Part No: P144Issued year: 2016File size: 0.6mbFile type: pdf
The ability to extract a broad range of different drugs from a biological matrix allows for the expedited analysis of a patient sample using LC-MS/MS. Typically small molecules are extracted from matrices like urine based on their polarities. A fast and reliable sample preparation method that could be implemented to extract drugs of different polarities from urine could be used as a screening tool to quickly identify the presence of illicit drugs in patient samples using LC-MS-MS.
This poster demonstrates the utility of supported liquid extraction for the extraction of over 30 different acidic, basic and neutral drugs in urine prior to LC-MS/MS.
MSACL 2016
Part No: AN859Issued year: 2016File size: 0.93mbFile type: pdf
This application note describes the extraction of acidic, basic, and neutral drugs from urine for screening purposes using ISOLUTE® SLE+ supported liquid extraction plates prior to LC-MS/MS analysis.
Part No: AN886Issued year: 2017File size: 1mbFile type: pdf
This application note describes the extraction of 96 licit and illicit drugs of abuse from urine prior to UPLC-MS/MS analysis using EVOLUTE® HYDRO CX 96-well plates.
EVOLUTE® HYDRO CX plates offer an efficient way to perform hydrolysis in the well of the extraction plate. This method provides high analyte recovery, reduced extraction time due to the elimination of a sample transfer step as well as the elimination of the column conditioning and equilibration steps, and a reduced risk for sample carryover or cross-contamination due to the elimination of the sample transfer step.
Part No: PPS443.V.1Issued year: 2019File size: 2.98mbFile type: pdf
Analysis of drug panels in urine samples can be challenging, and the trend towards larger panels including multiple drug classes compounds the issues faced during method development.
This white paper examines a number of aspects of sample preparation, and their impact on the success of subsequent LC-MS/MS analysis of broad urine panels.
Section 1 examines the applicability of various sample preparation techniques: supported liquid extraction, reverse phase SPE and mixed-mode SPE, to the various classes of drugs extracted. In addition, hydrolysis approaches: enzyme type and protocol used (time, temperature), are compared.
Mixed-mode reverse phase/cation exchange SPE is widely used for extraction of basic drug classes from urine, but the inclusion of drugs and metabolites that exhibit ‘non-typical’ functionality within urine panels can be problematic. Section 2 examines the impact of various parameters (interference wash strength, elution solvent composition) on analyte retention, elution and extract cleanliness with particular focus on zwitterionic (gabapentin, pregabalin) and non-ionic (carisoprodol, meprobamate) drugs.
Part No: P138Issued year: 2015File size: 0.82mbFile type: pdf
This poster demonstrates a fast, reliable protocol to extract multiple drug of abuse panels from whole blood using a common supported liquid extraction methodology. This benefits laboratory workflow where multiple assays are run each day, saving both worker hours and
consumable costs.
SOFT 2015
ASMS 2016
TIAFT 2016
Part No: P046Issued year: 2011File size: 0.84mbFile type: pdf
The objective was to develop a GC-MS assay for the determination of barbiturates from urine matrix using Supported Liquid Extraction (SLE). The SLE extraction mechanism is very efficient, delivering higher analyte recoveries and cleaner extracts than equivalent LLE methods.
Barbiturates, SLE, Supported Liquid Extraction, Forensic, SOFT, Urine,
Part No: AN820Issued year: 2014File size: 1.7mbFile type: pdf
This application note describes the extraction of barbiturates from oral fluid matrix collected using the Intercept Oral Fluid Drug Test Kit(Orasure Technologies), prior to GC/MS analysis.
The ISOLUTE SLE+ protocol is optimized for 400 μL and 1 mL sample
capacity formats. The simple sample preparation procedure delivers clean extracts and analyte recoveries greater than 90% with RSDs lower than 7% for all analytes.
Part No: AN868Issued year: 2016File size: 1.59mbFile type: pdf
This application note describes the extraction of barbiturates, using ISOLUTE SLE+ supported liquid extraction columns, from oral fluid matrix collected using the NeoSal collection device, prior to GC/MS analysis.
Part No: AN824Issued year: 2014File size: 1.25mbFile type: pdf
This application note describes the extraction of Butalbarbital, Butabarbital, Amobarbital, Pentobarbital,Secobarbital, Hexobarbital and Phenobarbital from oral fluid matrix collected using the Oral-Eze® collection devices, prior to GC/MS analysis.
Part No: AN821Issued year: 2014File size: 2.3mbFile type: pdf
This application note describes the extraction of
barbiturates from oral fluid matrix collected using Quantisal™ collection devices (Immunalysis), prior to GC/MS analysis.
The ISOLUTE SLE+ protocol is optimized for 400 μL and 1 mL sample
capacity formats. The simple sample preparation procedure delivers clean extracts and analyte recoveries greater than 88% with RSDs lower than 6% for all analytes.
Part No: P111Issued year: 2014File size: 0.45mbFile type: pdf
This poster describes the extraction of barbiturates from oral fluid collected using common collection devices using ISOLUTE SLE+ Supported Liquid Extraction columns, optimised for GC-MS analysis.
SOFT 2014
Part No: AN853Issued year: 2015File size: 0.7mbFile type: pdf
This application note describes the extraction of barbiturate compounds from whole blood, prior to GC/MS analysis. This protocol also allows the simultaneous extraction of various other drugs of abuse classes: amphetamines, benzodiazepines, cocaine and opiates.
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 20 ng/mL (analyte dependant).
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