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  LC-MS Application Notes: TSQ Instrument Index Page
 To download or view TSQ Quantum applications notes, select one of the categories by name below or scroll down this page.
 

TSQ Vantage

 

App Note 474 Determination of Bisphenol A in Infant Formula by Automated Sample Preparation and Liquid Chromatography Mass Spectrometry   App. Note 474: Determination of Bisphenol A in Infant Formula by Automated Sample Preparation and Liquid Chromatography-Mass Spectrometry
 

Author(s):  Yang Shi, Catherine Lafontaine, Matthew Berube, Francois Espourteille, Thermo Fisher Scientific, Franklin, MA, USA
 

  App. Note 473: Measurement of Chloramphenicol in Honey Using Automated Sample Preparation with LC-MS/MS
 

Author(s):  Catherine Lafontaine, Yang Shi, Francois Espourteille, Thermo Fisher Scientific, Franklin, MA USA
 
App Note 461: Rapid Analysis of Opiates from Low Volume Whole Blood Samples by LC-MS/MS Utilizing TurboFlow Methods   App Note 460: Plasma-free Metanephrine and Normetanephrine Quantitation Using Online Sample
 
 

Author(s): Yang Shi, Catherine Lafontaine, Chris Esposito, Francois Espourteille, Thermo Fisher Scientific, Franklin, MA
 
 

App. Note 451: Absolute Quantitation of Targeted Endogenous Salivary Peptides using Heavy Isotope-labeled Internal Standards and High-Resolution Selective Reaction Monitoring Mass Spectrometry   App. Note 451: Absolute Quantitation of Targeted Endogenous Salivary Peptides using Heavy Isotope-labeled Internal Standards and High-Resolution Selective Reaction Monitoring Mass Spectrometry
 
 

Author(s): Markus Hardt, H. Ewa Witkowska, Steven C. Hall, Susan Fisher, University of California at San Francisco, San Francisco, CA, USA; Reiko Kiyonami, Rosa Viner, Vlad Zabrouskov, Thermo Fisher Scientific, San Jose, CA, USA
 
 

App. Note 447: The Importance of Linear Dynamic Range for Preclinical & Targeted Peptide LC-MS/MS Quantitation   App. Note 447: The Importance of Linear Dynamic Range for Preclinical & Targeted Peptide LC-MS/MS Quantitation
 
 

Author(s): Rohan A. Thakur, Reiko Kiyonami, Jonathan McNally, Kevin Cook, Vlad Zabrouskov; Thermo Fisher Scientific, San Jose, CA, USA
 
 

 
App. note 426: Enhanced Reproducibility Performance of the TSQ Vantage: Bioanalysis of Paroxetine in Rat Plasma   App. note 426: Enhanced Reproducibility Performance of the TSQ Vantage: Bioanalysis of Paroxetine in Rat Plasma
 
 

Author(s): Jonathan McNally and Rohan A. Thakur; Thermo Scientific, San Jose, CA

 
 
 
TSQ Quantum Access

App. Note 452: Relative Quantitation of Protein Digests Using Tandem Mass Tags and Pulsed-Q Dissociation (PQD)   App. Note 454: Analysis of Haloacetic Acids in Drinking Water by IC-MS/MS
 
 

Author(s):  Charles Yang1 and Stacy Henday2; 1Thermo Fisher Scientific, San Jose, CA; 2Dionex Corporation, Sunnyvale, CA 
 
 

App. note 442: LC-MS/MS Analysis of Malachite Green, Leucomalachite Green, Ciprofloxacin, and Tetracycline in Food Samples on the Thermo Scientific Aria™ TLX-1   App. Note 442: LC-MS/MS Analysis of Malachite Green, Leucomalachite Green, Ciprofloxacin, and Tetracycline in Food Samples using a TurboFlow Method
 
 

Author(s):  Charles Yang and Dipankar Ghosh, Thermo Fisher Scientific, San Jose, CA, USA
 
 

App.Note 437: LC-MS/MS Analysis of Herbicides in Drinking Water at Femtogram Levels Using 20 mL EQuan Direct Injection Techniques   App. Note 437: LC-MS/MS Analysis of Herbicides in Drinking Water at Femtogram Levels Using 20 mL EQuan Direct Injection Techniques
 
