Part No: AN775Issued year: 2012File size: 0.26mbFile type: pdf
This methodology has been designed to give an effective and efficient supported liquid extraction protocol for the clean-up and concentration of a range of forensically significant amphetamines followed by derivatization to optimize for GC-MS analysis. Analyte recoveries achieved using this method ranged from 99-104% with RSDs below 10% for all analytes.
Amphetamines, SLE, Supported Liquid Extraction, SLE+, ISOLUTE, Urine, GC, GC-MS,
Part No: AN758Issued year: 2012File size: 1.22mbFile type: pdf
Immunosuppressants inhibit or prevent the activity of the immune system used to prevent rejection of transplanted organs and treat autoimmune diseases. Due to the risks of immunodeficiency, those under treatment must undergo constant therapeutic drug monitoring (TDM) requiring reliable and robust analytical techniques for quantification of these drugs. Current methodologies use immunoassay techniques to measure immunosuppressant levels in patients which are expensive, time consuming and susceptible to issues with cross reactivity. The sample prep method in this application note offers an alternative approach to immunosuppressant analysis with LC-MS/MS giving more reliable and robust recoveries with no cross-reactivity and cost saving opportunities. Analyte recoveries range from 60-97% with RSDs all below 10%.
Immunosuppressant, Tacrolimus, Sacrolimus, Everolimus, Cyclosporin A, Clinical, SLE+, SLE, Supported Liquid Extraction, immune, Clinical, Whole Blood, immunoassay,
Part No: AN770Issued year: 2012File size: 0.26mbFile type: pdf
This application note demonstrates an effective and efficient suported liquid extraction protocol for the clean up and concentration of a range of forensically significant opiates and their metabolites
opiates, sle, urine, GC-MS, forensic, drugs of abuse, DOA, UCT, agilent
Part No: AN889Issued year: 2018File size: 1.03mbFile type: pdf
This application note describes a solid phase extraction protocol for the extraction of three catecholamine metabolites (vanillylmandelic acid, homovanillic acid and 5-hydroxyindoleacetic acid) from plasma prior to LC-MS/MS detection. The method described in this application achieves high reproducible recoveries and excellent linearity (>0.99) in the range 10-200 ng/mL.
Part No: AN888Issued year: 2017File size: 0.91mbFile type: pdf
This application note describes a supported liquid extraction protocol for the extraction of three acidic catecholamine metabolites (vanillylmandelic acid, homovanillic acid and 5-hydroxyindoleacetic acid) from plasma prior to LC-MS/MS detection. The method described in this application note achieves high reproducible recoveries (>80%, RSD < 5%) for these analytes in plasma with linearity > 0.995 in the range
Part No: IST1044AIssued year: 2011File size: 0.11mbFile type: pdf
The method addresses the extraction of all three classes of drugs of abuse from urine using non-polar and cation exchange retention mechanisms on the ISOLUTE HCX mixed mode column. This protocol was optimized to eliminate the use of dichloromethane in the elution of the acidic / neutral drug fraction.
Part No: P085Issued year: 2014File size: 0.46mbFile type: pdf
This poster demonstrates a novel, sensitive, cost effective and rugged method for the analysis of acrylamide in coffee and potato chips (crisps) using supported liquid extraction prior to LC-MS/MS
analysis. It demonstrates extraction from coffee down
to a concentration of 1 ng/mL and in potato chips to a level
of 10 ng/g (ppb).
Part No: AN796Issued year: 2013File size: 0.62mbFile type: pdf
This application note describes a Supported Liquid Extraction (SLE) protocol for the extraction of acrylamide from coffee using ISOLUTE® SLE+ columns with LC-MS/MS detection.
The method described in this application note achieves high recoveries of acrylamide in coffee. The method is sensitive enough to measure levels as low as 1 ng/mL in coffee (solution), 25 ppb in ground coffee (solid) or 125 ppb in instant coffee (solid, traditional or decaffeinated) and gives good selectivity from what is a challenging matrix.
Part No: IST1076A.V.1Issued year: 2020File size: 0.65mbFile type: pdf
This method describes the clean-up of acrylamide from cooked foodstuffs, using a multimode retention mechanism (hydrophobic, cation and anion exchange) for retention of interfering food components. The analytical technique is LC-MS-MS.
ISOLUTE, MULTIMODE, SPE, FOOD, FOOD SCARE
Part No: AN807Issued year: 2013File size: 1.05mbFile type: pdf
This application note describes an SPE protocol appropriate for LC-MS/MS analysis of aflatoxin M1 found in infant formula.
The method described in this application note achieves high recoveries of aflatoxin M1 from infant formula with %RSDs and LOQs that all meet the requirements set in European regulations for its measurement.
Part No: AN785Issued year: 2014File size: 1.28mbFile type: pdf
This application note describes a solid phase extraction(SPE) protocol for the extraction of a range of mycotoxins from dried chili (pimiento) using ISOLUTE® Myco with LC-MS/MS analysis.
The method achieves high recoveries of aflatoxins and ochratoxin from dried chili (pimiento) with %RSDs and LOQs that meet the requirements set in European Union regulations for measurement of these analytes.
Part No: AN865Issued year: 2016File size: 2.02mbFile type: pdf
This application note describes the extraction, using ISOLUTE SLE+ supported liquid extraction columns, of amphetamine style compounds from oral fluid matrix collected using the NeoSalTM device, prior to GC/MS analysis.
Part No: AN855Issued year: 2015File size: 1mbFile type: pdf
This application note describes the extraction of a range of amphetamine-type compounds from whole blood, prior to GC/MS analysis. A protocol that allows the simultaneous extraction of various other drugs of abuse classes: barbiturates, benzodiazepines, cocaine and opiates, is also evaluated.
ISOLUTE® SLE+ columns with 1 mL sample capacity are used to extract whole blood samples following a straightforward sample dilution. No protein precipitation or other pre-treatment is required prior to sample loading. The sample preparation procedure delivers clean extracts, good recoveries and RSD values and LLOQs from 10 ng/mL (analyte dependant).
Part No: AN827Issued year: 2014File size: 1.73mbFile type: pdf
This application note describes the extraction of a range of amphetamines and metabolites from urine using supported liquid extraction and subsequent analysis by GC/MS. Prior to extraction, a simple oxidation step is performed to eliminate sympathomimetic compounds such as ephedrine and pseudoephedrine so they do not interfere with quantitation of methamphetamine.
Part No: AN742Issued year: 2011File size: 0.21mbFile type: pdf
This method describes the use of ISOLUTE SLE+ in 96 well plate format for the extraction of a range of amphetamines. This procedure is effective with sample volumes of 100 μL for analyte recoveries > 90%. For larger volume (500 μL) samples, see AN746.
amphetamines, AN742, ISOLUTE, SLE+, DOA, DRUGS OF ABUSE, FORENSIC
Part No: AN708Issued year: 2011File size: 0.09mbFile type: pdf
The following method(s) have been developed for the class-selective extraction of Amphetamine, Methamphetamine, Phentermine, MDA, MDMA, MDEA from human urine. The method is highly reproducible and offers an average recovery greater than 80%.
MIP, AFFINILUTE, SupelMIP, BIOTAGE, Amphetamines,
Part No: AN746Issued year: 2011File size: 0.21mbFile type: pdf
This method describes the use of ISOLUTE SLE+ in column format for the extraction of a range of amphetamines. This method is effective for sample volumes of 500μL with analyte recoveries > 95%.
Amphetamines, ISOLUTE, DOA, DRUGS OF ABUSE, SLE+, DRUG SCREEN