Water-assisted Laser Desorption/ionization Mass Spectrometry for Minimally Invasive in Vivo and Real-time Surface Analysis Using SpiderMass

Overview

Journal Nat Protoc

Specialties Biology
Pathology
Science

Date 2019 Oct 11

PMID 31597965

Citations 13

Authors

Nina Ogrinc

Philippe Saudemont

Julia Balog

Yves-Marie Robin

Jean-Pascal Gimeno

Quentin Pascal

Dominique Tierny

Zoltan Takats

Michel Salzet

Isabelle Fournier

Affiliations

Soon will be listed here.

Abstract

Rapid, sensitive, precise and accurate analysis of samples in their native in vivo environment is critical to better decipher physiological and physiopathological mechanisms. SpiderMass is an ambient mass spectrometry (MS) system designed for mobile in vivo and real-time surface analyses of biological tissues. The system uses a fibered laser, which is tuned to excite the most intense vibrational band of water, resulting in a process termed water-assisted laser desorption/ionization (WALDI). The water molecules act as an endogenous matrix in a matrix-assisted laser desorption ionization (MALDI)-like scenario, leading to the desorption/ionization of biomolecules (lipids, metabolites and proteins). The ejected material is transferred to the mass spectrometer through an atmospheric interface and a transfer line that is several meters long. Here, we formulate a three-stage procedure that includes (i) a laser system setup coupled to a Waters Q-TOF or Thermo Fisher Q Exactive mass analyzer, (ii) analysis of specimens and (iii) data processing. We also describe the optimal setup for the analysis of cell cultures, fresh-frozen tissue sections and in vivo experiments on skin. With proper optimization, the system can be used for a variety of different targets and applications. The entire procedure takes 1-2 d for complex samples.

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Ambient Mass Spectrometry Imaging by Water-Assisted Laser Desorption/Ionization for Ex Vivo and in Vivo Applications.

Ogrinc N, Chaillou P, Kruszewski A, Duriez C, Salzet M, Fournier I Methods Mol Biol. 2023; 2688:83-94.

PMID: 37410286 DOI: 10.1007/978-1-0716-3319-9_8.