An Alternate Testing Protocol for EPA 1613B using Agilent Triple Quadrupole GC/MS
Applications | 2021 | Agilent TechnologiesInstrumentation
Dioxins and furans are persistent and highly toxic pollutants that accumulate in the environment and food chain. Reliable monitoring of these compounds at trace levels is essential for assessing compliance with regulatory standards and protecting public health. Traditional high resolution mass spectrometry methods offer excellent sensitivity but involve high operational costs, specialized instrumentation, and limited availability. Developing alternative protocols using more accessible triple quadrupole GC/MS technology can reduce cost and complexity while maintaining analytical performance.
This study aimed to develop and validate an alternative testing protocol equivalent to EPA Method 1613B, using an Agilent 7890B GC coupled to a 7010B triple quadrupole mass spectrometer. The method, known as SGS AXYS Method 16130, was evaluated for the determination of 17 toxic tetra- through octa-chlorinated dioxins and furans in aqueous, solid, biosolid, and tissue matrices. Key performance metrics included sensitivity, linearity, method detection limits, recovery, accuracy versus certified reference materials, and comparison with a conventional GC/HRMS approach.
Sample preparation followed EPA Method 1613B protocols with isotope dilution spiking prior to extraction. Cleanup procedures removed interfering matrix components, followed by concentration of extracts. Prior to analysis, both cleanup and injection internal standards were added. The 7010B was operated in multiple reaction monitoring (MRM) mode with two transitions per analyte to enhance selectivity. Calibration utilized six concentration levels spanning relevant ranges for each homologue. Method detection limits were determined via spiked matrix experiments as per 40 CFR 136.3.
The GC/TQ method demonstrated excellent chromatographic separation of target isomers with valley height/peak height resolutions within Method 1613B limits. Calibration response factors showed relative standard deviations below 20 percent across five initial calibrations. MDLs for all compounds were well below EPA MRLs in aqueous, solid, and tissue matrices. Fortified recovery experiments achieved mean recoveries within specified ranges and appropriate precision. Analysis of real-world extracts yielded comparable total PCDD/F concentrations to GC/HRMS data. No significant interferences were observed, although diphenyl ether cleanup is recommended to eliminate potential coelution.
As triple quadrupole GC/MS platforms continue to evolve, integration with retention time locking, automated sample preparation, and high-throughput workflows will further enhance analytical capacity. Broader regulatory acceptance and method standardization may extend this approach to additional matrices and emerging contaminants.
SGS AXYS Method 16130 using the Agilent 7890B/7010B GC/TQ system meets or exceeds the QA/QC and performance criteria of EPA Method 1613B. This alternative protocol offers a cost-effective, efficient, and reliable option for laboratories monitoring dioxins and furans in environmental and biological samples.
EPA Method 1613B Tetra-Through Octa-Chlorinated Dioxins and Furans by Isotope Dilution HRGC/HRMS, US Environmental Protection Agency, September 1994.
GC/MSD, GC/MS/MS, GC/QQQ
IndustriesEnvironmental
ManufacturerAgilent Technologies
Summary
Significance of the Topic
Dioxins and furans are persistent and highly toxic pollutants that accumulate in the environment and food chain. Reliable monitoring of these compounds at trace levels is essential for assessing compliance with regulatory standards and protecting public health. Traditional high resolution mass spectrometry methods offer excellent sensitivity but involve high operational costs, specialized instrumentation, and limited availability. Developing alternative protocols using more accessible triple quadrupole GC/MS technology can reduce cost and complexity while maintaining analytical performance.
Objectives and Study Overview
This study aimed to develop and validate an alternative testing protocol equivalent to EPA Method 1613B, using an Agilent 7890B GC coupled to a 7010B triple quadrupole mass spectrometer. The method, known as SGS AXYS Method 16130, was evaluated for the determination of 17 toxic tetra- through octa-chlorinated dioxins and furans in aqueous, solid, biosolid, and tissue matrices. Key performance metrics included sensitivity, linearity, method detection limits, recovery, accuracy versus certified reference materials, and comparison with a conventional GC/HRMS approach.
Methodology
Sample preparation followed EPA Method 1613B protocols with isotope dilution spiking prior to extraction. Cleanup procedures removed interfering matrix components, followed by concentration of extracts. Prior to analysis, both cleanup and injection internal standards were added. The 7010B was operated in multiple reaction monitoring (MRM) mode with two transitions per analyte to enhance selectivity. Calibration utilized six concentration levels spanning relevant ranges for each homologue. Method detection limits were determined via spiked matrix experiments as per 40 CFR 136.3.
