Thermo Scientific TSQ Altis Triple Quadrupole MS and Thermo Scientific TSQ Quantis Triple Quadrupole MS
Presentations | 2017 | Thermo Fisher ScientificInstrumentation
Triple quadrupole mass spectrometry has become a cornerstone for targeted quantitative analysis due to its unmatched combination of sensitivity, selectivity, robustness and throughput. In fields ranging from pharmaceutical and biopharma research to environmental and food safety testing, clinical studies and forensic toxicology, these instruments deliver precise quantitation of trace analytes in complex matrices. Rapid assay development, high reproducibility and ease of use make them indispensable for routine and high-throughput workflows.
This summary presents the design principles, performance characteristics and application examples of two Thermo Scientific triple quadrupole platforms: the high-end TSQ Altis MS and the mid-tier TSQ Quantis MS. Key goals include illustrating advances in ion management, source design, RF electronics and quantitation workflows. Demonstrations cover pesticide residue analysis in eggs, high-throughput drugs of abuse screening in urine, and targeted peptide quantitation in proteomics.
Both instruments incorporate Active Ion Management Plus (AIM+) featuring enhanced OptaMax NG source housings, segmented quadrupoles with hyperbolic surfaces, stacked ring ion guides and electrodynamic ion funnels to boost ion transmission and reduce background. Dual-mode electron multiplier detectors extend dynamic range and lifetime. New RF/DC electronics enable up to 600 SRM transitions per second. Dynamic retention time adjustment and interactive SRM visualization streamline method setup and ensure optimal dwell times.
Integration of machine learning for automated SRM scheduling and collision energy optimization can further accelerate assay setup. Miniaturized LC flow paths and enhanced multiplexing will push limits of sensitivity for ultra-low-level detection. Expanding target panels and coupling to real-time data analytics platforms will support clinical decision making and comprehensive omics studies. Continued development of robust, high-resolution ion optics promises even greater selectivity in complex matrices.
The TSQ Altis and TSQ Quantis triple quadrupole MS platforms deliver exceptional sensitivity, selectivity and reproducibility for targeted quantitative analyses. Innovations in ion management, source design and electronics drive high throughput, robust performance and ease of use. Combined with advanced UHPLC separation and intelligent method design tools, these systems meet the demanding requirements of modern analytical laboratories.
LC/MS, LC/MS/MS, LC/QQQ
IndustriesManufacturerThermo Fisher Scientific
Summary
Significance of the Topic
Triple quadrupole mass spectrometry has become a cornerstone for targeted quantitative analysis due to its unmatched combination of sensitivity, selectivity, robustness and throughput. In fields ranging from pharmaceutical and biopharma research to environmental and food safety testing, clinical studies and forensic toxicology, these instruments deliver precise quantitation of trace analytes in complex matrices. Rapid assay development, high reproducibility and ease of use make them indispensable for routine and high-throughput workflows.
Objectives and Study Overview
This summary presents the design principles, performance characteristics and application examples of two Thermo Scientific triple quadrupole platforms: the high-end TSQ Altis MS and the mid-tier TSQ Quantis MS. Key goals include illustrating advances in ion management, source design, RF electronics and quantitation workflows. Demonstrations cover pesticide residue analysis in eggs, high-throughput drugs of abuse screening in urine, and targeted peptide quantitation in proteomics.
Methodology and Instrumentation
Both instruments incorporate Active Ion Management Plus (AIM+) featuring enhanced OptaMax NG source housings, segmented quadrupoles with hyperbolic surfaces, stacked ring ion guides and electrodynamic ion funnels to boost ion transmission and reduce background. Dual-mode electron multiplier detectors extend dynamic range and lifetime. New RF/DC electronics enable up to 600 SRM transitions per second. Dynamic retention time adjustment and interactive SRM visualization streamline method setup and ensure optimal dwell times.
Used Instrumentation
- Thermo Scientific TSQ Altis Triple Quadrupole MS with H-SRM (0.2 Da FWHM).
- Thermo Scientific TSQ Quantis Triple Quadrupole MS with SRM (0.4 Da FWHM).
- OptaMax NG HESI/APCI source housing.
- Vanquish Horizon UHPLC with Hypersil Gold AQ column (2.1 × 50 mm, 1.9 µm).
- Ultimate NCS-3500RS nano-LC for peptide workflows.
Key Results and Discussion
- TSQ Altis achieves sensitivity ratios up to 500,000:1 and high selectivity at 0.2 Da unit resolution; TSQ Quantis delivers up to 150,000:1 sensitivity at 0.4 Da.
- Fipronil and fipronil sulfone in egg extracts quantified by UHPLC-MS/MS with LOQ of 0.5 µg/kg, recoveries of 89–104 % and RSDs below 9 %.
- Screening of ~100 drugs of abuse in diluted urine completed in 2.2 minutes, with baseline separation of isobaric opiates and RSDs <17 % for key analytes.
- Targeted proteomics workflow on TSQ Altis quantified ~950 plasma peptides (4,762 transitions) in 35 minutes using scheduled H-SRM and predicted retention times; CVs <5 % across dynamic range.
Benefits and Practical Applications
- Robust day-to-day performance with minimal tuning, enabled by flat-tuning segmented quadrupoles.
- High throughput via fast SRM speed and dynamic retention time scheduling reduces method development time and increases sample capacity.
- Interactive method visualization prevents poor-quality data by enabling pre-run adjustments of dwell times and transition windows.
- Versatile applicability across environmental testing, food safety, clinical diagnostics, forensic toxicology and targeted proteomics.
Future Trends and Potential Applications
Integration of machine learning for automated SRM scheduling and collision energy optimization can further accelerate assay setup. Miniaturized LC flow paths and enhanced multiplexing will push limits of sensitivity for ultra-low-level detection. Expanding target panels and coupling to real-time data analytics platforms will support clinical decision making and comprehensive omics studies. Continued development of robust, high-resolution ion optics promises even greater selectivity in complex matrices.
Conclusion
The TSQ Altis and TSQ Quantis triple quadrupole MS platforms deliver exceptional sensitivity, selectivity and reproducibility for targeted quantitative analyses. Innovations in ion management, source design and electronics drive high throughput, robust performance and ease of use. Combined with advanced UHPLC separation and intelligent method design tools, these systems meet the demanding requirements of modern analytical laboratories.
Reference
- Peterson et al. 2010. American Journal of Hematology.
- Product literature for human hemoglobin subunit alpha ELISA kit, Abcam.
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