Rapid, automated, and accurate determination of blood alcohol concentration (BAC) by headspace coupled to gas chromatography and flame ionization detection
Applications | 2019 | Thermo Fisher ScientificInstrumentation
The accurate, rapid and automated measurement of blood alcohol concentration (BAC) is fundamental for forensic toxicology, clinical toxicology and legal enforcement. Reliable BAC data inform decisions on intoxication levels, impairment assessment and compliance with legal driving limits. High sample throughput, minimal carryover and consistent accuracy are critical to 24/7 operational demands in forensic and quality‐control laboratories.
This application note evaluates the performance of the Thermo Scientific™ TriPlus 500™ headspace autosampler coupled to the TRACE™ 1310 gas chromatograph with dual FID detection and Chromeleon™ CDS software. The objectives are to demonstrate:
Whole‐blood certified control samples and aqueous calibration standards spanning 0.01–0.3 g/dL ethanol were prepared with 1‐propanol as internal standard. Samples (500 µL) were sealed in 10 mL headspace vials, incubated at 70 °C for 15 minutes with fast vial shaking and pressurization. A 1 mL loop injection (split ratio 20:1) introduced headspace gas to the GC. A dual‐column, dual‐FID configuration separated seven target analytes (methanol, ethanol, acetone, isopropanol, acetonitrile, ethyl acetate, and internal standard) on two capillary columns of differing polarity. GC oven program: hold 50 °C (5 min), rapid ramp to 220 °C. Carrier gas helium at 15 mL/min. Detector temperatures at 300 °C.
This HS‐GC‐FID workflow offers:
Advances in headspace autosampler pneumatics and microfluidic flow paths will further reduce cycle times and carryover. Integration with advanced data‐handling algorithms in CDS software may enable real‐time quality control alerts and automated reporting. Expansion of multianalyte methods (e.g., drugs of abuse) on the same platform can offer comprehensive toxicological screening.
The Thermo Scientific TriPlus 500 HS autosampler combined with TRACE 1310 GC‐FID and Chromeleon CDS delivers fast, accurate, and robust BAC analysis. Dual‐column separation and precise pneumatic control achieve complete resolution of volatile analytes in under 5 min, with R² > 0.998, repeatability <3.2% RSD, recoveries of 93–107% and negligible carryover. The system reliably meets the demands of routine forensic and industrial laboratories for high‐throughput BAC testing.
1. Boswell HA, Frank FL. Uncertainty of Blood Alcohol Concentration (BAC) results as related to instrumental conditions: optimization and robustness of BAC analysis headspace parameters. Chromatography. 2015;2:691–708.
2. U.S. EPA. Method for Detection of MDL, 40 CFR Part 136, Appendix B, Revision 1.11.
GC, HeadSpace
IndustriesForensics
ManufacturerThermo Fisher Scientific
Summary
Significance of the Topic
The accurate, rapid and automated measurement of blood alcohol concentration (BAC) is fundamental for forensic toxicology, clinical toxicology and legal enforcement. Reliable BAC data inform decisions on intoxication levels, impairment assessment and compliance with legal driving limits. High sample throughput, minimal carryover and consistent accuracy are critical to 24/7 operational demands in forensic and quality‐control laboratories.
Goals and Overview
This application note evaluates the performance of the Thermo Scientific™ TriPlus 500™ headspace autosampler coupled to the TRACE™ 1310 gas chromatograph with dual FID detection and Chromeleon™ CDS software. The objectives are to demonstrate:
- Fast analysis (≤5 min total GC runtime)
- High linearity and precision over relevant BAC ranges
- Robustness against carryover and matrix effects
- Compatibility with routine, unattended high‐throughput operation
Used Instrumentation
- TriPlus 500 HS autosampler (up to 240‐vial capacity)
- Thermo Scientific TRACE 1310 GC with Instant‐Connect Split/Splitless injector
- Dual FID detectors via Microfluidic 3‐port column connector
- TraceGOLD TG-ALC1 and TG-ALC2 capillary columns
- Chromeleon Chromatography Data System v7.2
Methodology
Whole‐blood certified control samples and aqueous calibration standards spanning 0.01–0.3 g/dL ethanol were prepared with 1‐propanol as internal standard. Samples (500 µL) were sealed in 10 mL headspace vials, incubated at 70 °C for 15 minutes with fast vial shaking and pressurization. A 1 mL loop injection (split ratio 20:1) introduced headspace gas to the GC. A dual‐column, dual‐FID configuration separated seven target analytes (methanol, ethanol, acetone, isopropanol, acetonitrile, ethyl acetate, and internal standard) on two capillary columns of differing polarity. GC oven program: hold 50 °C (5 min), rapid ramp to 220 °C. Carrier gas helium at 15 mL/min. Detector temperatures at 300 °C.
Main Results and Discussion
- Chromatography: Complete separation of key volatile analytes in under 5 min. Peak asymmetry for ethanol ranged 0.94–1.04 on both columns.
- Linearity: Calibration curves from 0.01 to 0.2 g/dL achieved R² > 0.998 and calibration factor %RSD ≤ 6 for all compounds.
- Precision: Peak area repeatability in mixed standards (0.04 and 0.1 g/dL) was 0.7–3.2% RSD (n = 15). Whole blood (0.3 g/dL) showed 1.5% RSD (n = 7).
- Recovery: Ethanol recovery from certified blood controls (0.02–0.3 g/dL) ranged from 93% to 107% on both columns.
- Carryover: No detectable carryover observed after high‐level standard or blood injections, attributed to the inert sample path and efficient pneumatic purging of the TriPlus 500 HS.
Benefits and Practical Applications
This HS‐GC‐FID workflow offers:
- High throughput: ≤5 min per sample with automated overlapping incubation cycles, enabling continuous operation.
- Robustness: Minimal carryover and stable inert flow path reduce false positives and maintenance.
- Reliable quantitation: Excellent linearity and precision satisfy forensic and regulatory requirements.
- Scalability: Expandable vial capacity up to 240 vials supports large batch processing.
Future Trends and Possibilities
Advances in headspace autosampler pneumatics and microfluidic flow paths will further reduce cycle times and carryover. Integration with advanced data‐handling algorithms in CDS software may enable real‐time quality control alerts and automated reporting. Expansion of multianalyte methods (e.g., drugs of abuse) on the same platform can offer comprehensive toxicological screening.
Conclusion
The Thermo Scientific TriPlus 500 HS autosampler combined with TRACE 1310 GC‐FID and Chromeleon CDS delivers fast, accurate, and robust BAC analysis. Dual‐column separation and precise pneumatic control achieve complete resolution of volatile analytes in under 5 min, with R² > 0.998, repeatability <3.2% RSD, recoveries of 93–107% and negligible carryover. The system reliably meets the demands of routine forensic and industrial laboratories for high‐throughput BAC testing.
References
1. Boswell HA, Frank FL. Uncertainty of Blood Alcohol Concentration (BAC) results as related to instrumental conditions: optimization and robustness of BAC analysis headspace parameters. Chromatography. 2015;2:691–708.
2. U.S. EPA. Method for Detection of MDL, 40 CFR Part 136, Appendix B, Revision 1.11.
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