Used Instrumentation
- Agilent 7890B gas chromatograph with DB-5 60 m × 0.25 mm, 0.1 µm column
- Agilent 7010B triple quadrupole GC/MS in EI MRM mode
- High-efficiency ion source (HES) and PFTBA tuning for mass calibration
- Agilent MassHunter software for data acquisition and processing
Main Results and Discussion
The GC/TQ method demonstrated excellent chromatographic separation of target isomers with valley height/peak height resolutions within Method 1613B limits. Calibration response factors showed relative standard deviations below 20 percent across five initial calibrations. MDLs for all compounds were well below EPA MRLs in aqueous, solid, and tissue matrices. Fortified recovery experiments achieved mean recoveries within specified ranges and appropriate precision. Analysis of real-world extracts yielded comparable total PCDD/F concentrations to GC/HRMS data. No significant interferences were observed, although diphenyl ether cleanup is recommended to eliminate potential coelution.
Benefits and Practical Applications
- Reduced instrumentation cost and maintenance compared to high-resolution mass spectrometers
- Lower complexity and training requirements for routine laboratory operation
- Robust performance across diverse environmental matrices
- Equivalent data quality for regulatory compliance and environmental monitoring
Future Trends and Potential Applications
As triple quadrupole GC/MS platforms continue to evolve, integration with retention time locking, automated sample preparation, and high-throughput workflows will further enhance analytical capacity. Broader regulatory acceptance and method standardization may extend this approach to additional matrices and emerging contaminants.
Conclusion
SGS AXYS Method 16130 using the Agilent 7890B/7010B GC/TQ system meets or exceeds the QA/QC and performance criteria of EPA Method 1613B. This alternative protocol offers a cost-effective, efficient, and reliable option for laboratories monitoring dioxins and furans in environmental and biological samples.
References
EPA Method 1613B Tetra-Through Octa-Chlorinated Dioxins and Furans by Isotope Dilution HRGC/HRMS, US Environmental Protection Agency, September 1994.
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
Similar PDF
Analysis of Dioxins in Environmental Samples using GC/MS - Consumable Workflow Ordering Guide
2021|Agilent Technologies|Guides
Analysis of Dioxins in Environmental Samples using GC/MS Consumable Workflow Ordering Guide 9 8 O 1 2 PCDDs 7 Clx 6 O 3 4 Cly
Analysis of Dioxins in Environmental Samples using GC/MS Determination of 2,3,7,8-substituted tetra- through octa-chlorinated dibenzo-p-dioxins…
Key words
dioxins, dioxinsmylist, mylistfurans, furanspolychlorinated, polychlorinateddibenzofurans, dibenzofuranspcdds, pcddsdibenzo, dibenzototal, totalhrms, hrmsaxys, axyssgs, sgsenvironmental, environmentalhrgc, hrgchepta, heptaapproved
Determination of Ultratrace Polychlorinated Dibenzo-p-Dioxins and Dibenzofurans Using GC/MS/MS
2019|Agilent Technologies|Applications
Application Note Environmental Determination of Ultratrace Polychlorinated Dibenzo-p-Dioxins and Dibenzofurans Using GC/MS/MS Authors Xu Chi, Gao Lirong, and Zheng Minghui State Key Laboratory of Environmental Chemistry and Ecotoxicology, Research Center for Eco‑Environmental Sciences, Chinese Academy of Sciences, Beijing, China Wang…
Key words
pcdd, pcdddioxins, dioxinsteq, teqocdf, ocdfocdd, ocddfish, fishultratrace, ultratraceash, ashfly, flywere, werecongeners, congenerspolychlorinated, polychlorinatedhrms, hrmsdibenzo, dibenzotissue
Advances in Food Testing & Environmental Analysis - Application Compendium
2021|Agilent Technologies|Guides
Advances in Food Testing & Environmental Analysis Application Compendium
Table of Contents This application compendium outlines a range of methods from food and beverage testing to dioxin and volatile organic compounds analysis. Click on the titles below for full details...…
Key words
spme, spmesmoke, smokeguaiacol, guaiacolwere, werecresol, cresolsample, sampleheadspace, headspacecounts, countsmethod, methodcompounds, compoundsted, tedhfbi, hfbicalibration, calibrationvolatile, volatiledioxins
Quantitative detection of low levels of dioxins for food and feed safety using the EVOQ GC-TQ
2021|Bruker|Applications
Quantitative detection of low levels of dioxins for food and feed safety using the EVOQ GC-TQ Reliable and relevant GC-MS/MS method to meet routine performance criteria according to current EU legislations Introduction From the first published reports of adverse health…
Key words
evoq, evoqpcdfs, pcdfspcdds, pcddsdioxins, dioxinsbruker, brukercriteria, criteriacompass, compassdioxin, dioxinteq, teqocdd, ocddtarget, targetmeet, meetfood, foodwere, wereanimal