 

Author(s):  Jonathan R. Beck, Charles Yang , Thermo Fisher Scientific, San Jose, CA, USA
 
 
App. Note 434: Analysis of Triazine Pesticides in Drinking Water Using LC-MS/MS (EPA Method 536.0)   App. Note 434: Analysis of Triazine Pesticides in Drinking Water Using LC-MS/MS (EPA Method 536.0)
 
 

Author(s):  Jonathan Beck , Thermo Fisher Scientific, San Jose, CA, USA

 
 
 
  App. Note 408: Developing a Method to Protect the Integrity of Racing Using Targeted SRM: Detection and Quantitation of rhEPO/DPO in Horse Plasma
 
 
Author(s):  Scott M. Peterman1, Cornelius Uboh2, Fuyu Guan2,3, Lawrence Soma3, Eric Birks3, and Jinwen Chen3; 1Thermo Fisher Scientific, Somerset, NJ, USA; 2Pennsylvania Equine Toxicology and Research Laboratory,West Chester, PA, USA; 3University of Pennsylvania, Kennett Square, PA, USA
 
 

  App. Note 407: Simple and Rapid Analysis of Chloramphenicol in Milk by LC-MS/MS
 
 
Author(s):  Ting Liu1, Peter Wang1, and Kefei Wang2 , 1Thermo Fisher Scientific, Shanghai, China; 2Thermo Fisher Scientific, San Jose, CA, USA
 
 

 
  App. Note 401: Comparing Manual Compound Optimizations Against Automated Optimizations Obtained by QuickQuan on the TSQ Quantum Access
 
 
Author(s): Nicholas Duczak and Jim Koers, Thermo Fisher Scientific, San Jose CA
 

 

TSQ Quantum Ultra 

App. note 466: Detection of Pharmaceuticals, Personal Care Products, and Pesticides in Water Resources by APCI-LC-MS/MS   App. Note 465: Analysis of (Fluoro)quinolones in Honey with Online Sample Extraction and LC-MS/MS
 

Author(s):  Yves-Alexis Hammel, Nestle Research Center, Lausanne, Switzerland; Frans Schoutsen, Thermo Fisher Scientific, Breda,The Netherlands; Cláudia P. B. Martins, Thermo Fisher Scientific, Barcelona, Spain
 
 
App Note 464: Multi-class Antibiotic Screening of Honey Using Online Extraction with LC-MS/MS   App Note 464: Multi-class Antibiotic Screening of Honey Using Online Extraction with LC-MS/MS
 

Author(s): Catherine Lafontaine, Yang Shi, Francois A. Espourteille, Thermo Fisher Scientific, Franklin, MA, USA
 
 

App Note 461: Rapid Analysis of Opiates from Low Volume Whole Blood Samples by LC-MS/MS Utilizing TurboFlow Methods   App Note 461: Rapid Analysis of Opiates from Low Volume Whole Blood Samples by LC-MS/MS Utilizing TurboFlow Methods
 
 

Author(s): Peter Ashton, Alex Allan, Bob Ardrey, Triple A Forensics Ltd., Oldham, UK; Shane McDonnell, Sarah Robinson, Thermo Fisher Scientific, Hemel Hempstead, UK

 
 
 
App. Note 458: High Throughput LC-MS/MS Analysis of Metabolic Stability Incubations   App. Note 458: High Throughput LC-MS/MS Analysis of Metabolic Stability Incubations
 
 

Author(s): Matthew Berube, Thermo Fisher Scientific
 
 

App. Note 446: Selective Testosterone Analysis in Human Serum by LC-FAIMS-MS/MS   App. Note 446: Selective Testosterone Analysis in Human Serum by LC-FAIMS-MS/MS
 
 

Author(s): Jonathan McNally and Michael Belford, Thermo Fisher Scientific, San Jose, CA, James Kapron, Thermo Fisher Scientific, Ottawa, ON, Canada
 
 

App.Note 438: Simultaneous Metabolite ID and Quantitation of a Parent Drug Using RER Scanning on a TSQ MS   App. Note 438: Simultaneous Metabolite Identification and Quantitation of a Parent Drug Using Reverse Energy Ramp Scanning on a Triple Stage Quadrupole Mass Spectrometer
 
