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Www.eatonanalytical.com Rapid and Accurate Analysis of Microcystins Using UPLC/MS/MS Yongtao (Bruce) Li, Ph.D. Joshua S. Whitaker Eurofins Eaton Analytical,

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Presentation on theme: "Www.eatonanalytical.com Rapid and Accurate Analysis of Microcystins Using UPLC/MS/MS Yongtao (Bruce) Li, Ph.D. Joshua S. Whitaker Eurofins Eaton Analytical,"— Presentation transcript:

1 www.eatonanalytical.com Rapid and Accurate Analysis of Microcystins Using UPLC/MS/MS Yongtao (Bruce) Li, Ph.D. Joshua S. Whitaker Eurofins Eaton Analytical, Inc. NEMC, Chicago, IL July 15, 2015

2 Presentation Outline  Introduction Harmful algal blooms Drinking water guidelines for microcystins Analytical techniques & monitoring  UPLC/MS/MS Method Development Demonstration of capability Sample preservation Matrix studies  Conclusions 2

3 Harmful Algal Blooms(HABs)  In 2010, EPA’s First National Lakes Assessment reported that microcystins were found to be present in ~ 1/3 of lakes and at levels of concern in 1% of lakes.  In 2014, HABs left nearly a half million people without drinking water in the Toledo area, Ohio.  Responding to emergency of HABs requires timely and reliable results. Algae identification and enumeration Toxin screening and quantitation Taste and odor (geosmin & MIB) problems 3

4 International Drinking Water Guidelines for Microcystins Authority/CountryMicrocystins WHO (1998 provisional) - adopted by many countries. 1 μg/L MC-LR Health Canada - proposing a change (June, 2015) 1.5 μg/L total Australia1.3 μg/L total EPA Health Advisories - based on 10-day exposure (May, 2015) 0.3 μg/L infants and pre-school children 1.6 μg/L school-age children and adults 4

5 Analytical Techniques & Monitoring  Microcystin-LR, cylindrospermospin, and anatoxin-a are included in EPA’s drinking water contaminant candidate list 4 (CCL 4) – draft. Potentially included in the UCMR 4, 2017-2019.  LC/MS/MS is widely used for determination of algal toxins. EPA 544: Determination of six microcystins & nodularin (combined intracellular and extracellular) in drinking water, combined with SPE. EPA 545: Determination of cylindrospermospin and anatoxin-a in drinking water.  ELISA (enzyme-linked immunosorbent assay) is widely used for screening analyses of algal toxins. 5

6 Study Objective  Develop a fast and reliable analytical method for monitoring cyanobacterial blooms and for timely responding to emergency of microcystin contamination events. High sensitivity - Meets EPA Health Advisories values. High accuracy and precision Results available within minutes 6

7 Method Summary  Waters Acquity UPLC-H Class & Xevo TQ-S Direct aqueous injection (DAI), 20 µL Positive ESI BEH C18, 2.1x100 mm, 1.7 µm 0.45 mL/min flowrate Gradient 20 mM ammonium formate/acetonitrile  EPA Method 544 Preservatives & Refrigeration Trizma – 7.75 g/L buffering reagent 2-Chloroacetamide – 2 g/L antimicrobial agent Ascorbic acid – 0.1 g/L dechlorinating agent EDTA – 0.35 g/L inhibit binding of the targets to metals 7

8 Quantitation Ions & Calibrations (Correlation Coefficient ≥ 0.99) AnalyteMassExt. Std. Cal.Int. Std. Cal. MC-LA910.5>776.4 ✓ MC-LR-C2D5 MC-LF986.5>134.9 ✓ MC-LR-C2D5 MC-LR995.4>134.9 ✓ MC-LR-15N10 MC-LY1002.5>134.9 ✓ MC-LR-C2D5 MC-RR519.9>134.9 ✓ MC-LR-15N10 MC-YR523.4>134.9 ✓ MC-LR-15N10 NOD825.5>134.9 ✓ MC-LR-15N10 1005.7>135.2 ✓ MC-LR-C2D51028.6>134.9 ✓ 8

9 9 HPLC/MS/MS vs. UPLC/MS/MS EPA 544 SPE-HPLC/MS/MS 500 mL sample to 1 mL extract ~ 26 min DAI-UPLC/MS/MS 1 mL sample ~ 6 min

10 UPLC/MS/MS Demonstration of Capability

11 UPLC/MS/MS Sensitivity – MDLs (n = 7, RW) Analyte EPA 544 Ext. Std. Cal. (ng/L) UPLC/MS/MS Ext. Std. Cal. (ng/L) UPLC/MS/MS Int. Std. Cal. (ng/L) MC-LA4.03531 MC-LF3.41913 MC-LR4.35241 MC-LY2.21813 MC-RR1.21220 MC-YR4.64626 NOD1.98.811

