"Productivity and Simplicity" - Streamlining Cumbersome Sample Preparation in the Lab
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Transcript of "Productivity and Simplicity" - Streamlining Cumbersome Sample Preparation in the Lab
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“Productivity and Simplicity” Streamlining Cumbersome Sample Preparation
Workflows in the Analytical Lab
Oscar G. Cabrices Ph.D.GERSTEL, Inc.Linthicum, MD
Industrial MS Symposium – New Jersey June 9th 2015
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OutlineGERSTEL’s goal is to deliver customer focused solutions with intelligent automation for GC/MS & LC/MS in the Industrial research laboratory.
This presentation will exemplify how can tedious and routine sample preparation workflows can be simplified and improved for analysis:
Dilutions and Liquid Liquid Extractions Calibration Curve Generation and IS Spiking Enzymatic Reactions and Derivatizations Post QuEChERS or QuPPE sample cleanup and enrichment Centrifugation and Solid Phase Extraction Filtration and Large Volume Injections
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MultiPurposeSampler MPSfor LC/MS
MPS Workstation
Our Technology…
MultiPurposeSampler MPSfor GC/MS
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MultiPurposeSampler MPSfor GC/MS
Disposable PipetteExtraction DPX
Solid PhaseExtraction SPE
Twister
MAESTROSoftware
ThermalDesorptionSystem TDS
ThermalDesorptionUnit TDU
Automated TDULiner Exchange ATEX
AutomatedLiner EXchange ALEX
MultiFiber EXchangeMFX
DynamicHeadspaceDHS
Cooled InjectionSystem CIS
PreparativeFractionCollector PFC
Olfactory DetectionPort OPD
MAESTROPrepAhead
easy LinerExchange eLEX
MultiPurposeSampler MPSfor LC/MS
MPS Workstation
µFlowManagerTDU PYRO
Selectable1D/2DGC/MS
LC/MSEffluentOptimizer LEO
MultiPositionEvaporationStation mVAP
A “Snack” of our Portfolio of Techniques
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Puzzled?
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Historically, liquid-liquid extractions are a basic technique in chemical laboratories and are used to extract analytes from a variety of different matrices.
A partitioning method is used to separate compounds based on their relative solubility in two different immiscible liquids (e.g., water and an organic solvent).
However, as a general rule, liquid-liquid extractions are manually intensive.
Example # 1: Automating LLE
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LLE of Drugs from SerumHere is a typical manual LLE workflow:
1mL of serum sample is placed into a 10mL vial and capped with a magnetically transportable cap and placed onto the autosampler.Add 100mL of 5000ng/mL working internal standard to the sample.Add 1mL of 10mM potassium hydroxide to the sample.Add 5mL of (7:3) methyl-t-butyl ether: dichloromethane to the sample.Vortex for 5minutes at 2000rpm.Centrifuge samples for 5minutes at 3000rpm.Transfer 4mL of the organic layer to a clean, 10mL vial that had been previously capped with a magnetically transportable cap.Evaporate to dryness at 40oC for 20minutes.Reconstitute residues using 0.500mL of (90:10) 0.05% formic acid in water: methanol.Filter resulting sample using a 0.45mm nylon filter into a clean 2mL autosampler vial and Inject into LC/MS/MS
Can it be automated and optimized?
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After sample is initially received, load an aliquot on the GERSTEL MPS for automated LLE processing:
Load vials containing biological sample and extraction solvents on MPS
MPS mixes sample Buffer, Organic solvents and Internal Standard
Evaporate organic layer and Reconstitute in Mobile Phase
Filter extract with 4 mm filter
Inject 2 µL sample to LC/MS/MS
LLE of Drugs from Serum
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Four organic solvents Polarity Index• (99:1) Hexane:IPA 0• MTBE 2.5• Methylene Chloride 3.1• Ethyl Acetate 4.4Three (3) pH levels• 10mM HCl acid• 10mM Ammonium Acetate neutral• 10mM Potassium Hydroxide base
Test Matrices and Compounds:•Bovine Serum for Ketamine•Bovine Lyophilized Plasma:• Buprenorphine and Norbuprenorphine
with deuterated Internal StandardsThree extractions with each organic solvent (90%rule)
Automated LLE Method Development
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Automated BenchPrep for LLE
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Automated LLE-LC/MS/MS workflow
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Just
released!