 

Author(s):  Qin Yue, YungHsiang Chen, Patrick J. Rudewicz, Genentech, Inc., South San Francisco, CA, USA; Louis Maljers, Yan Chen , Thermo Fisher Scientific, San Jose, CA, USA
 
 
 
App.Note 436: Bioanalytical Assay for Neurotransmitters in Whole Blood by LC-MS/MS   App. Note 436: Bioanalytical Assay for Neurotransmitters in Whole Blood by LC-MS/MS
 
 

Author(s):  Yang Shi, Catherine Lafontaine, Francois A. Espourteille , Thermo Fisher Scientific, Franklin, MA, USA, Thermo Fisher Scientific, Franklin, MA, USA
 
 

App.Note 431: Enhanced LC-MS/MS Selectivity for the Analysis of Human Urinary 8-isoprostane, using FAIMS   App.Note 431: Enhanced LC-MS/MS Selectivity for the Analysis of Human Urinary 8-isoprostane, using FAIMS
 

Author(s):   Kazuyo Nakagawa , Thermo Fisher Scientific, Yokohama, Japan
 
 
App. Note 429: Quantitative Analysis of Testosterone in Serum by LC-MS/MS   App. Note 429: Quantitative Analysis of Testosterone in Serum by LC-MS/MS
 
 

Author(s): Ravinder J. Singh, Ph.D., James L. Bruton, Mayo Clinic, Rochester, MN, USA; Taha Rezai, Ph.D., Thermo Fisher Scientific, San Jose, CA, USA


 
 
 

App. note 426: Enhanced Reproducibility Performance of the TSQ Vantage: Bioanalysis of Paroxetine in Rat Plasma   App. note 427: Quantitative Analysis of Cortisol and Cortisone in Urine by LC-MS/MS
 
 

Author(s): Ravinder J. Singh, Ph.D., James L. Bruton, Mayo Clinic, Rochester, MN


 
 
 

App. note 423: A Comparison of Binary and Ternary Gradients Using Stage 1 Illicit Drugs   App. note 425: Determination of Different Classes of Pesticide Residues in Processed Fruits and Vegetables by LC-MS Using the TSQ Quantum Ultra According to EU Directive 91/414 EEC
 
 

Author(s): Eleni Botitsi, Anastasios Economou, Spyros Antoniou, and Despina Tsipi ; General Chemical State Laboratory, Pesticide Residues Laboratory, Athens, Greece


 
 
 

App. note 423: A Comparison of Binary and Ternary Gradients Using Stage 1 Illicit Drugs   App. Note 424: Analysis of Melamine and Cyanuric Acid in Food Matrices by LC-MS/MS
 
 

Author(s): PeterVarelis, National Center for Food Safety and Technology, Illinois Institute of Technology, Jonathan Beck, Kefei Wang, and Dipankar Ghosh; Thermo Fisher Scientific, San Jose, CA


 
 
 

App. note 412: A New Methodology for Targeted Peptide Quantitation in Complex Mixtures Using   App. note 412: A New Methodology for Targeted Peptide Quantitation in Complex Mixtures Using a High Resolution Triple Quadrupole Mass Spectrometer
 
 

Author(s): Reiko Kiyonami, Scott Peterman, Rosa Viner, Amol Prakash, and Vlad Zabrouskov, Thermo Fisher Scientific, San Jose, CA
 
 

  App. Note 400: Chemical Background Removal in the Determination of Linoleic Acid Using LC-FAIMS-MS
 
 
Author(s): Uddhav Kelavkar and Justin Hutzley, University of Pittsburgh, Pittsburgh, PA; Jonathan McNally, Thermo Fisher Scientific, San Jose, CA; James Kapron, Thermo Fisher Scientific, Ottawa, CN
 
 

  App. Note 399: The Impact of the Reversed Energy Ramp Scan Function on Metabolite Identification at or Below the 1 µM Level
 
 
Author(s): Louis Maljers, Thermo Fisher Scientific, San Jose, CA, USA
 
 

App. Note 395: The Use of FAIMS to Separate Loperamide from PEG Prior to MS Analysis Using an LTQ XL   App. Note 397: The Goal of this Application Note is to Develop Methods for the Determination of Sulfonamide Antibiotics at Trace Levels in Effluent Wastewaters.
 
