William J. Leavens scite author profile

The use of turbulent flow chromatography coupled to mass spectrometry (turbulent flow LC/MS) shows great potential for the rapid, direct analysis of pharmaceutical compounds in plasma and serum. The use of turbulent flow LC/MS has removed the need for any time-consuming sample preparation such as solid phase extraction, and allowed a total sample analysis time of approximately 2.5 min to be achieved. The coupling of a mass spectrometer with HPLC often not only results in greater sensitivity, but also the added specificity of the mass spectrometer reduces the need for complete resolution of the analyte from endogenous material in the matrix. This allows an on-line analysis approach to be used for the analysis of pharmaceuticals in biological matrices. Turbulent flow chromatography is achieved by the use of high flow rates and large particle size stationary phases. When coupled with mass spectrometric detection, the technique allows the direct analysis of plasma or serum samples with very rapid chromatography and, therefore, extremely high throughout. This work demonstrates the suitability of this technique for the validated analysis of biological samples for a novel isoquinoline pharmaceutical and offers some ideas on the future continued development, optimization and application of turbulent flow liquid chromatography.

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Application of a generic fast gradient liquid chromatography tandem mass spectrometry method for the analysis of cytochrome P450 probe substrates

Ayrton¹,

Plumb²,

Leavens³

et al. 1998

Rapid Commun. Mass Spectrom.

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A liquid chromatography tandem mass spectrometry (LC/MS/MS) method has been developed for the fast routine analysis of selected CYP450 probe substrate metabolites in microsomal incubations, with no sample pretreatment. This has allowed fast and simple assessment of the potential effects which drug candidates may or may not have on the metabolism of specific CYP450 probe substrates, providing information which can then be used to rationalize in vivo interaction studies required in the clinic. This methodology takes advantage of fast gradient chromatography as a generic means of sample separation and analysis. It provides high throughput analysis compared to conventional gradient HPLC, with no significant loss in chromatographic performance.

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Derivatization for liquid chromatography/electrospray mass spectrometry: synthesis of tris(trimethoxyphenyl)phosphonium compounds and their derivatives of amine and carboxylic acids

Leavens

Lane

Carr

et al. 2002

Rapid Commun. Mass Spectrom.

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Optimisation and routine use of generic ultra-high flow-rate liquid chromatography with mass spectrometric detection for the direct on-line analysis of pharmaceuticals in plasma

Ayrton

Dear

Leavens

et al. 1998

Journal of Chromatography A

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The absolute bioavailability and metabolic disposition of the novel antimigraine compound zolmitriptan (311C90)

Seaber

Dixon

et al. 1997

Brit J Clinical Pharma

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Aims Two open studies in healthy volunteers were conducted to determine the absolute bioavailability and metabolic disposition of zolmitriptan (311C90), a novel 5HT 1D agonist for the acute treatment of migraine. Methods After an initial test i.v. infusion, bioavailabilty was assessed by comparison of AUC after an i.v. infusion (3.5 mg ) and an oral tablet (10 mg), in six men and six women using a randomised, crossover design. Disposition was studied by administration of a 25 mg capsule, labelled with 100 mCi [ 14 C]-zolmitriptan, to five men and one woman on a single occasion. Results Zolmitriptan was well tolerated by both i.v. and oral routes. Adverse events were mostly mild, consistent with earlier studies and characteristic of this class of drug. Reports were similar in nature and number after both oral and iv dosing. Mean±s.d. oral bioavailability was 0.49±0.24 (0.38±0.16 in men and 0.60±0.28 in women). After oral dosing, C max and AUC values in women were approximately double those in men. Relative to zolmitriptan concentrations, metabolite concentrations were higher after oral dosing than after i.v., and higher in men compared with women. Half-life was significantly longer after oral dosing (mean 22%, 95% CI 6-35%). Mean±s.d. values for CL, V z and t 1/2,z after i.v. dosing (all subjects) were 8.7±1.7 ml min −1 kg −1 , 122±32 l and 2.30±0.59 h respectively. Following administration of 25 mg [ 14 C]-zolmitriptan, 91.5% of the dose was recovered in 7 days, 64.4±6.5% in urine and 27.1±6.0% in faeces. Less than 10% was recovered unchanged in urine, with 31.1±6.4% recovered as the inactive indole acetic acid metabolite. Most of the faecal material was unchanged zolmitriptan, representing unabsorbed drug. Plasma concentrations of [ 14 C] were slightly higher than those of the summed concentrations of known analytes zolmitriptan, the active N-desmethyl metabolite (183C91), the inactive N-oxide (1652W92) and indole acetic acid (2161W92) metabolites, which accounted for 86% of total plasma radioactivity. No other significant metabilites were detected in plasma. Some minor additional metabolites were detected in urine, none of which contributed more than 5% of the dose. Conclusions The data suggest that zolmitriptan undergoes first-pass metabolism and this is more extensive in men than in women. Zolmitriptan has suitable bioavailabilty for an acute oral migraine treatment and there are no significant unidentified metabolites in man.

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