How Chemistry is keeping Your Food Safe - Application of

ACS Webinars We will start momentarily at 2pm ET

Slides download at: http://boilthisdown.org/?p=1713

ACS WEBINARS How Chemistry is keeping Your Food Safe - Application of ultra high pressure liquid chromatography in a Food Safety Laboratory

Speaker: Walter Hammack Florida Department of Agriculture Moderator: Joe Romano Waters Corporation Please submit your questions for the speaker via the Chat Panel in the GoToWebinar

1

ACS Webinars Today’s episode is made possible by the following sponsors.

Slides download at: http://boilthisdown.org/?p=1713

Walter Hammack • Florida Department of Agriculture and Consumer Services, Division of Food Safety Chemical Residue Laboratory • [email protected] • 850-617-7514

2

Section Responsibilities • • • •

Pesticide Residue Enforcement - State Pesticide Data Program – USDA Antibiotic Residue Program – State Food Emergency Response Network- FERN State/FDA/USDA

OVERVIEW • What is Ultra High Pressure/Performance Liquid Chromatography (UHPLC) • Advantage of UHPLC over HPLC • What type of equipment is needed • Applications in Food Safety/Defense

3

What is UHPLC? • UHPLC refers to a system of technologies that allows for faster, and/or, higher resolution liquid chromatographic separations • First commercial instruments available in 2004 from Waters Corporation (UPLCtm) • Industry acronym: UHPLC • Systems that are characterized by the ability to operate at pressures up to and above 15,000 PSI (1000 Bar)

Characteristics of UHPLC Systems • Routine use of sub-2 micron particle columns • Higher operating pressures (15,000 to 18,000 PSI) • Lower delay volumes (80 -125 ul) • Faster Autosampler cycle times (30s Low pressure mixing Peak widths of 20 - 30 seconds