GERSTEL CF-200 Centrifuge
System prompts user for offline Centrifugation when needed
Automated LLE-LC/MS/MS workflow
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Ketamine Automated Liquid-Liquid Extraction Results
Sample Name Response ISTD Resp Resp Ratio1000ng/mL neat Ketamine std 1 11878597 16748195 0.70921000ng/mL neat Ketamine std 2 12544625 17637186 0.71131000ng/mL neat Ketamine std 3 12259205 17294488 0.7089
mean 12227475 17226623 0.7098SD 334146 448364 0.00129
%CV 2.73 2.60 0.182
LiqLiq Extr rep 1 9794014 15573317 0.6289LiqLiq Extr rep 2 9891262 15714821 0.6294LiqLiq Extr rep 3 9484299 15152067 0.6259LiqLiq Extr rep 4 9761104 15417946 0.6331
mean 9732670 15464538 0.6293SD 174558 241028 0.00294
%CV 1.79 1.56 0.467%Recovery 79.6 89.8 88.7
Results from Automated LLE-LC/MS/MS
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Results from Automated LLE-LC/MS/MS
Hex:IP
A_ acid
ic
Hex:IP
A_ bas
ic
EtOAc_
neutr
al
MTBE_ acid
ic
MTBE_ bas
ic
MeCl2_
neutr
al90.0
94.0
98.0
102.0
106.0
Norbuprenorphine %Recovery by Ratio
Hex:IP
A_ acid
ic
Hex:IP
A_ bas
ic
EtOAc_
neutr
al
MTBE_ acid
ic
MTBE_ bas
ic
MeCl2_
neutr
al90
94
98
102
Buprenorphine %Recovery by Ratio
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Main Objective:To develop a completely automated urine sample handling and analysis workflow using LC/MS/MS for comprehensive screening of multiple drug classes.
Clinical/forensic chemists perform a lengthy variety of sample handling steps prior to analyses in order to determine the final concentrations of analytes in urine samples:
1. Asess the sample2. Hydrolyze (15 min for Acid/Base or
2hrs enzymatic)3. Cleanup and Derivatization4. Analysis by GC/MS or LC/MS
Enzymatic Hydrolysis Reaction (Source: Sigma-Aldrich)
Example # 2: Enzymatic Reactions
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After urine sample is initially received, centrifuge to remove any particulates or proteins present. Then load an alliquot on the GERSTEL MPS
Load plates and reagents on MPS
MPS mixes urine sample Buffer, Enzyme and Internal Standard
Incubate sample for 15 minutes
MPS dilutes hydrolyzed sample with Mobile Phase A
Inject 2 µL sample to LC/MS/MS
Automated Prep and Shoot hydrolysis
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GERSTEL MPS 2 multi-purpose sampler configured with an AB SCIEX QTRAP® 4500 LC/MS/MS system.
Automated Prep and Shoot hydrolysis
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MT-96 Back Plate containing Urine Sample
MT-96 Front Plate containing Mobile Phase
A
Buffer/Enzyme/ISsolutions
DW-96 Empty Plate
Well plate incubating
station
LC/MS/MS Injection valve
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The efficiency of the automated enzymatic hydrolysis was examined by spiking blank urine with different glucuronide conjugates.
Morphine-3-glucuronideOxymorphone-glucuronide
Codeine-6-glucuronideTapentadol-glucuronide
Buprenorphine-glucuronideOxazepam-glucuronideLorazepam-glucuronideTHC-COOH-glucuronide
Automated Hydrolysis performance
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XIC of +MRM (30 pairs): Exp 1, 222.000/107.000 amu Expected RT: 3.0 ID: Tapentadol 1 from Sample 6 (100) of UrineHydrolysis_Cal... Max. 7.3e4 cps.
1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 4.0 4.2 4.4Time, min
0.0
1.0e4
2.0e4
3.0e4
4.0e4
5.0e4
6.0e4
7.0e4
8.0e4
9.0e4
1.0e5
1.1e5
1.2e5
1.3e5
1.4e5
1.5e5
1.6e5
1.7e5
1.8e5
1.9e5
2.0e5
Inte
ns
ity, c
ps
3.15
XIC of +MRM (30 pairs): Exp 1, 398.200/222.300 amu Expected RT: 2.8 ID: tapentadol gluc 1 from Sample 6 (100) of UrineHydrolysis... Max. 1.3e4 cps.