 
Author(s): Eleni Botitsi, Charalampia Frosyni, and Despina Tsipi; General Chemical State Laboratory, Athens, Greece
 
 

App. Note 394: Improved Signal-to-Noise Ratio in the Antidoping Analysis of Clenbuterol   App. Note 394: Improved Signal-to-Noise Ratio in the Antidoping Analysis of Clenbuterol in Urine Using LC –FAIMS–H-SRM
 
 
Author(s):  James Kapron1 and Rohan Thakur2 ; 1 Thermo Fisher Scientific, Ottawa, Canada; 2Thermo Fisher Scientific, San Jose, CA, USA
 
 
 

App. Note 382: Stable Isotope Labeled FattyAcid Analysis in Plasma   App. Note 382: Stable Isotope Labeled Fatty Acid Analysis in Plasma Using LC-FAIMS-SRM
 
 
Author(s):  Kevin Bateman1, Sebastien Gagne1, Sheldon Crane1, Jean-Francois Levesque1, and James T. Kapron2; 1Merck Frosst Centre for Therapeutic Research, Kirkland, Quebec, Canada; 2Thermo Fisher Scientific, Ottawa, Canada
 
 

  App. Note 380: Targeted Quantitative Protein Analysis in Human Serum, Using High Resolution Multiple Selected Reaction Monitoring Assays
 
 
Author(s): Reiko Kiyonami, Scott Peterman, and Ken Miller, Thermo Fisher Scientific, San Jose, CA, USA 
 
 

  App. Note 379: Analysis of Microcystins from Blue-green Algae Using the TSQ Quantum Ultra LC-MS/MS System
 
 
Author(s): Jonathan Beck, Thermo Fisher Scientific, San Jose, California, USA,  Mihoko Yamaguchi and Kaori Saito, Thermo Electron K.K., Yokohama, Japan 
 
 

  App. Note 376: Mechanism of [M+H]+ Formation in Atmospheric Pressure Photoionization Mass Spectrometry
 
 
Author(s): Amin Kamel and Kevin Colizza, Department of Exploratory Medicinal Sciences, Pfizer PGRD, Groton, CT;  Patrick Jeanville, Thermo Fisher Scientific, Miami, FL
 
 

  App. Note 375: Collisionally-Induced Dissociation of Methimazole and Acetylsalicylic Acid: Proposed Mechanisms of Ion Formation Using Hydrogen/Deuterium Exchange
 
 
Author(s): Amin Kamel and Kevin Colizza, Department of Exploratory Medicinal Sciences, Pfizer PGRD, Groton, CT; Patrick Jeanville, Thermo Fisher Scientific, Miami, FL  
 
 
  App. Note 373: Testing LC-MS System Robustness with Automated Sample Cleanup Using Red Wine as a Matrix
 
 
Author(s): Jonathan Beck, Thermo Fisher Scientific, San Jose, CA, USA
 
 
  App. Note 372: LC/MS/MS Analysis of Anti-Infectives In Raw and Treated Sewage
 
 
Author(s): P.A. Segura1, A. Garcia Ac1, A. Lajeunesse2, D. Ghosh3, C. Gagnon2 and S. Sauvé1, 1 Département de Chimie, Université de Montréal, C.P. 6128, succursale Centre-ville, Montréal, QC, Canada H3C 3J7, 2 Centre Saint-Laurent, Environnement Canada, 105, rue McGill, Montréal, QC, Canada H2Y 2E7, 3 Thermo Fisher Scientific, San Jose, CA, USA
 
 
  App. Note 362: Selectivity Improvement for Drug Urinalysis Using FAIMS and H-SRM on the TSQ Quantum Ultra
 
 
Author(s): James Kapron and David A. Barnett; Thermo Fisher Scientific, Ottawa, ON, Canada
 
 

 
 

App. Note 354: On-line Enrichment HTLC/MS/MS Assay for Multiple Classes of Antibiotics in Environmental Water Sources
 