12 UPLC/MS/MS Sensitivity – LCMRLs Analyte EPA 544 Ext. Std. Cal. (ng/L) UPLC/MS/MS Ext. Std. Cal. (ng/L) UPLC/MS/MS Int. Std. Cal. (ng/L) MC-LA2.93322 MC-LF3.52723 MC-LR6.613068 MC-LY4.6407.3 MC-RR5.621082 MC-YR22130200 NOD7.39.811 12

13 UPLC/MS/MS Accuracy & Precision (n = 4, RW) Analyte Spiking Conc. (µg/L) ES Cal. Recovery (%) ES Cal. RSD (%) IS Cal. Recovery (%) IS Cal. RSD (%) MC-LA1.01081.2971.5 MC-LF1.01074.5963.5 MC-LR1.01115.81065.8 MC-LY1.01083.6993.7 MC-RR0.593161018.2 MC-YR1.097131038.7 NOD0.51052.01002.1 13

14 UPLC/MS/MS Accuracy & Precision (n = 4, local DW) Analyte Spiking Conc. (µg/L) ES Cal. Recovery (%) ES Cal. RSD (%) IS Cal. Recovery (%) IS Cal. RSD (%) MC-LA1.0963.4954.5 MC-LF1.01111.91082.6 MC-LR1.01012.91005.5 MC-LY1.01042.21021.1 MC-RR0.5837.38110 MC-YR1.0991110111 NOD0.5912.5895.2 14

15 UPLC/MS/MS Accuracy & Precision (n = 4, Maumee River) Analyte Spiking Conc. (µg/L) ES Cal. Recovery (%) ES Cal. RSD (%) IS Cal. Recovery (%) IS Cal. RSD (%) MC-LA1.0982.8952.0 MC-LF1.01071.11041.7 MC-LR1.0978.21046.6 MC-LY1.01111.91082.5 MC-RR0.583188316 MC-YR1.0925.71013.3 NOD0.5912.8983.4 15

16 UPLC/MS/MS Accuracy & Precision (n = 4, local well water) Analyte Spiking Conc. (µg/L) ES Cal. Recovery (%) ES Cal. RSD (%) IS Cal. Recovery (%) IS Cal. RSD (%) MC-LA1.01021.5952.8 MC-LF1.01101.81031.9 MC-LR1.01052.91005.1 MC-LY1.01063.41003.9 MC-RR0.5918.28510 MC-YR1.01013.71041.1 NOD0.51052.0992.1 16

17 UPLC/MS/MS Sample Preservation & Stability

18 18 UPLC/MS/MS Sample Stability

19 19 UPLC/MS/MS Sample Stability

20 20 UPLC/MS/MS Sample Stability

21 UPLC/MS/MS Standard Addition Calibrations

22 22 UPLC/MS/MS Standard Addition Calibrations External Standard Calibration Internal Standard Calibration

23 UPLC/MS/MS Standard Addition Results (local DW) Analyte Spiking Conc. (µg/L) Ext. Std. Cal. Recovery (%) Int. Std. Cal. Recovery (%) MC-LA0.259784 MC-LF0.25119105 MC-LR0.259683 MC-LY0.2510188 MC-RR0.125136113 MC-YR0.25107100 NOD0.1259481 23

24 UPLC/MS/MS Standard Addition Results (Maumee River) Analyte Spiking Conc. (µg/L) Ext. Std. Cal. Recovery (%) Int. Std. Cal. Recovery (%) MC-LA0.25145118 MC-LF0.2511089 MC-LR0.2512499 MC-LY0.2510685 MC-RR0.125121104 MC-YR0.2511194 NOD0.12511188 24

25 UPLC/MS/MS Standard Addition Results (local well water) Analyte Spiking Conc. (µg/L) Ext. Std. Cal. Recovery (%) Int. Std. Cal. Recovery (%) MC-LA0.2511194 MC-LF0.2511296 MC-LR0.25142130 MC-LY0.25122104 MC-RR0.12511197 MC-YR0.2510888 NOD0.125116106 25

26 Conclusions  DAI-UPLC/MS/MS is a rapid & accurate quantitative technique for responding to cyanobacterial blooms. Measure individual microcystins. Report results to 0.1 µg/L or less Demonstrate good percent recoveries and RSDs. Report results within minutes. Allow standard addition calibrations & maximize the compensation for matrix interference.  EPA Method 544 preservatives were effective to stabilize microcystins in raw source water. ≥ 14 days 26

27 Conclusions  Labeled MC-LR-C2D5 and MC-LR-15N10 used the internal standards improved sensitivity, accuracy, and precision.  Moving forward: Resolve MC-RR, MC-YR, and MC-LR co-elution to improve sensitivity, recoveries, and RSDs. Validate more new labeled algal toxin standards. Combine microcystins, nodularin, cylindrospermopsin, and anatoxin-a into one DAI-UPLC/MS/MS method. 27

28 Questions? Yongtao (Bruce) Li, Ph.D. Technical Director YongtaoLi@eurofinsUS.com 574-472-5562 or 574-707-5026 Eurofins Eaton Analytical, Inc. 110 South Hill Street South Bend, IN 46617

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