1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 4.0 4.2Time, min
0.0
2000.0
4000.0
6000.0
8000.0
1.0e4
1.2e4
1.4e4
1.6e4
1.8e4
2.0e4
2.2e4
2.4e4
2.6e4
2.8e4
3.0e4
3.2e4
3.3e4
Inte
ns
ity, c
ps
2.83
XIC of -MRM (6 pairs): Exp 2, 343.200/299.300 amu Expected RT: 4.9 ID: THC-COOH 1 from Sample 6 (100) of UrineHydrolysis_Calc... Max. 1.1e4 cps.
1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 4.0 4.2 4.4 4.6 4.8 5.0Time, min
0.00
500.00
1000.00
1500.00
2000.00
2500.00
3000.00
3500.00
4000.00
4500.00
5000.00
5500.00
6000.00
6500.00
7000.00
7500.00
8000.00
8500.00
9000.00
9500.00
1.00e4
1.05e4
1.10e4
Inte
ns
ity, c
ps
4.92
XIC of -MRM (6 pairs): Exp 2, 494.900/318.900 amu Expected RT: 4.1 ID: lorazepam gluc 1 from Sample 6 (100) of UrineHydrolysis_C... Max. 370.0 cps.
1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 4.0 4.2 4.4 4.6 4.8 5.0Time, min
0
20
40
60
80
100
120
140
160
180
200
220
240
260
280
300
320
340
360370
Inte
ns
ity, c
ps
4.09
3.97
ESI+ ESI-
ESI+ ESI-
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XIC of +MRM (105 pairs): 414.000/187.000 amu Expected RT: 2.6 ID: Norbuprenorphine 1 from Sample 2 (Test Hydrolysis Sample) of TestH... Max. 3.3e4 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5Time, min
0.0
2000.0
4000.0
6000.0
8000.0
1.0e4
1.2e4
1.4e4
1.6e4
1.8e4
2.0e4
2.2e4
2.4e4
2.6e4
2.8e4
3.0e4
3.2e4
3.4e4
3.6e4
3.8e4
4.0e4
4.2e4
4.4e4
4.6e4
4.8e4
5.0e4
5.2e4
5.4e45.5e4
Inte
nsity, c
ps
2.58
3.072.38 2.77
XIC of +MRM (105 pairs): 590.000/414.000 amu Expected RT: 2.2 ID: Norbuprenorphine-gluc 1 from Sample 2 (Test Hydrolysis Sample) of ... Max. 1333.0 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5Time, min
0
50
100
150
200
250
300
350
400
450
500
550
600
650
700
750
800
850
900
950
1000
1050
1100
1150
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1250
13001333
Inte
ns
ity, c
ps
2.69
2.53
1.97
2.32 2.452.171.75
Norbuprenorphine
Norbuprenorphine-G
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Over 95% hydrolysis was achieved for most compounds
Analyte % HydrolyzedMorphine-3G 99.70%
Oxymorphone-G 99.80%Codeine-6G 80.50%
Tapentadol-G 97.90%Buprenorphine-G 99.60%
Oxazepam-G 95.80%Lorazepam-G 99.30%THC-COOH-G 94.40%
Norbup-G 99.80%
Automated Hydrolysis performance
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Ten (10) incurred urine samples with semi quantitative results were automatically hydrolyzed and injected into the LC/MS/MS system. Each sample was hydrolyzed, diluted and injected a total of 96 times.
XIC of +MRM (105 pairs): 287.000/241.000 amu Expected RT: 3.1 ID: Oxazepam 1 from Sample 48 (13188) of Plate2_053114.wiff (Tur... Max. 3.1e6 cps.
1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0Time, min
0.0
2.0e5
4.0e5
6.0e5
8.0e5
1.0e6
1.2e6
1.4e6
1.6e6
1.8e6
2.0e6
2.2e6
2.4e6
2.6e6
2.8e6
3.0e6
3.2e6
3.3e6
Inte
ns
ity, c
ps
3.11Sample ID #13188 O
XA
OXA-G
AnalyteSample ID
#13188
Automated Hydrolysis Avg. Concentration
n=96 (ng/mL) %RSDNorfentanyl 857.9 9.00%
Fentanyl 412.6 6.80%Oxazepam 2444.1 8.00%
Temazepam 1843.2 9.80%Nordiazepam 559.1 10.40%
Automated Hydrolysis performance
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The combined automation of urine hydrolysis, injection and analysis was optimized using the PrepAhead intelligent algorithms in the GERSTEL MAESTRO software to allow the processing of more than 200 samples in a 24 hr span.
