The excretion of HCQ and its metabolites has shown to be stereoselective and studies show that, in a short period, (+)-(S)-enantiomer is excreted in a higher amount than ( -)-(R)-enantiomer [9,11]. Nevertheless, when the excretion of HCQ was studied in a longer period, the difference between (+)-(S)-and ( -)-(R)-tended to decrease, the ratio being (+)/( -) equal to 50:50 in a period of 360 h [10].…”

Section: Introductionmentioning

confidence: 97%

“…The most common methods employed to analyze these compounds in human biological fluids is HPLC using chiral stationary phases [8 -10, 12, 13] and CE [11]. Almost all of these mentioned papers are based on traditional liquid -liquid extraction [8 -10, 12, 13] and just one method, recently developed by our group, is based on liquid -liquid microextraction [11].…”

Section: Introductionmentioning

confidence: 99%

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

Oliveira¹,

Bonato²

2007

J of Separation Science

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The enantioselective analysis of hydroxychloroquine (HCQ) and its major metabolites was achieved by HPLC and solid-phase microextraction. The chromatographic separation was performed on a Chiralcel OD-H column using hexane/methanol/ethanol (96:2:2, v/v/v) plus 0.2% diethylamine as the mobile phase, at the flow rate of 1.3 mL/min. The main extraction parameters were optimized. The best condition was achieved by the addition of 10% NaCl and 1 mL phosphate buffer 1 mol/L pH 11 to 3 mL human urine. The extraction was conducted for 40 min at 25 degrees C and the desorption time was 3 min using methanol (100%). PDMS-DVB 60 microm fiber was used in this study. The mean recoveries were 9.3, 9.2, and 14.4% for HCQ, desethylhydroxychloroquine (DHCQ), and desethylchloroquine (DCQ), respectively. The method was linear over the range of 50-1000 ng/mL for HCQ enantiomers and over the range of 42-416 ng/mL for DCQ and DHCQ enantiomers. Within-day and between-day precision and accuracy assays for HCQ and its metabolites were lower than 15%. The preliminary 48 h urinary excretion study performed in human urine showed to be stereoselective. The amount of (+)-(S)-enantiomer excreted was higher than its antipode.

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Section: Introductionmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

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

Oliveira¹,

Bonato²

2007

J of Separation Science

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“…In this way, it was possible to establish the enantiomer ratio of metoprolol, and its ortho and meta by-products during one analysis [31]. The separation of the enantiomers of pharmaceuticals and their metabolites can also be managed during one CE analysis [15,21,22]. CDs are excellent to chiraly analyze main and by-products simultaneously [31,56].…”

Section: Suitability Of Cds For Chiral Cementioning

confidence: 98%

“…Capillaries are washed with concentrated bases or acids resulting in elimination of endogenous dirt among analytes [3,15,21,22].…”

Section: Advantages Of Ce In Chiral Separationsmentioning

confidence: 99%

The role of cyclodextrins in chiral capillary electrophoresis

et al. 2008

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The members of the enantiomeric pairs frequently show rather different biological effects, so their chiral selective synthesis, pharmacological studies and analysis are necessary. CE has unique advantages in chiral analysis. The most frequently used chiral selectors are CDs in this field. This paper gives a short view on the advantages on CE in direct chiral separations, emphasizing the role of CDs. The reason for the broad selectivity spectra of CDs is discussed in detail. The physical background of chiral selective separations is briefly shown in CE. Their interaction mechanisms are shortly defined. The general trend of their use is statistically evaluated. Most frequently used CDs and CD derivatives are characterized. Advantages of ionizable CDs and single-isomer derivatives are shown. The general trend of their use is established.

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“…Diversos trabalhos vêm sendo realizados utilizando urina como matriz (Tabela 1). Recentemente, De Oliveira et al 61 desenvolveram um método para análise enantiosseletiva da hidroxicloroquina e metabólitos em urina empregando n-octanol como solvente de extração e posterior análise por CE. Neste trabalho, valores de recuperação em torno de 80% foram observados e o método foi aplicado em um estudo piloto de disposição cinética, mostrando potencial para aplicação em estudos farmacocinéticos de excreção destes analitos.…”

Section: Urinaunclassified

Microextração em fase líquida (LPME): fundamentos da técnica e aplicações na análise de fármacos em fluidos biológicos

Oliveira¹,

Magalhães²,

Santana³

et al. 2008

Quím. Nova

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Ribeirão Preto -SP, BrasilRecebido em 1/12/06; aceito em 30/8/07; publicado na web em 26/2/08 LIQUID-PHASE MICROEXTRACTION (LPME): FUNDAMENTALS AND APPLICATIONS TO THE ANALYSIS OF DRUGS IN BIOLOGICAL SAMPLES. The analysis of drugs and metabolites in biological fluids usually requires extraction procedures to achieve sample clean-up and analyte preconcentration. Commonly, extraction procedures are performed using liquid-liquid extraction or solidphase extraction. Nevertheless, these extraction techniques are considered to be time-consuming and require a large amount of organic solvents. On this basis, microextraction techniques have been developed. Among them, liquid-phase microextraction has been standing out. This review describes the liquid-phase microextraction technique based on hollow fibers as a novel and promising alternative in sample preparation prior to chromatographic or electrophoretic analysis. The basic concepts related to this technique and its applicability in extraction of drugs are discussed.Keywords: liquid-phase microextraction; drug analysis; biological samples. INTRODUÇÃOAs técnicas de separação, tais como a cromatografia líquida de alta eficiência (HPLC), a cromatografia gasosa (GC) e a eletroforese capilar (CE), são perfeitamente adequadas para a análise de amostras contendo inúmeros componentes. No entanto, a determinação de analitos presentes em matrizes complexas, tais como plasma, soro, sangue total, homogenatos de tecidos, saliva ou urina, geralmente requer processos prévios de preparação das amostras bem elaborados. 1 Vários motivos justificam estes procedimentos, destacando-se a necessidade de eliminação prévia de parte dos componentes devido à complexidade das matrizes biológicas, a existência de proteínas que podem adsorver nas colunas cromatográficas ou nos capilares, além da necessidade de uma etapa de concentração das substâncias a serem analisadas, geralmente presentes em nível de traços. 1,2 As técnicas mais comumente utilizadas para extração e/ou pré-concentração de compostos presentes em fluidos biológicos são a extração líquido-líquido (LLE) e a extração em fase sólida (SPE). 3 Contudo, as tendências atuais apontam no sentido da utilização de menores quantidades de amostras, até mesmo para análises de traços; obtenção de maior seletividade e especificidade na extração; aumento no potencial para automação ou utilização de métodos "online", reduzindo assim a operação manual; desenvolvimento de métodos menos agressivos ao meio ambiente, com menor desperdí-cio e, o uso de quantidade mínima ou nenhuma de solventes orgâ-nicos. 4,5 Dentro deste contexto, técnicas de microextração que utilizam quantidades mínimas de solventes orgânicos e menos etapas na preparação das amostras vêm sendo desenvolvidas. Entre as principais técnicas de microextração existentes destacam-se a microextração em fase sólida (SPME), a microextração em gota suspensa (SDME) e a extração em membranas ["supported liquid membrane" (SLM), "microporous membrane liquid-liquid extraction" (MMLLE), "liquid-phase mi...

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Stereoselective determination of hydroxychloroquine and its metabolites in human urine by liquid‐phase microextraction and CE

Cited by 41 publications

References 27 publications

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

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

The role of cyclodextrins in chiral capillary electrophoresis

Microextração em fase líquida (LPME): fundamentos da técnica e aplicações na análise de fármacos em fluidos biológicos

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