 
Author(s): Kevin J. McHale,1 Chris Esposito,2 and Francois Espourteille2, 1Thermo Fisher Scientific, Somerset, NJ, USA; 2Cohesive Technologies Inc., Franklin, MA, USA
 
 
  App. Note 348: Identification of Phase I Biotransformation Products of Buspirone Using Parent Ion Scanning Triggered Data Dependent MS/MS
 
 
Author(s): Kevin J. McHale, Scott M. Peterman and Mark R. Kagan; Thermo Fisher Scientific
 
 
  App. Note 347: Applying Highly-Selective Reaction Monitoring (H-SRM) for the Assay of Midazolam and 1-Hydroxymidazolam in Plasma on the TSQ Quantum Ultra
 
 
Author(s): Kevin J. McHale and Nick Duczak, Jr.; Thermo Fisher Scientific, Somerset, NJ, USA
 
 
  App. Note 336: Ultra-sensitive LC/MS/MS Quantitation of Lipids in Biological Fluids
 
 
Author(s): Seon Hwa Lee,1 Kevin J. McHale,2 Michelle Williams,1 and Ian A. Blair1 (1University of Pennsylvania, Philadelphia, PA; 2Thermo Fisher Scientific, Somerset, NJ)
 
 
TSQ Quantum Ultra AM   
  App. Note 374: Mechanisms of Ion Formation for Famotidine and Azithromycin Using Hydrogen/Deuterium Exchange and High Resolution Mass Measurements
 
 
Author(s): Amin Kamel and Kevin Colizza, Department of Exploratory Medicinal Sciences, Pfizer PGRD, Groton, CT; Patrick Jeanville, Thermo Fisher Scientific, Miami, FL 
 
 
TSQ Quantum Discovery  

  

  App. Note 390: A Quantitative Screen for Multiple Classes of Illicit Drugs and Their Primary Metabolites in Human Biological Fluids by LC-MS/MS
 
 
Author(s): Kevin J. McHale,1 Joyce Ho,2 and Angela Springfield2; 1Thermo Fisher Scientific, Somerset, NJ, USA; 2Tarrant County Medical Examiner, Fort Worth, TX, USA 
 
 

      App. Note 385: LC-MS/MS Determination of Malachite Green and Leucomalachite Green in Fish Products
 
 

Author(s): Tao Ding1, Jingzhong Xu1, Bin Wu1, Huilan Chen1, Chongyu Shen1, Fei Liu2, and Kefei Wang3, 1 Food Laboratory, APFIC, Jiangsu Entry-Exit Inspection and Quarantine Bureau (JSCIQ), Nanjing, China, 2 Thermo Fisher Scientific, Shanghai, China, 3 Thermo Fisher Scientific, San Jose, CA, USA
 
 

  App. Note 378: Quantitation Enhanced Data-Dependent (QED) Scanning of DrinkingWater Samples Using EQuan for Pesticide Analysis on aTriple Stage Quadrupole
 
 
Author(s): Mihoko Yamaguchi, Thermo Fisher Scientific, Yokohama, Japan   
 
 

  App. Note 377: Analysis of Mycotoxins in Various Cattle Forages and Food Matrices with the TSQ Quantum Discovery MAX
 
 
Author(s): Robert Huls1, Richard Zuiderent1, and Dipankar Ghosh2, 1Thermo Fisher Scientific BV, Breda, The Netherlands; 2Thermo Fisher Scientific, San Jose, CA, USA
 
 
  App. Note 361: Determination of Trace Level Nitrofuran Metabolites in Crawfish Meat by Electrospray LC-MS/MS on the TSQ Quantum Discovery MAX
 
 
Author(s): Tao Ding,1 Jingzhong Xu,1 Chongyu Shen1 and Kefei Wang2 1 Food Laboratory, APFIC, Jiangsu Entry-Exit Inspection and Quarantine Bureau of People’s Republic of China, Nanjing, China 2 Thermo Fisher Scientific, San Jose, CA, USA
 
 
  App. Note 359: Determination of Direct Glucuronidation of NCEs in Liver Microsomes Using SIM, Data Dependent Full-Scan MS/MS and CNL Scanning
 
