Innovating the
Pesticide Workflow
Internationally, food safety organizations are struggling to meet a wide va- riety of new pesticide-monitoring regulations as food sources and mar- kets become more globally diverse. Governments and trade
organizations are increasing the number of pesticides that must be
screened for and lowering maximum residue limits (MRLs), leaving food
producers scrambling to respond.
International regulations on MRLs of pesticides in food now cover hun-
dreds of individual components—Japan’s MRL list has over 800 com-
pounds—at levels down to 10 ppb. Meeting
the expanded new requirements has forced
food safety teams to address a variety of
new technical and budget issues by turning
to chromatography/mass spectrometry in-
struments to run multi-residue methods.
However, the multi-residue method has
complications as well. More than 500 regu-
lated pesticides can be analyzed by gas
chromatography/mass spectrometry
(GC/MS), while a larger group is covered by
liquid chromatography/MS (LC/MS) meth-
ods. Both those solutions share several challenges including:
• Reducing the matrix effect on method performance
• Meeting analytical figures of merit for new regulations and standards
• Increasing throughput to accommodate higher workloads
• Streamlining the method, data collection and reporting workflow
Thermo Fisher Scientific can help food safety professionals face these
challenges with its new TraceFinder™ software, a platform that can run
both LC and GC triple-stage quadrupole mass spectrometry instruments.
TraceFinder offers a unified workflow for GC and LC analysis, giving labs
the flexibility to confidently analyze and report thousands of residues.
These integrated solutions are ideal for multi-residue, simultaneous tar-
geted screening, confirmation, and quantitation.
To create a method for targeted
screening and quantitation, users simply
choose the test, build the sample list,
choose the report options and submit the
samples for analysis. Users access the
built-in selective reaction monitoring
(SRM) library and choose the chromatography/mass spectrometry conditions to
create the desired method.
Reduced Matrix Effects
SRM is the primary technique used
with a triple-stage quadrupole mass spectrometer for quantitative analysis. However,
selection of a precursor ion at a normal
unit (1 amu) resolution often suffers chemical noise interferences from endogenous
biological and environmental matrices.
Only the TSQ Series LC/MS and the
TSQ Quantum GC offer increased resolution using Highly Selective Reaction Monitoring (H-SRM). By removing isobaric
chemical noise, H-SRM increases signal-to-noise (S/N), improving limits of quantitation and providing higher-confidence
results. H-SRM also reduces the possibility of false positives, even in heavy matrix,
without sacrificing sensitivity.
www.thermo.com/lowmrl
Precise, Versatile and Robust Quantitation
Triple-stage quadrupole detection technology coupled with chromatography offers improved throughput, confidence and reduced cost-per-analy-sis, making it a powerful tool for food safety testing. This detector
technology measures the mass of target molecules and their unique reaction ions for both quantitation and residue identity confirmation.
Both the new Thermo Scientific TSQ Quantum Access MAX triple-stage
quadrupole mass spectrometer for LC-MS and the Thermo Scientific TSQ
Quantum GC triple-stage quadrupole for GC-MS are based on the proven
Thermo Scientific TSQ detection platform.
Shared are several features that provide higher sensitivity and lower detection limits, making them well suited for regulated environments like food
safety. We created an LC-MS/MS method to screen for 250 pesticides (500
timed SRMs) in a crop extract at 1- and 10-ppb levels.
Increased Productivity
More regulated residues and lower
MRLs have made high-throughput analysis critical to ensuring that testing
processes do not slow production levels.
For LC analysis, the Thermo Scientific
Accela chromatographic system provides
seamless operation spanning conventional LC pressures up to 15,000 psi for
rapid (2- to 10-minute) separations of
complex mixtures. The Thermo Scientific
TRACE GC Ultra uses a full range of detectors and injectors that can increase
sample throughput by 30 times without
compromising precision.
Simultaneous Quantitation and
Confirmation
The Thermo Scientific Quantitation-En-hanced Data-Dependent MS/MS (
QED-MS/MS) scan function increases
throughput by providing simultaneous
quantitation and structural confirmation.
The acquired QED-MS/MS data can be
subsequently searched against a built-in
library of well-known contaminants for further structural confirmation.
Simplified Workflow
TraceFinder software can run either the LC or GC triple-quadrupole instruments and was designed specifically to serve novice users in the food
testing industry. Its menu of preconfigured methods and report formats
simplifies routine contaminant screening, helping laboratories meet increasingly stringent monitoring requirements and boost productivity.
Conclusion
TraceFinder software, coupled with TSQ
technology, enables users to seamlessly
combine LC and GC analysis of residues to
meet any food testing need for quantitation.