Incubation
Combination of Urine , IS ,
Buffer and Enzyme
LC/MS/MS
Automated Hydrolysis optimization
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Glyphosate and glufosinate are non-selective, post emergence herbicides used for the control of a broad spectrum of grasses and broad-leaf weed species in agricultural and industrial fields.
Aminomethyl-phosphonic acid (AMPA) is the major metabolite of glyphosate
.
According to recent reports, there has been a dramatic increase in the usage of these herbicides which are of risk to both human health and the environment.
Example # 3: Derivatization and sample cleanup
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Main Objective: To develop a fully automated sample preparation workflow for the detection and quantitation of Glyphosate and other polar pesticides in water and food samples that meet the established MRLs.
Load Derivatize Extract and Analyze
Automated analysis of polar pesticides
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Glufosinate (MW = 181 g/moL)
Glyphosate (MW = 169 g/moL)
AMPA (MW = 111 g/moL)
Due to their high polarity – difficult to retain on common reversed phase LC columns
Derivatization with fluorenylmethyloxycarbonyl chloride (FMOC-Cl) used to improve extraction and separation of glyphosate and related compounds.
NH POH
OH
OO
OH
O
ClO
O
NO
OOH
P OH
O
OH
+
NH POH
OH
OO
OH
O
ClO
O
NO
OOH
P OH
O
OH
+
Glyphosate
FMOC-Cl
Gly-FMOCMW = 391 g/moL
Automated analysis of polar pesticides
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Automation workflow part 1: Derivatization and Injection with the MPSAdd 100 μL of borate buffer (pH=9) to 1 mL
of sample.
Agitate for 20 min at 50°C.
Cool to bring to ambient temperature.
Add 130 μL 2% H3PO4.
Inject 1mL to SPE-LC/MS/MS
Add 200 μL of 10mM FMOC-Cl solution.
Automated analysis of polar pesticides
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Automation workflow part 2: SPE Cleanup and Analysis
Inject 1mL
Sample
SPE Cartridge Transport and Exchange
Condition GERSTEL SPEXOS C8EC-SE (18.5 mg)
cartridge with methanol and water + 100 mM
formic acid
Load 1 mL of derivatized sample onto SPE cartridge
Wash with water + 100 mM formic acid
Elute with LC pump gradient
Elute clean
sample
Automated analysis of polar pesticides
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Analytical Column: Phenomenex Gemini, 3 μm (150 x 2.0 mm) Mobile Phase: 50mM Amm Acetate (pH=9)/ ACN (Gradient, time= 25 min) Flow Rate: 250 μL/min Column Temperature: 40°C
XIC of -MRM (9 pairs): 402.000/179.600 Da ID: glufosinate 1 from Sample 2 (0.1 ug/L) of Glyphosate-WaterReproducibility_062613.wiff (Turbo Spr... Max. 1.2e5 cps.
0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 10.0 11.0 12.0 13.0 14.0 15.0 16.0 17.0 18.0 19.0 20.0 21.0 22.0 23.0 24.0Time, min
0.0
1.0e4
2.0e4
3.0e4
4.0e4
5.0e4
6.0e4
7.0e4
8.0e4
9.0e4
1.0e5
1.1e5
1.2e5
1.3e5
1.4e5
1.5e5
1.6e5
1.7e5
1.8e5
1.9e5
2.0e5
2.1e5
2.2e5
Inte
ns
ity, c
ps
6.47
Standard water chromatogram at a spiked concentration of 10 ng/mL
Glyphosate at 4.9 minGlufosinate at 6.5 minAMPA at 6.9 min
Compound Q1 Q3 CE (V)Glyphosate 390 168, 150 -18, -34
Glufosinate 402 179.6, 205.4 -16, -20
AMPA 322 110, 136 -12, -22
MS/MS Detection Optimized for the QTRAP®4500 LC/MS/MS system equipped with a Turbo V™ source with ESI probe .Negative polarity
Automated analysis of polar pesticides
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Triplicate analysis of polar pesticides in a spiked water sample at0.1 μg/L (injection volume of 10 μL)
Compound Concentration (μg/L) %CV of MRM 1 %CV of MRM 2
Glyphosate0.1 4.0 3.9
10 7.7 8.9
Glufosinate0.1 2.3 4.5
10 4.6 5.4
AMPA0.1 1.4 5.3
10 5.1 5.4
Automated analysis of polar pesticides
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Corn and Soy samples were pre-treated using the QuPPe “Quick, Polar Pesticides Method” (www.qppe.com)
Weigh 5g of food subsample
Add 10 mL of Water and soak for 10 min
Add 10 mL of acidified methanol (1% formic acid).