 
Author(s): Veronique Van Genechten, Ethirajulu Kantharaj, Peter B Ehmer, Claire Mackie and Ron AHJ Gilissen; Department of ADME/Tox, In Vitro Pharmacokinetics Group, Johnson & Johnson Pharmaceutical Research & Development, 2340 Beerse, Belgium; Dipankar Ghosh, Louis Maljers and Karel Lazou; Thermo Fisher Scientific, San Jose, CA, USA
 
 
  App. Note 358: Highly Selective Detection and Identification of Nitrofurans Metabolites in Honey Using LC-MS/MS
 
 
Author(s): Eduardo Matus,1 Jean-Jacques Dunyach,2 Alejandro Albornoz3; 1Food Science Laboratories, Buenos Aires, Argentina; 2Thermo Fisher Scientific, San Jose, CA; 3Eidomet, Buenos Aires, Argentina
 
 
 

App. Note 355: Utility of H-SRM to Reduce Matrix Interference in Food Residue Analysis of Pesticides by LC/MS/MS Using the TSQ Quantum Discovery
 
 
Author(s): Kevin J. McHale, Scott M. Peterman and Mark R. Kagan; Thermo Fisher Scientific
 
 
  App. Note 349: Measurement of Metabolic Stability Using SIM and Identification of Metabolites by Data Dependent Full-Scan MS/MS and CNL Scanning
 
 
Author(s): Peter B Ehmer, Ethirajulu Kantharaj, Katie De Wagter, Anne Van Vlaslaer, Claire Mackie and Ron AHJ Gilissen; Department of ADME/Tox, In Vitro Pharmacokinetics Group, Johnson & Johnson Pharmaceutical Research & Development, 2340 Beerse, Belgium; Dipankar Ghosh and Karel Lazou; Thermo Fisher Scientific, San Jose, CA, USA
 
 
  App. Note 337: Trace-Level Quantitation of Chloramphenicol Using the TSQ Quantum Discovery
 
 
Author(s): Kevin J. McHale, Thermo Fisher Scientific, Somerset, NJ, USA
 
 
  App. Note 323: Simultaneous Detection of 88 Pesticides on the TSQ Quantum Discovery Using a Novel LC/MS/MS Method
 
 
Author(s): Dipankar Ghosh1, Lutz Alder2, Mark Churchill1, Wilhelm Gebhardt1, Eric Genin1, and Jeanette Klein2 (1Thermo Fisher Scientific, 2Federal Institute for Health Protection of Consumers & Veterinary Medicine, POB 330013, D-14191 Berlin, Germany)
 
 
  App. Note 319: Quantitation of Acrylamide in Food Samples on the TSQ Quantum Discovery by LC/APCI-MS/MS
 
 
Author(s): Kevin J. McHale, Witold Winnik and Gary Paul, Thermo Fisher Scientific, Somerset, NJ, USA
 
 
  App. Note 314: Fast Quantitative Analysis of Pergolide Using APCI on the TSQ Quantum Discovery
 
 
Author(s): Nicola Hughes,1 Antony Harvey,2 Witold Winnik,3 and Gary Paul3 (1Biovail Contract Research, Toronto, Ontario, Canada; 2Thermo Fisher Scientific, San Jose, CA, USA; 3Thermo Fisher Scientific, Somerset, NJ, USA)
 
 
TSQ Quantum   

  

  App. Note 468: Rapid Assay Development and Refinement for Targeted Protein Quantitation Using an Intelligent
 

Author(s): Reiko Kiyonami1, Alan Schoen1, Amol Prakash1, Huy Nguyen1, Scott Peterman1, Nathalie Selevsek2, Vlad Zabrouskov1, Andreas Huhmer1, Bruno Domon2,1Thermo Fisher Scientific, San Jose, CA; 2ETH Zurich, Switzerland

App.Note 435: Analysis of Sulfonamides in River Water using EQuan, an Online Concentration Analysis System   App. Note 435: Analysis of Sulfonamides in River Water using EQuan, an Online Concentration Analysis System
 
 

Author(s): Yoko Yamagishi , Thermo Fisher Scientific, Yokohama, Japan
 
 
 

