LC-MS/MS Solutions for the Pharmaceutical and CRO Industries
Brochures and specifications | 2007 | Thermo Fisher ScientificInstrumentation
The discovery and development of new pharmaceutical compounds rely on highly sensitive and robust quantitative bioanalytical assays. LC-MS/MS platforms based on triple quadrupole mass spectrometers deliver the specificity and throughput required to characterize drug candidates, metabolites, endogenous biomarkers and xenobiotics across preclinical and clinical phases. Integrated solutions that address sample preparation, data processing, compliance, and noise reduction accelerate decision making and ensure regulatory confidence.
This application note outlines an end-to-end workflow for bioanalysis in drug discovery and development using Thermo Fisher Scientific’s TSQ Series LC-MS/MS systems. It highlights software tools for high-throughput screening (QuickQuan), regulated bioanalysis (LCQUAN and Watson LIMS), sample preparation automation (TurboFlow), and noise-reduction technologies (FAIMS and H-SRM). The goal is to demonstrate how these components integrate to improve assay sensitivity, throughput, robustness and compliance with 21 CFR Part 11 requirements.
Key elements of the workflow:
QuickQuan demonstrated automated selection of the most sensitive transitions, reducing compound tuning time to ~70 seconds and supporting rapid lead optimization assays. LCQUAN integrated with Watson LIMS provided secure, multi-level user access, electronic record integrity and streamlined data review across global sites. FAIMS coupled with H-SRM reduced matrix noise by over 60%, resolved interference peaks in human urine for trace-level clenbuterol quantitation and delivered robust signal-to-noise improvements (from SN≈70 to SN≈200) at sub-pg on-column loads. TurboFlow technology eliminated laborious extraction steps, compressed sample prep to four operations, and maintained high assay precision (<7% RSD over 600 injections) while protecting the MS source from fouling.
Ongoing innovations will focus on deeper integration of ion mobility and high-resolution filtering methods, machine-learning algorithms for automated method development, and cloud-based LIMS for real-time global collaboration. Miniaturized sample cleanup devices and more advanced multiplexing approaches are expected to further boost throughput, reduce reagent consumption and enable personalized medicine applications. Expanded use of ambient ionization and real-time monitoring may drive on-site bioanalysis in clinical and field settings.
The TSQ Series-based solutions deliver a cohesive, single-vendor workflow that spans from high-throughput lead screening to GLP-compliant clinical bioanalysis. By combining automated software tools, advanced ion mobility and sample cleanup innovations, laboratories achieve higher sensitivity, greater robustness and assured data integrity, ultimately accelerating the pace of drug discovery and development.
Guidance for Industry. Bioanalytical Method Validation. FDA/CDER, May 2001.
Software, LC/MS, LC/MS/MS, LC/QQQ
IndustriesPharma & Biopharma
ManufacturerThermo Fisher Scientific
Summary
Significance of the Topic
The discovery and development of new pharmaceutical compounds rely on highly sensitive and robust quantitative bioanalytical assays. LC-MS/MS platforms based on triple quadrupole mass spectrometers deliver the specificity and throughput required to characterize drug candidates, metabolites, endogenous biomarkers and xenobiotics across preclinical and clinical phases. Integrated solutions that address sample preparation, data processing, compliance, and noise reduction accelerate decision making and ensure regulatory confidence.
Objectives and Overview
This application note outlines an end-to-end workflow for bioanalysis in drug discovery and development using Thermo Fisher Scientific’s TSQ Series LC-MS/MS systems. It highlights software tools for high-throughput screening (QuickQuan), regulated bioanalysis (LCQUAN and Watson LIMS), sample preparation automation (TurboFlow), and noise-reduction technologies (FAIMS and H-SRM). The goal is to demonstrate how these components integrate to improve assay sensitivity, throughput, robustness and compliance with 21 CFR Part 11 requirements.
Methodology and Instrumentation
Key elements of the workflow:
- TSQ Series Mass Spectrometer: Triple quadrupole platform for quantitative SRM.
- QuickQuan Software: Automated tuning, transition selection via reverse energy ramp and central database (Access/Oracle) for high-throughput screening.
- LCQUAN with Watson LIMS: 21 CFR Part 11-compliant data acquisition, processing, electronic signatures and audit trails in a networked environment.
- FAIMS (High-Field Asymmetric Waveform Ion Mobility): Orthogonal ion filtering to reduce chemical background and matrix interferences prior to mass analysis.
- H-SRM (High-Selectivity SRM): Narrow mass resolution SRM modes for enhanced selectivity.
- Transcend TurboFlow System: On-line sample cleanup employing high-flow turbulent chromatography to remove proteins and macromolecules, simplifying preparation to four steps and enabling direct injection of plasma, serum or urine.
Main Results and Discussion
QuickQuan demonstrated automated selection of the most sensitive transitions, reducing compound tuning time to ~70 seconds and supporting rapid lead optimization assays. LCQUAN integrated with Watson LIMS provided secure, multi-level user access, electronic record integrity and streamlined data review across global sites. FAIMS coupled with H-SRM reduced matrix noise by over 60%, resolved interference peaks in human urine for trace-level clenbuterol quantitation and delivered robust signal-to-noise improvements (from SN≈70 to SN≈200) at sub-pg on-column loads. TurboFlow technology eliminated laborious extraction steps, compressed sample prep to four operations, and maintained high assay precision (<7% RSD over 600 injections) while protecting the MS source from fouling.
Benefits and Practical Applications
- Enhanced Throughput: Automated tuning and simplified sample prep accelerate screening and bioanalytical studies.
- Improved Sensitivity and Robustness: FAIMS and H-SRM lower chemical noise, enabling reliable quantitation at trace levels across varied matrices.
- Regulatory Compliance: LCQUAN and Watson LIMS ensure 21 CFR Part 11 adherence, audit trails, electronic signatures and global data integrity.
- Laboratory Efficiency: Single-vendor integration reduces complexity in installation, training, maintenance and technical support.
Future Trends and Potential Applications
Ongoing innovations will focus on deeper integration of ion mobility and high-resolution filtering methods, machine-learning algorithms for automated method development, and cloud-based LIMS for real-time global collaboration. Miniaturized sample cleanup devices and more advanced multiplexing approaches are expected to further boost throughput, reduce reagent consumption and enable personalized medicine applications. Expanded use of ambient ionization and real-time monitoring may drive on-site bioanalysis in clinical and field settings.
Conclusion
The TSQ Series-based solutions deliver a cohesive, single-vendor workflow that spans from high-throughput lead screening to GLP-compliant clinical bioanalysis. By combining automated software tools, advanced ion mobility and sample cleanup innovations, laboratories achieve higher sensitivity, greater robustness and assured data integrity, ultimately accelerating the pace of drug discovery and development.
Reference
Guidance for Industry. Bioanalytical Method Validation. FDA/CDER, May 2001.
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