Shake vigorously and Centrifuge
Filter extract (top) layer
After filtration, transfer to vial to MPS forautomated derivatization, extraction and
analysis
WorkflowAutomation for LC/MS/MS Polar
Pesticide Screening
Automated analysis of polar pesticides
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10 and 100 μg/kg of glyphosate spiked into corn and soy and analyzed using automatic derivatization, dilution, and online SPE
Corn 10 Soy 100Soy100Corn 10
Automated analysis of polar pesticides
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10 and 100 μg/kg of AMPA spiked into corn and soy and analyzed using automatic derivatization, dilution, and online SPE
Corn 10 Soy 100Soy100Corn 10
Automated analysis of polar pesticides
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Compound Concentration (μg/kg) %CV of MRM 1 %CV of MRM 2 Ion ratio
(%RSD)Glyphosate 100 (in corn) 3.6 6.0 0.36 (1.9%)
100 (in soy) 5.1 5.9 0.31 (1.9%)
Glufosinate 100 (in corn) 1.6 12.5 0.71 (8.9%)
100 (in soy) 5.2 7.7 0.67 (3.9)%
AMPA 100 (in corn) 5.7 4.8 0.43 (0.9%)
100 (in soy) 5.3 6.2 0.38 (2.2%)
Triplicate analysis of polar pesticides spiked into corn and soy samples.
The slightly higher %RSD of the ion ratio of glufosinate in corn can be explained by interfering matrix signals.
Stable LC separation was essential for confident identification and accurate quantitation of glufosinate.
Automated analysis of polar pesticides
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Mycotoxins are secondary metabolites produced by different types of filamentous fungi genus:- Aspergillus (Aflatoxins) - Penicillum (Ochratoxin A)- Fusarium (trichothecenes, fumonisins,
deoxynivalenol and zearalenone)- Patulin
More than 25% of all agricultural commodities are contaminated with mycotoxins.
Over 100 countries have regulations for the control of mycotoxins in food and feed
Aspergillus fungiSource:
http://www.iaqm.com
Example # 4: SPE and Evaporative Reconstitution
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Weigh 25 g food subsample
Add 100 mL 84:16 ACN:H2O, Vortex and Centrifuge
Collect 8 mL supernatant for SPE cleanup
Main Objective: To develop a fully automated sample preparation workflow for the screening of mycotoxins in food products, that meet the established MRLs.
Typical Mycotoxin sample preparation workflow:
Evaporate to dryness and reconstitute in Mob. Phase
Transfer to Vial for LC/MS analysis
Add Internal Std
Automated Extraction of Mycotoxins
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Weigh 1 g food subsample
Add 4 mL 84:16 ACN:H2O, Vortex and Centrifuge
Collect 250-500 uL supernatant for SPE cleanup
Original Mycotoxin workflow is microscaled 25x for effective MPS handling.
Evaporate to dryness and reconstitute in Mob. Phase
Transfer to Vial for LC/MS analysis
Add Internal Std
Workstation Automation for
MycotoxinSample
Handling
Automated Extraction of Mycotoxins
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Automated Extraction of Mycotoxins
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CentrifugeOption
Tray for Raw
Samples
Trays for DPX cleanup and final
Samples for LC/MS/MS
analysis
mVORX Option for DPX and 2mL vial mixing
mVAP Option for
solvent evaporative
concentration
Automated Extraction of Mycotoxins
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Weigh 1 g of homogenized
sample to a sealed 10mL vial and place
on MPS
MPS adds 4 mL of 84:16 ACN:H2O to
vial moves it to agitator for mixing
(1 h, 55°C, 500 rpm) followed by
Centrifugation
Vortex and Centrifuge (1900 RPM, 10 min)
Centrifugation of first sample batch occurs
while the following batch is being mixed
Prep Aheadenabled !
