Analysis of Extractable and Leachable (E&L) Compounds Using a Low-Energy EI-Capable High‑Resolution Accurate Mass GC/Q-TOF
Applications | 2017 | Agilent TechnologiesInstrumentation
The analysis of extractable and leachable (E&L) compounds is essential for ensuring the safety and quality of pharmaceutical and bioprocessing materials. E&L profiling detects organic contaminants released from packaging, single-use systems or device filters, preventing potential product compromise and patient exposure.
This study demonstrates the use of a high-resolution accurate mass gas chromatography/quadrupole time-of-flight system (GC/Q-TOF), equipped with a low-energy electron ionization (EI) source, to improve compound identification confidence in E&L investigations. The method evaluation covers differential profiling, library matching, and structural elucidation of unknowns.
Sample preparation: A single-use bioprocessing assembly was extracted under flow-through saline conditions (37 °C, 72 h). Filters were independently extracted with ethanol and a 1:1 water/ethanol mixture; all extracts (except ethanol) were liquid–liquid extracted with dichloromethane, concentrated tenfold, and submitted to GC/Q-TOF analysis.
Differential profiling revealed 113 compounds significantly enriched (fold change ≥3, p<0.05) in saline extracts versus blanks. Major identified species include caprolactam, phenol, tri(1,2-propyleneglycol) monomethyl ether, Dowanol isomers, benzoic acid ethyl ester, vanillin, hexanamide, di-tert-butylhydroquinone, ethylparaben, 2,4-di-tert-butylphenol, benzothiazole, dimethyl phthalate and others.
Solvent comparison using a Venn diagram highlighted unique and shared extractables between ethanol and ethanol/water extracts. Low-energy EI enhanced molecular ion visibility, increasing identification confidence for both known and unknown analytes. A workflow combining low-energy EI and accurate mass MS/MS enabled structural elucidation of an unknown benzenemethanol derivative. Moreover, low-energy EI spectra of n-alkanes demonstrated excellent mass accuracy and isotopic fidelity across a growing carbon number range.
The integration of low-energy EI with high-resolution MS is expected to expand spectral libraries, streamline automated data processing, and enable real-time E&L monitoring. Advancements in chemometric tools and machine learning may further enhance unknown identification and risk evaluation in complex matrices.
Combining low-energy EI with high-resolution accurate mass GC/Q-TOF significantly enhances E&L compound identification by improving molecular ion detection and enabling detailed structural analyses. This approach supports comprehensive safety assessments and quality assurance in biopharmaceutical applications.
GC/MSD, GC/MS/MS, GC/HRMS, GC/Q-TOF
IndustriesFood & Agriculture, Pharma & Biopharma
ManufacturerAgilent Technologies
Summary
Significance of the Topic
The analysis of extractable and leachable (E&L) compounds is essential for ensuring the safety and quality of pharmaceutical and bioprocessing materials. E&L profiling detects organic contaminants released from packaging, single-use systems or device filters, preventing potential product compromise and patient exposure.
Objectives and Study Overview
This study demonstrates the use of a high-resolution accurate mass gas chromatography/quadrupole time-of-flight system (GC/Q-TOF), equipped with a low-energy electron ionization (EI) source, to improve compound identification confidence in E&L investigations. The method evaluation covers differential profiling, library matching, and structural elucidation of unknowns.
Methodology and Instrumentation
Sample preparation: A single-use bioprocessing assembly was extracted under flow-through saline conditions (37 °C, 72 h). Filters were independently extracted with ethanol and a 1:1 water/ethanol mixture; all extracts (except ethanol) were liquid–liquid extracted with dichloromethane, concentrated tenfold, and submitted to GC/Q-TOF analysis.
Used Instrumentation
- Agilent 7250 GC/Q-TOF with low-energy EI (10–15 eV) and standard EI (70 eV)
- Column: DB-5 MS UI, 15 m×0.25 mm×0.25 µm; helium carrier (1.5 mL/min)
- Oven program: 50 °C (5 min) to 320 °C at 10 °C/min (hold 10 min)
- Source temp 200 °C; quadrupole temp 150 °C; transfer line 280 °C; mass range m/z 50–1000
- Retention index calibrated with n-alkane mixture
- Data processing: MassHunter Unknowns Analysis (SureMass), NIST 14 library matching, MassHunter Molecular Structure Correlator for MS/MS, Mass Profiler Professional for differential analysis
Main Results and Discussion
Differential profiling revealed 113 compounds significantly enriched (fold change ≥3, p<0.05) in saline extracts versus blanks. Major identified species include caprolactam, phenol, tri(1,2-propyleneglycol) monomethyl ether, Dowanol isomers, benzoic acid ethyl ester, vanillin, hexanamide, di-tert-butylhydroquinone, ethylparaben, 2,4-di-tert-butylphenol, benzothiazole, dimethyl phthalate and others.
