Abstract:
Molecular imaging mass spectrometry is used to reveal the relative distribution of peptides
and proteins throughout a sample surface (biological tissue). Recording the distribution of
elements and bio-molecules in cell and tissues will help to address many issues in today’s
cell biology and medicine. Matrix Assisted Laser Desorption/ionization (MALDI) mass
spectrometry has been used for molecular imaging purposes decade ago to create a
chemical images of substrates.
The conventional scanning technique of MALDI molecular imaging mass spectrometry is
performed by ablating the entire sample surface with laser spots in a pattern of array. The
pixel size of the image or the spot size of the laser beam is typically referred to as the
spatial resolution in MALDI molecular imaging mass spectrometry. The laser spot size,
focused on the sample surface is a major parameter in determining the spatial resolution.
The variation of laser spot size on the MALDI target at different angles of the laser beam
were studied in this research, analyzing the photographic images of laser burnt spots on a
thin layer of 4-hydroxy-!-cyanocinnamic acid (!-HCCA) using the Digimizer software
(trial version).
The commercialized two MALDI mass spectrometers, in which the laser beam incidents
on the target at an angle of 30o
and 60o
with their mass spectrometer axis produced
elliptical spots on the thin layer of !-HCCA . In this study, for different laser incident
angles using a developed MALDI ion source analyzed the spots on the target. According
to the results the ratio of minimum and maximum diameters of each elliptical laser spot
were related to the cosine of their incident angle. When the laser incident angle on the
target changes from 60o
to 0o
, the shape of the laser spot turned to circular with the
minimum diameter. The maximum diameter of elliptical laser spot decreases in "50%
when the laser incident angle on the MALDI target changes from 60o
to 30o
, but it is about
15 % for the laser incident angle variation from 30o
to 0o
. Therefore the modification of
MALDI ion source in order to improve the spatial resolution in molecular imaging mass
spectrometry is less effective below the 30o
of laser incident angle on the target