Mycotoxins
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Weigh 1 g of homogenized
sample to a sealed 10mL vial and place
on MPS
MPS adds 4 mL of 84:16 ACN:H2O to
vial moves it to agitator for mixing
(1 h, 55°C, 500 rpm) followed by
Centrifugation
MPS transfers 500 μL of supernatantto Test Tube for DPX cleanup
Vortex and Centrifuge (1900 RPM, 10 min)
Whole Corn Samples
Mycotoxins
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Cleaned Sample is injected for analysis
on the AB SCIEX 4500
QTRAP® LC/MS/MS System
200 μL of cleaned extract is transferred to a sealed 2 mL vial for evaporation (5 min, 55°C) and reconstitution in 500 μL of Mobile Phase A using the mVAP
Mycotoxins
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Representative MRM chromatograms from a matrix matched corn sample extract at 10 µg/kg.
TIC: from Sample 52 (10 ng/mL) of Myco... Max. 1.1e5 cps.
8 10 12 14 16 18Time, min
0.00
5000.00
1.00e4
1.50e4
2.00e4
2.50e4
3.00e4
3.50e4
4.00e4
4.50e4
5.00e4
5.50e4
6.00e4
6.50e4
7.00e4
7.50e4
8.00e4
8.50e4
9.00e4
9.50e4
1.00e5
1.05e5
1.10e51.13e5
Intensity, cps
14.17
11.76
10.97
10.60
12.327.03 10.12
XIC of +MRM (25 pairs): Exp 1, 404.000/... Max. 9.3e4 cps.
8 10 12 14 16 18Time, min
0.0
1.0e4
2.0e4
3.0e4
4.0e4
5.0e4
6.0e4
7.0e4
8.0e4
9.0e4
Inte
ns
ity, c
ps
14.16
XIC of -MRM (10 pairs): Exp 2, 317.100/1... Max. 4.6e4 cps.
8 10 12 14 16 18Time, min
0.0
5000.0
1.0e4
1.5e4
2.0e4
2.5e4
3.0e4
3.5e4
4.0e4
4.5e4In
ten
sity
, cp
s14.22
3-AcD
ON
DONFUS-X
ZON
AFB1
AFB2AFG1
DAS
FB1
OTA
HT-2
NEO T-2AFG2
ESI positive
ESI negative
Mycotoxins
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0 20 40 60 80 100 120 140 160 180 200 220 240 260 280 300 320 340 360 380 400 420 440 460 480Concentration
0.0e0
5.0e5
1.0e6
1.5e6
2.0e6
2.5e6
Area
Calibration for AFB1 1: y = 5741.12177 x + 1276.09662 (r = 0.99965) (weighting: 1 / x)
0 20 40 60 80 100 120 140 160 180 200 220 240 260 280 300 320 340 360 380 400 420 440 460 480Concentration
0.0e0
5.0e6
1.0e7
1.5e7
2.0e7
Area
Calibration for OTA 1: y = 4.22125e4 x + -7984.53762 (r = 0.99937) (weighting: 1 / x)
0 20 40 60 80 100 120 140 160 180 200 220 240 260 280 300 320 340 360 380 400 420 440 460 480Concentration
0e0
1e5
2e5
3e5
4e5
5e5
6e5
7e5
Area
Calibration for DON 1: y = 1371.26551 x + 95.47439 (r = 0.99891) (weighting: 1 / x)
DON (R2 = 0.9989)
AFB1 (R2 = 0.9997)
OTA (R2 = 0.9994)
Calibration lines of the quantifier and qualifier MRMsMycotoxins
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Compound (MRM)
QC sampleConcentration
(ng/g)
% Average Accuracy
(n=6)
% RSD (n=6)
DON (1)250
94.60% 10.38%
DON (2) 94.97% 10.50%
Peak review of wheat middlings containing 250 µg/kg DON Mycotoxins
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Peak review of corn containing 12-20 µg/kg OTA
Compound (MRM)
QC sampleConcentration
(ng/g)
% Average Accuracy
(n=6)
% RSD (n=6)
OTA (1)12-20
82.33% 8.94%
OTA (2) 82.79% 7.90%
Mycotoxins
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TIC chromatogram of an incurred Corn sample.
