Emanuela Gionfriddo scite author profile

The direct interface of microextraction technologies to mass spectrometry (MS) has unquestionably revolutionized the speed and efficacy at which complex matrices are analyzed. Solid Phase Micro Extraction-Transmission Mode (SPME-TM) is a technology conceived as an effective synergy between sample preparation and ambient ionization. Succinctly, the device consists of a mesh coated with polymeric particles that extracts analytes of interest present in a given sample matrix. This coated mesh acts as a transmission-mode substrate for Direct Analysis in Real Time (DART), allowing for rapid and efficient thermal desorption/ionization of analytes previously concentrated on the coating, and dramatically lowering the limits of detection attained by sole DART analysis. In this study, we present SPME-TM as a novel tool for the ultrafast enrichment of pesticides present in food and environmental matrices and their quantitative determination by MS via DART ionization. Limits of quantitation in the subnanogram per milliliter range can be attained, while total analysis time does not exceed 2 min per sample. In addition to target information obtained via tandem MS, retrospective studies of the same sample via high-resolution mass spectrometry (HRMS) were accomplished by thermally desorbing a different segment of the microextraction device.

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Towards on-site analysis of complex matrices by solid-phase microextraction-transmission mode coupled to a portable mass spectrometer via direct analysis in real time

Gómez‐Ríos

Vasiljević

Gionfriddo

et al. 2017

Analyst

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On-site screening for target analytes in complex matrices, such as biofluids and food specimens, not only requires reliable and portable analytical instrumentation, but also solvent-free and easy-to-use sampling/sample preparation approaches that allow analytes of interest to be isolated from such matrices. The integration of sampling devices with field deployable instruments should be as efficient as possible, and should aim to provide rapid, precise, and accurate results that enable quick on-site decision. In this study, we evaluated solid-phase microextraction-transmission (SPME-TM) coupled to a portable single quadrupole MS system, via direct analysis in real time (DART), as an effective tool for the rapid screening of target analytes in biological and food matrices. Limits of quantitation (LOQ) in the low parts-per-billion levels (≤50 ng mL) were attained for most of the investigated analytes with total analysis times under 2 min per sample. Furthermore, we explored the suitability of this technology for on-site rapid molecular profiling of complex matrices. As a proof-of-concept, we demonstrate the rapid identification of milk samples from assorted animal and vegetal sources.

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Emanuela Gionfriddo

Advances in Solid Phase Microextraction and Perspective on Future Directions

A critical review of the state of the art of solid-phase microextraction of complex matrices I. Environmental analysis

A critical review of the state of the art of solid-phase microextraction of complex matrices II. Food analysis

Ultrafast Screening and Quantitation of Pesticides in Food and Environmental Matrices by Solid-Phase Microextraction–Transmission Mode (SPME-TM) and Direct Analysis in Real Time (DART)

Towards on-site analysis of complex matrices by solid-phase microextraction-transmission mode coupled to a portable mass spectrometer via direct analysis in real time

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