15000 PSI limit 1.7 micron 125 ul delay volume Cycle time = < 15s High pressure mixing Peak widths of 1 – 6 seconds

Carbendazim Name 1 B2815_R1_01_5LOQ_43_09_03E

RT

Area

18:14:57

31-Mar-09

18:36:09

3 B2815_R1_01_37397_Mtx

31-Mar-09

18:57:21

31-Mar-09

19:18:33

5 B2815_R1_01_36636

31-Mar-09

19:39:45

6 B2815_R1_01_36637

31-Mar-09

20:00:58

7 B2815_R1_01_36638

31-Mar-09

20:22:10

8 B2815_R1_01_36639

31-Mar-09

20:43:22

9 B2815_R1_01_36640

31-Mar-09

21:04:34

10 B2815_R1_01_36641

31-Mar-09

21:25:46

11 B2815_R1_01_36642

31-Mar-09

21:46:58

31-Mar-09

22:08:10

13 B2815_R1_01_36645

31-Mar-09

22:29:23

14 B2815_R1_01_36646

31-Mar-09

22:50:36

12 B2815_R1_01_36644

3.5878

266668

Acq.Time 31-Mar-09

4 B2815_R1_01_37398_Spk

3.5878

Acq.Date

2 B2815_R1_01_37396_Rgt

3.5878

110982

45816.3

15 B2815_R1_01_HALFLOQ_43_09_01E

3.5878

24006.9

31-Mar-09

23:11:47

16 B2815_R1_01_1LOQ_43_09_02E

3.5947

51761.7

31-Mar-09

23:33:00

17 B2815_R1_02_5LOQ_43_09_03E

3.5947

251840

31-Mar-09

23:54:12

18 B2815_R1_01_10LOQ_43_09_04E

3.5947

526681

1-Apr-09

0:15:25

19 B2815_R1_01_20LOQ_43_09_05E

3.5878

979322

1-Apr-09

0:36:38

20 B2815_R1_01_50LOQ_43_09_06E

3.5876

2274295

1-Apr-09

0:57:50

21 B2815_R1_01_Blank

1-Apr-09

1:19:02

22 B2815_R1_02_Blank

1-Apr-09

1:40:15

23 B2815_R1_01_36647

1-Apr-09

2:01:28

24 B2815_R1_01_36648

1-Apr-09

2:22:41

25 B2815_R1_01_36649

1-Apr-09

2:43:54

26 B2815_R1_01_36650

1-Apr-09

3:05:07

27 B2815_R1_01_36651

1-Apr-09

3:26:20

28 B2815_R1_01_36652

1-Apr-09

3:47:33

29 B2815_R1_01_36653

1-Apr-09

4:08:46

30 B2815_R1_01_36663

1-Apr-09

4:29:59

31 B2815_R1_01_36664

1-Apr-09

4:51:12

32 B2815_R1_01_36665

1-Apr-09

5:12:25

33 B2815_R1_01_36666

1-Apr-09

5:33:38

34 B2815_R1_01_36667

1-Apr-09

5:54:51

35 B2815_R1_02_37398_Spk

3.5947

113288

1-Apr-09

6:16:03

36 B2815_R1_03_5LOQ_43_09_03E

3.5878

267443

1-Apr-09

6:37:15

8

Detector Systems Compatible with UHPLC Systems • PDA

• • • • •

FLD Triple quadrupole MS Ion Trap MS Time-of-Flight (TOF) MS FTMS

9

Beware Extra Column Volume with narrow bore columns • Extra-column volume is the volume in the system between the injector and the detector, excluding the column. • Injectors on UHPLC systems are optimized by the manufacturer to minimize this volume • Connects made by users in the lab to the column and to the detector can be a source of significant excess volume in the system and must be minimized for good chromatography

10

Tailing problem - Pyraclostrobin

11

Tailing problem solved

12

UHPLC for Food Safety/Defense ?

• Resolution for peak capacity • Speed for high throughput applications • Combinations of both

Chromatographic Resolution

• Very high peak capacity can be obtained with runs of 20 -80 minutes • Peak capacity is often critical to identification of unknown contaminants in complex chromatograms

13

DIMETHOMORPH– Waters 2695 (low pressure mixing) UNRESOLVED -32 MIN GRADIENT

DIMETHOMORPH– Agilent 1100 (high pressure mixing) PARTIAL RESOLUTION – 32 MIN GRADIENT

14

DIMETHOMORPH – Acquity UHPLC COMPLETELY RESOLVED – 20 MIN GRADIENT

OXAMYL – ALDICARB SULFONE High Pressure Binary – UNRESOLVED – 32 MIN GRADIENT

15

OXAMYL – ALDICARB SULFONE UHPLC – baseline resolution- 2.0 x 250 , 1.8u , 20 MIN GRADIENT

Toxin at m/z 276 in Beer

16

BEER High Pressure Binary - 2.0 x 150 , 1.7u (80 MIN)

17

UHPLC 40 min method

Chromatographic Speed

• Sub-minute gradient runs • Very important for target analysis of emergency samples (10,000) • Only the fastest detectors can acquire data • Cycle time of autosampler is now a factor in sample throughput – 10,000 injections requires 125 hours at 45 seconds per injection cycle • Every additional second of injection and analysis requires 2.8 hours of additional run time for 10,000 samples.

18

Examples

• Pesticides in fresh produce • Drug residues in fish tissue • Melamine in food products

UHPLC – 2.0 x 150 mm, 1.7 micron – 32 minute

19

DIMETHOMORPH – UHPLC – 2.0 x 150 mm, 1.7 micron 8 MIN GRADIENT

Acquity – 1.0 x 50 mm – 4 minute

20

4 min gradient – ACN/H20 Time

%A

%B

0

Flowml/min 0.3

95

5

2

0.3

5

95

2.5

0.3

5

95

2.6

0.3

95

5

4.0

0.3

95

5

Carbendazim – Tomato -100 ppb

21

Carbendazim – Spinach -10 ppb

UHPLC – 1.0 x 50 mm – 2 minute

22

12.5 Minute Gradient – Fish Tissue UHPLC 1.0 x 100 mm C-18 Time

%A

%B

0

Flow ml/min 0.12

95

5

1

0.12

95

5

6.2

0.12

5

95

8.0

0.12

5

95

8.1

0.12

95

5

12.5

0.12

95

5

Flounder – Matrix

23

Flounder – Spike – 5ppb

Flounder – Spike – 5ppb-ms^3

24

Melamine – HILIC – 1.7 micron – 5.5 minutes

Conclusions - UHPLC • Ultra high pressure systems offer significantly greater capabilities than standard pressure systems and will ultimately become the “standard” HPLC system • Run time are routinely improved by factors of 2x to 5x with little difficulty • Very high resolving power can be achieved with a combination of shallow gradients, small particles, and long columns • Detector systems require very high acquisition rates to take full advantage of UHPLC speed

25

Q&A SESSION How Chemistry is keeping Your Food Safe - Application of ultra high pressure liquid chromatography in a Food Safety Laboratory

Speaker: Walter Hammack Florida Department of Agriculture Moderator: Joe Romano Waters Corporation Please submit your questions for the speaker via the Chat Panel in the GoToWebinar Slides download at: http://boilthisdown.org/?p=1713

Upcoming Event: April 8, 2010. 2-3pm ET “Creating a Successful Career in Public Policy and the Chemical Industry – Lessons Not Taught in Classrooms”

ACS Webinars: Your Career Matters! Series Connecting you with subject experts and global thought leaders in chemical sciences, management, and business. To Register: http://boilthisdown.org/?page_id=385

26

ACS Webinars Today’s episode is made possible by the following sponsors.

Slides download at: http://boilthisdown.org/?p=1713

27