Solvent comparison using a Venn diagram highlighted unique and shared extractables between ethanol and ethanol/water extracts. Low-energy EI enhanced molecular ion visibility, increasing identification confidence for both known and unknown analytes. A workflow combining low-energy EI and accurate mass MS/MS enabled structural elucidation of an unknown benzenemethanol derivative. Moreover, low-energy EI spectra of n-alkanes demonstrated excellent mass accuracy and isotopic fidelity across a growing carbon number range.
Benefits and Practical Applications
- Improved compound identification confidence through preserved molecular ions and high-resolution accurate mass data
- Effective structural elucidation of unknown extractables
- Robust differential analysis facilitating comparison across sample groups
- Application in quality control and safety assessment of pharmaceutical single-use systems
Future Trends and Possibilities
The integration of low-energy EI with high-resolution MS is expected to expand spectral libraries, streamline automated data processing, and enable real-time E&L monitoring. Advancements in chemometric tools and machine learning may further enhance unknown identification and risk evaluation in complex matrices.
Conclusion
Combining low-energy EI with high-resolution accurate mass GC/Q-TOF significantly enhances E&L compound identification by improving molecular ion detection and enabling detailed structural analyses. This approach supports comprehensive safety assessments and quality assurance in biopharmaceutical applications.
Reference
- Jenke D. Development and Justification of a Risk Evaluation Matrix to Guide Chemical Testing Necessary To Select and Qualify Plastic Components Used in Production Systems for Pharmaceutical Products. PDA J Pharm Sci Technol. 2015;69:677–712.
- Mire-Sluis A, et al. Extractable and Leachables: Challenges and Strategies in Biopharmaceutical Development. BioProcess Int. 2011 Feb.
- Agilent SureMass. Agilent Technologies Technical Overview; Publication 5991-8048EN; 2017.
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
Similar PDF
Analysis of Volatile Compounds Identified in Rubber Gasket Extracts Using GC/MSD and High-Resolution GC/Q-TOF
2024|Agilent Technologies|Applications
Application Note Extractables and Leachables Analysis of Volatile Compounds Identified in Rubber Gasket Extracts Using GC/MSD and High-Resolution GC/Q-TOF Authors Abstract Sofia Nieto, Anastasia Andrianova, Bruce Quimby, and David Weil Agilent Technologies, Inc. Chemicals that are part of polymeric container…
Key words
counts, countsrubber, rubbergasket, gasketmolecular, molecularacid, acidions, ionsmsd, msdformula, formulaextractables, extractablesmass, massacquisition, acquisitionidentification, identificationtert, tertphthalate, phthalatetof
Accurately Identify Emerging Environmental Chemical Contaminants - Application Compendium
2018|Agilent Technologies|ApplicationsGuides
Find More, Miss Less Accurately Identify Emerging Environmental Chemical Contaminants Application Compendium
Identify Emerging Contaminants in Air, Water, and Soil Today’s environmental analysis must be done more reliably, more efficiently, and with higher quality results than ever before. Unfortunately, pharmaceuticals,…
Key words
tof, tofmass, masscounts, countscompounds, compoundsaccurate, accuratewere, werescreening, screeningagilent, agilentusing, usingwater, waterpcdl, pcdlmasshunter, masshunterenvironmental, environmentalions, ionscompound
Screening of Contaminants in Food and Natural Products by GC/Q-TOF with an Accurate Mass Pesticides and Environmental Pollutants Library
2018|Agilent Technologies|Posters
Poster Reprint ASMS 2018 MP-284 Screening of Contaminants in Food and Natural Products by GC/Q-TOF with an Accurate Mass Pesticides and Environmental Pollutants Library Kai Chen and Courtney Milner Agilent Technologies, Inc., Santa Clara, CA
Introduction Experimental Screening a broad…
Key words
library, libraryscreening, screeningdiff, diffmass, masscuration, curationdimethomorph, dimethomorphspectrum, spectrumtof, tofcontaminants, contaminantsbroccoli, broccolipesticides, pesticidesphthalate, phthalatepollutants, pollutantsaccurate, accuratefrag
Differential Analysis in Screening Assays for Extractable and Leachable Compounds
2018|Agilent Technologies|Applications
Differential Analysis in Screening Assays for Extractable and Leachable Compounds Using an Agilent 7200 GC/Q-TOF System Combined with Data Mining Software Application Note Pharmaceutical Authors Abstract Syed Salman Lateef, The analysis of extractable and leachable (E&L) compounds presents challenges for…
Key words
leachable, leachableleachables, leachablesstressed, stressedextractable, extractablecompounds, compoundsnonstressed, nonstressedextractables, extractableswere, weremass, massdata, datalibrary, libraryanalysis, analysisspectra, spectracounts, countsmasshunter