?
Mycotoxins
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Extracted spectra and automated library search with Purity Score values for the incurred corn sample
Summary of all MTS results
TIC
Overlaid Acquired and Library MS/MS spectra
Library MS/MS hitsStructure of
FB1
Mycotoxins
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Main Goal: To develop a comprehensive LC/MS/MS screening method for different classes of environmental contaminants present in water samples with low ppt detection levels.
Compounds of interest:- Pesticices- PCPPs- PFCs- Drugs of Abuse
Dichlorvos Bolstar Carbendazim MCPP (Mecoprop)Mevinphos Tokuthion Cypermethrin DichloropropDemeton-O Azinphos-methyl Pentachlorophenol DalaponDemeton-S-methyl Bromacil DCPA MCPAMalathion Molinate Amoxicilin BentazonEthoprophos Cyanazine Azithromycin TriclosanNaled Prometon Caffeine Merphos OxidePhorate Metribuzin Primidone FensulfothionDiazinon Butachlor Acetaminophen 2,4-DDisulfoton Aldicarb Carbamazepine 2,4,5TPParathion-methyl Aldicarb-sulfoxide Ciprofloxacin 2,4,5TFenthion Aldicarbsulfone Erythromycin 2,4-DBChlorpyrifos Oxamyl Fluoxetine DicambaCoumaphos Methomyl Sulfamethoxazole PicloramRonnel 3-Hydroxycarbofuran Trichloronate PendimethalinParathion Propoxur Stirophos PFOSCarbofuran Carbaryl Methiocarb PFOA
Example # 5: Filtration and Large Volume Injection
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1. QTRAP® 6500 sensitivity was sufficient to eliminate the need for sample enrichment. (Fast Polarity Switching)
2. 500 µL sample injection facilitated ≤ ppt levels of detection for many analytes Larger volume injection requires
larger particle size column (i.e., 4.6 um) with higher flow rates.
Suggest filtering the samples prior to analysis to remove any contaminants or particles that can affect column lifetime
If the samples are really dirty, an automated dilution followed by filtration can be done
Automated Water Analysis
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Load Vials with original Sample
Picks up a 4mm filter, and filters sample
Injects 500uL of filtered sample for LC/MS/MS analysis
WorkflowAutomation for
LC/MS/MS MultiresidueScreening
In water samples
MPS pipettes a determined volume of sample
Automated Water Analysis
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High Level SummaryMost compounds observed ≤ 1 ng/L
Automated Water Analysis
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PPCP MixCaffeine
Amoxicillin Azithromycin
Primidone Triclosan
1 ppt
50 ppt 50 ppt
1 ppt 2 pptAutomated Water Analysis
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2,4-D
2 ppt
2,4,5-T Dichlorprop
5 ppt 10 ppt
Automated Water Analysis
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PFC Mix
PFOA
10 ppt
PFOS
1 ppt
Automated Water Analysis
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Method performance for Amoxicillin
0 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950Concentration
0.0e0
5.0e6
1.0e7
1.5e7
Area
Calibration for Amoxicilin-1: y = 1.43309 x̂ 2 + 14961.22889 x + -272.33235 (r = 0.99993) (weighting: 1 / x)
Dynamic Range5 – 1000 pptR2 = 0.9993
10 ppt in River Water (n = 3)
Automated Water Analysis
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Sample performance for Chlorpyrifos
1 – 1000 pptr = 0.9985
10 ppt in River Water (n = 3)0 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950
Concentration
0.0e0
5.0e6
1.0e7
1.5e7
2.0e7
Area
Calibration for Chlorpyrifos-1: y = 20319.10260 x + -346.97809 (r = 0.99850) (weighting: 1 / x)
Automated Water Analysis
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Automation is the best tool for being prepared in case “Hells breaks loose” in the lab.Several workflows were intelligently automated using the GERSTEL MPS 2XL autosampler:Enzymatic ReactionsLiquid Liquid ExtractionsDerivatization and sample enrichmentQuick cleanupsEvaporative ReconstitutionFiltration and large volume injections
.
In Summary
Please visit www.gerstelus.com for more information!
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Also..visit our YouTube Channel for more automation examples!
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StillPuzzled?
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GERSTEL brings it
together!!!