- Customized, automated, high-throughput gas chromatography (GC) instrumentation manufactured by Agilent Technologies.
- Wider linear range than other instrumentation on the market, which spans from 3 to 1000 ppm for hydrogen, 3 to 1000 ppm for methane, and 0.2 to 10% for carbon dioxide. Accuracy maintained across the entire linear range greater than 90% for each trace gas.
- Consistency of samples through our instrumentation is ± 2 ppm for hydrogen and methane and ± 0.1% for carbon dioxide, which is excellent precision between samples according to GC industry standards.
CDI operates out of our state-of-the-art CLIA-certified laboratory located in Salem, Massachusetts. Our industry-leading functional GI diagnostic lab ensures sample intake efficiency, analytical accuracy, quality assurance, and expedited result turnaround time.
Working with one of the premier manufacturers in the gas chromatography (GC) market, CDI has developed an optimal combination of custom component parts, the use of a two-detector system, and specific method parameters to make our instruments more accurate, precise, and sensitive in detecting all three gases of interest in breath testing: hydrogen (H2), methane (CH4), and carbon dioxide (CO2).
Superior Clinical Sophistication and Laboratory Instrumentation
Industry Leading Clinical Criteria and Reporting
- Calibration of GC instruments uses National Institute of Standards and Technology (NIST) traceable gas standards to ensure the most accurate sample detection and test results.
- Clinical guidelines for breath testing pursuant to the North American Consensus for Breath Testing, the only standardized breath testing guidelines agreed to by 17 independent clinical scientists from all over the world.
Industry Leading Quality Management, Accuracy, and Precision
- Fully automated sample extraction for a higher sample throughput, increased consistency in samples across all patients, and a smaller injection volume which allows for repeat analysis within the same sample if necessary.
- Exclusive collection tube that ensures the stability of the breath sample is maintained for up to two weeks after collection across a wide range of temperatures (-4 to 104 °F).
- Assurance that instrument performance and technical staff training are maintained at the highest level of accuracy and consistency across tests analyzed.
- High-purity reference gases utilized to increase signal-to-noise ratios, which improves sample detection limits.