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Literature DB >> 28078485

A Simple Method for Improving the Spatial Resolution in Infrared Laser Ablation Mass Spectrometry Imaging.

Juha-Pekka Hieta¹, Anu Vaikkinen¹, Samuli Auno¹, Heikki Räikkönen¹, Markus Haapala¹, Gianmario Scotti¹, Jaakko Kopra¹, Petteri Piepponen¹, Tiina J Kauppila².

Abstract

In mass spectrometry imaging of tissues, the size of structures that can be distinguished is determined by the spatial resolution of the imaging technique. Here, the spatial resolution of IR laser ablation is markedly improved by increasing the distance between the laser and the focusing lens. As the distance between the laser and the lens is increased from 1 to 18 m, the ablation spot size decreases from 440 to 44 μm. This way, only the collimated center of the divergent laser beam is directed on the focusing lens, which results in better focusing of the beam. Part of the laser energy is lost at longer distance, but this is compensated by focusing of the radiation to a smaller area on the sample surface. The long distance can also be achieved by a set of mirrors, between which the radiation travels before it is directed to the focusing lens and the sample. This method for improving the spatial resolution can be utilized in mass spectrometry imaging of tissues by techniques that utilize IR laser ablation, such as laser ablation electrospray ionization, laser ablation atmospheric pressure photoionization, and matrix-assisted laser desorption electrospray ionization. Graphical Abstract ᅟ.

Entities: Disease

Keywords: Ambient mass spectrometry; IR laser ablation; Laser ablation atmospheric pressure photoionization; Laser ablation electrospray ionization; Laser focusing; Mass spectrometry imaging; Matrix-assisted laser desorption electrospray Ionization; Metastable-induced chemical ionization; Spatial resolution; Tissue imaging

Year: 2017 PMID： 28078485 DOI： 10.1007/s13361-016-1578-7

Source DB: PubMed Journal: J Am Soc Mass Spectrom ISSN： 1044-0305 Impact factor: 3.109

24 in total

1. Desorption/ionization of biomolecules from aqueous solutions at atmospheric pressure using an infrared laser at 3 microm.

Authors: Victor V Laiko; Nelli I Taranenko; Vadym D Berkout; Mikhail A Yakshin; Coorg R Prasad; H Sang Lee; Vladimir M Doroshenko
Journal: J Am Soc Mass Spectrom Date: 2002-04 Impact factor: 3.109

2. High-resolution atmospheric pressure infrared laser desorption/ionization mass spectrometry imaging of biological tissue.

Authors: Andreas Römpp; Karl Christian Schäfer; Sabine Guenther; Zheng Wang; Martin Köstler; Arne Leisner; Carmen Paschke; Thorsten Schramm; Bernhard Spengler
Journal: Anal Bioanal Chem Date: 2013-07-23 Impact factor: 4.142

3. Ambient molecular imaging and depth profiling of live tissue by infrared laser ablation electrospray ionization mass spectrometry.

Authors: Peter Nemes; Alexis A Barton; Yue Li; Akos Vertes
Journal: Anal Chem Date: 2008-05-13 Impact factor: 6.986

4. Small molecule ambient mass spectrometry imaging by infrared laser ablation metastable-induced chemical ionization.

Authors: Asiri S Galhena; Glenn A Harris; Leonard Nyadong; Kermit K Murray; Facundo M Fernández
Journal: Anal Chem Date: 2010-03-15 Impact factor: 6.986

5. Quantitative mass spectrometry imaging of emtricitabine in cervical tissue model using infrared matrix-assisted laser desorption electrospray ionization.

Authors: Mark T Bokhart; Elias Rosen; Corbin Thompson; Craig Sykes; Angela D M Kashuba; David C Muddiman
Journal: Anal Bioanal Chem Date: 2014-10-16 Impact factor: 4.142

6. MSiReader: an open-source interface to view and analyze high resolving power MS imaging files on Matlab platform.

Authors: Guillaume Robichaud; Kenneth P Garrard; Jeremy A Barry; David C Muddiman
Journal: J Am Soc Mass Spectrom Date: 2013-03-28 Impact factor: 3.109

7. Simultaneous imaging of small metabolites and lipids in rat brain tissues at atmospheric pressure by laser ablation electrospray ionization mass spectrometry.

Authors: Peter Nemes; Amina S Woods; Akos Vertes
Journal: Anal Chem Date: 2010-02-01 Impact factor: 6.986

8. TransOmic analysis of forebrain sections in Sp2 conditional knockout embryonic mice using IR-MALDESI imaging of lipids and LC-MS/MS label-free proteomics.

Authors: Philip Loziuk; Florian Meier; Caroline Johnson; H Troy Ghashghaei; David C Muddiman
Journal: Anal Bioanal Chem Date: 2016-03-04 Impact factor: 4.142

9. In Situ Analysis of Small Populations of Adherent Mammalian Cells Using Laser Ablation Electrospray Ionization Mass Spectrometry in Transmission Geometry.

Authors: Rachelle S Jacobson; Richard L Thurston; Bindesh Shrestha; Akos Vertes
Journal: Anal Chem Date: 2015-11-20 Impact factor: 6.986

10. A cross-platform toolkit for mass spectrometry and proteomics.

Authors: Matthew C Chambers; Brendan Maclean; Robert Burke; Dario Amodei; Daniel L Ruderman; Steffen Neumann; Laurent Gatto; Bernd Fischer; Brian Pratt; Jarrett Egertson; Katherine Hoff; Darren Kessner; Natalie Tasman; Nicholas Shulman; Barbara Frewen; Tahmina A Baker; Mi-Youn Brusniak; Christopher Paulse; David Creasy; Lisa Flashner; Kian Kani; Chris Moulding; Sean L Seymour; Lydia M Nuwaysir; Brent Lefebvre; Frank Kuhlmann; Joe Roark; Paape Rainer; Suckau Detlev; Tina Hemenway; Andreas Huhmer; James Langridge; Brian Connolly; Trey Chadick; Krisztina Holly; Josh Eckels; Eric W Deutsch; Robert L Moritz; Jonathan E Katz; David B Agus; Michael MacCoss; David L Tabb; Parag Mallick
Journal: Nat Biotechnol Date: 2012-10 Impact factor: 54.908

5 in total

5. Mass Spectrometry Imaging of Arabidopsis thaliana Leaves at the Single-Cell Level by Infrared Laser Ablation Atmospheric Pressure Photoionization (LAAPPI).

Authors: Juha-Pekka Hieta; Nina Sipari; Heikki Räikkönen; Markku Keinänen; Risto Kostiainen
Journal: J Am Soc Mass Spectrom Date: 2021-11-05 Impact factor: 3.109