We present a modified microfluidic open interface (MOI) for the direct coupling of Bio-SPME to a liquid electron ionization-tandem mass spectrometry (LEI-MS/MS) system as a sensitive technique that can directly analyze biological samples without the need for sample cleanup or chromatographic separations as well as without measurable matrix effects (ME). We selected fentanyl as test compound. The method uses a C18 Bio-SPME fiber by direct immersion (DI) in urine and plasma and the subsequent quick desorption (1 min) in a flow-isolated volume (2.5 μL) filled with an internal standard−acetonitrile solution. The sample is then transferred to an EI source of a triple-quadrupole mass spectrometer via a LEI interface at a nanoscale flow rate. The desorption and analysis procedure requires less than 10 min. Up to 150 samples can be analyzed without observing a performance decline, with fentanyl quantitation at microgram-per-liter levels. The method workflow is extremely dependable, relatively fast, sustainable, and leads to reproducible results that enable the high-throughput screening of various biological samples.

Rocío-Bautista, P., Famiglini, G., Termopoli, V., Palma, P., Nazdrajić, E., Pawliszyn, J., et al. (2021). Direct Coupling of Bio-SPME to Liquid Electron Ionization-MS/MS via a Modified Microfluidic Open Interface. JOURNAL OF THE AMERICAN SOCIETY FOR MASS SPECTROMETRY, 32(1), 262-269 [10.1021/jasms.0c00303].

Direct Coupling of Bio-SPME to Liquid Electron Ionization-MS/MS via a Modified Microfluidic Open Interface

Veronica Termopoli;
2021

Abstract

We present a modified microfluidic open interface (MOI) for the direct coupling of Bio-SPME to a liquid electron ionization-tandem mass spectrometry (LEI-MS/MS) system as a sensitive technique that can directly analyze biological samples without the need for sample cleanup or chromatographic separations as well as without measurable matrix effects (ME). We selected fentanyl as test compound. The method uses a C18 Bio-SPME fiber by direct immersion (DI) in urine and plasma and the subsequent quick desorption (1 min) in a flow-isolated volume (2.5 μL) filled with an internal standard−acetonitrile solution. The sample is then transferred to an EI source of a triple-quadrupole mass spectrometer via a LEI interface at a nanoscale flow rate. The desorption and analysis procedure requires less than 10 min. Up to 150 samples can be analyzed without observing a performance decline, with fentanyl quantitation at microgram-per-liter levels. The method workflow is extremely dependable, relatively fast, sustainable, and leads to reproducible results that enable the high-throughput screening of various biological samples.
Articolo in rivista - Articolo scientifico
electron ionization; fentanyl; LEI; liquid-EI interface; matrix effects; microfluidic open interface; MOI; nano-LC-MS/MS; SPME;
English
20-nov-2020
2021
32
1
262
269
partially_open
Rocío-Bautista, P., Famiglini, G., Termopoli, V., Palma, P., Nazdrajić, E., Pawliszyn, J., et al. (2021). Direct Coupling of Bio-SPME to Liquid Electron Ionization-MS/MS via a Modified Microfluidic Open Interface. JOURNAL OF THE AMERICAN SOCIETY FOR MASS SPECTROMETRY, 32(1), 262-269 [10.1021/jasms.0c00303].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/331754
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