App. Note 391: Analysis of Regulated Pesticides in Drinking Water   App. Note 391: Analysis of Regulated Pesticides in Drinking Water Using Large Volume Injections, Online Pre-concentration, and Fast-HPLC with EQuan
 
 
Author(s): Jonathan R. Beck and Charles Yang ; Thermo Fisher Scientific, San Jose, CA
 
 

    App. Note 384: Determination of Digoxin in Serum by Liquid Chromatography–Tandem Mass Spectrometry
 
 

Author(s): François-Ludovic Sauvage1, Pierre Marquet1,2; 1Department of Pharmacology-Toxicology, University Hospital, Limoges, France; 2Laboratory of Pharmacology, Faculty of Medicine, University of Limoges, France. 
 
 

  App. Note 383: Determination of LSD and Its Metabolites in Human Biological Samples by Liquid Chromatography–Tandem Mass Spectrometry
 
 
Author(s): François-Ludovic Sauvage1, Pierre Marquet1,2; 1Department of Pharmacology-Toxicology, University Hospital, Limoges, France; 2Laboratory of Pharmacology, Faculty of Medicine, University of Limoges, France. 
 
 
 

App. Note 355: Utility of H-SRM to Reduce Matrix Interference in Food Residue Analysis of Pesticides by LC/MS/MS Using the TSQ Quantum Discovery
 
 
Author(s): Yoko Yamagishi, Thermo Fisher Scientific, Yokohama, Japan
 
 
  App. Note 310: Improved Quantitative Selectivity of Clenbuterol in Human Urine Using High Resolution on the TSQ Quantum Mass Spectrometer
 
 
Author(s): Mark Churchill1, Mark Harrison1, John Henninge,2 and Hanne Lund2 (1Thermo Fisher Scientific, Stafford House, 1 Boundary Park, Boundary Way, Hemel Hempstead, HP2 7GE, UK; 2Aker University Hospital, Hormone Laboratory, Section for Doping Analysis, Trondheimsveien, N-0514, Oslo, Norway)
 
 
  App. Note 309: Quantitation of Cabergoline at Extremely Low Plasma Concentrations with a Triple Quadrupole Mass Spectrometer
 
 
Author(s): Nicola Hughes,1 Antony Harvey,2 Witold Winnik,3 Jean-Jacque Dunyach,2 Ma’an Amad,2 Maurizio Splendore,2 and Gary Paul3 (1Biovail Contract Research, Toronto, Ontario, Canada;2Thermo Fisher Scientific, San Jose, CA, USA; 3Thermo Fisher Scientific, Somerset, NJ, USA Systemic Plasma Analysis)
 
 
  App. Note 308: Bioanalytical Method IntradayValidation for the Quantitation of Paroxetine in Bovine Plasma Using the TSQ Quantum Mass Spectrometer
 
 
Author(s): Mark Churchill and Mark Harrison, Thermo Fisher Scientific, Hemel Hempstead, UK, Department of Drug Metabolism and Pharmacokinetics, (1Schering-Plough Research Institute, Kenilworth, NJ, USA; 2Thermo Fisher Scientific, Somerset, NJ, USA)
 
 

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TSQ Quantum GC    

  

 

App.Note 435: Analysis of Sulfonamides in River Water using EQuan, an Online Concentration Analysis System   App. Note 435: Analysis of Sulfonamides in River Water using EQuan, an Online Concentration Analysis System
 
 

Author(s): Yoko Yamagishi, Thermo Fisher Scientific, Yokohama, Japan
 
 
 

  App. Note 388: Determination of Estradiol in Plasma with Negative Chemical Ionization GC-MS/MS on TSQ Quantum GC
 
 

Author(s): Hans Schweingruber, BC Cha, Ethan Chan, Kefei Wang, Thermo Fisher Scientific, San Jose, CA, USA 
 
 

  App. Note 387: Multi-residue Analysis of Pesticides in Food Using GC/MS/MS with the TSQ Quantum GC
 
 

Author(s): Kuniyo Sugitate, Michiko Kanai, Thermo Fisher Scientific, Yokohama, Japan, Masahiro Okihashi, Division of Food Chemistry, Osaka Prefectural Institute of Public Health, Osaka, Japan, Dipankar Ghosh, Thermo Fisher Scientific, San Jose, CA, USA

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