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  • Simple and rapid determination of amphetamine, methamphetamine, and their methylenedioxy derivatives in urine by automated in-tube solid-phase microextraction coupled with liquid chromatography-electrospray ionization mass spectrometry.

Simple and rapid determination of amphetamine, methamphetamine, and their methylenedioxy derivatives in urine by automated in-tube solid-phase microextraction coupled with liquid chromatography-electrospray ionization mass spectrometry.

Journal of analytical toxicology (2000-06-29)
H Kataoka, H L Lord, J Pawliszyn
RÉSUMÉ

A simple and rapid method for the determination of amphetamine, methamphetamine, and their 3,4-methylenedioxy derivatives in urine samples was developed using automated in-tube solid-phase microextraction (SPME) coupled with liquid chromatography-electrospray ionization mass spectrometry (LC-ESI-MS). In-tube SPME is an extraction technique for organic compounds in aqueous samples in which analytes are extracted from the sample directly into an open tubular capillary by repeated draw/eject cycles of sample solution. LC-MS analyses of stimulants were initially performed by liquid injection onto an LC column to determine spectra. Five stimulants tested in this study gave very simple ESI mass spectra, and strong signals corresponding to [M+H]+ were observed for all stimulants. The stimulants were well separated with a Supelcosil LC-CN column using acetonitrile/50mM ammonium acetate (15:85) as a mobile phase. In order to optimize the extraction of stimulants, several in-tube SPME parameters were examined. The optimum extraction conditions were 15 draw/eject cycles of 35 microL of sample in 50mM Tris-HCI (pH 8.5) at a flow rate of 100 microL/min using an Omegawax 250 capillary column. The stimulants extracted by the capillary were easily desorbed by mobile phase flow, and carryover of stimulants was not observed. Using in-tube SPME-LC-ESI-MS with selected ion monitoring, the calibration curves of stimulants were linear in the range from 2 to 100 ng/mL with correlation coefficients above 0.9985 (n = 18) and detection limits (S/N = 3) of 0.38-0.82 ng/mL. This method was successfully applied to the analysis of human urine samples without interference peaks. The recoveries of stimulants spiked into urine samples were above 81%.

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Supelco
Colonne HPLC SUPELCOSIL LC-CN, 5 μm particle size, L × I.D. 25 cm × 4.6 mm
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Omegawax 250, 320 and 530, L × I.D. 30 m × 0.25 mm, df 0.25 μm
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Colonne HPLC SUPELCOSIL LC-CN, 5 μm particle size, L × I.D. 15 cm × 4.6 mm
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Omegawax 250, 320 and 530, L × I.D. 30 m × 0.32 mm, df 0.25 μm
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Colonne HPLC SUPELCOSIL LC-NH2-NP, 5 μm particle size, L × I.D. 25 cm × 4.6 mm
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Colonne HPLC SUPELCOSIL LC-CN, 3 μm particle size, L × I.D. 3.3 cm × 4.6 mm
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Omegawax 250, 320 and 530, L × I.D. 15 m × 0.10 mm, df 0.10 μm
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Colonne HPLC SUPELCOSIL LC-CN, 3 μm particle size, L × I.D. 3.3 cm × 3 mm
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Colonne HPLC SUPELCOSIL LC-CN, 3 μm particle size, L × I.D. 7.5 cm × 4.6 mm
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Cartouches SUPELCOSIL LC-CN Supelguard, 5 μm particle size, L × I.D. 2 cm × 4 mm
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Cartouche Supelguard SUPELCOSIL LC-MH2-NP, 5 μm particle size, L × I.D. 2 cm × 4 mm
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Cartouches SUPELCOSIL LC-CN Supelguard, 5 μm particle size, L × I.D. 2 cm × 4 mm
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Colonne HPLC SUPELCOSIL LC-CN, 3 μm particle size, L × I.D. 7.5 cm × 3 mm