Part No: P032Issued year: 2011File size: 1.35mbFile type: pdf
Endogenous phospholipids (outline structure shown in
Figure 1.) present in biological fluids are a major problem
in LC-MS/MS analysis. Due to their strong retention
characteristics in reversed phase chromatography
phospholipids tend not to elute as discrete peaks and are
often very difficult to separate from analytes of interest.
This co-elution often leads to areas of suppression or enhancement in the chromatogram which in turn can cause
quantitation issues. Supported liquid extraction (SLE) is an
analogous technique to traditional liquidliquid
extraction. This poster compares phospholipid removal using a wide variety of solvent combinations, pH control and polar extraction solvents on supported liquid extraction plates
Part No: Issued year: 2011File size: 1.65mbFile type: pdf
User Report: Syro I, University of Tokyo. The Suga Laboratory at RCAST, University of Tokyo, uses the Biotage Syro I automated peptide synthesizer for scaling up the chemical synthesis of non-standard peptides.
Part No: 412941-DIssued year: 2012File size: 1.18mbFile type: pdf
ELSD-1080 (evaporative light-scattering detector) is a
universal detector designed for use with Isolera One
and Isolera Four systems when purifying compounds
with little or no UV absorption such as carbohydrates,
steroids, lipids, and terpenes
Part No: AN084Issued year: 2014File size: 0.86mbFile type: pdf
This application note outlines how to use the Isolera system to perform a size-exclusion separation as part of a sample clean up method defined by the EPA, a key sample preparation step in environmental laboratories.
Part No: AN005-HORIssued year: File size: 0.2mbFile type: pdf
EPA Method 506 is used to determine Phthalate and Adipate Esters in drinking water. The analytes are extracted from water using a Horizon Technology 47 mm Atlantic C18 disk. The disk is extracted with Acetonitrile and Methylene Chloride. The extract is then dried and concentrated to a final volume of 1.0 mL using the Horizon Technology DryVap® with DryDisk® technology. Final analysis is by GC/PID.
Part No: AN006-HORIssued year: File size: 0.2mbFile type: pdf
Method 508.1 is used to determine twenty-nine chlorinated
pesticides, three herbicides, and four organohalides in
ground water, drinking water, and water in any treatment
stage. The analytes are extracted from the water using a 47
mm C18 disk. The disk is extracted on the Horizon
Technology SPE-DEX® 4790 Automated Extraction
System using Ethyl Acetate and Methylene Chloride
(DCM). The extract is then dried and concentrated using
the Horizon Technology DryVap® with DryDisk®
technology. Final analysis is by GC/ECD.
Part No: AN010-HORIssued year: 2009File size: 0.2mbFile type: pdf
Method 526 is a gas chromatography / mass spectrometry(GC/MS) method for the determination of selected semivolatile compounds in raw and finished drinking waters.This method efficiently extracts analytes using the SPEDEX® 4790 with an Atlantic® 47 mm polystyrene divinylbenzene (DVB) disk. The disk is extracted with using Ethyl Acetate (EtAc) and Methylene Chloride (DCM). The extract is then dried and concentrated using the DryVap® concentrator system coupled with DryDisk® technology to a final volume of 1.0 mL. Final analysis is done by GC/MS.
Part No: P128Issued year: 2015File size: 0.26mbFile type: pdf
In all areas of analytical laboratory testing it is vital to ensure proper quality measures are in place to reduce or eliminate cross contamination between samples, which could result in false positive and/or false negative results. In many cases sample carryover in the LC/MS system is checked early on in the method development process. However, one area that can often be overlooked the sample preparation stage. This involves all aspects including pipetting, sample transfer, extraction protocol, evaporation and mixing steps. This poster examines various stages of the sample preparation process to determine the potential for cross contamination and present approaches to minimize and or eliminate the effect. This is demonstrated via a series of dye experiments combined with analyte testing using LC-MS/MS.
Part No: P126Issued year: 2015File size: 0.48mbFile type: pdf
This poster demonstrates the use of a novel protein and phospholipid depletion plate, for the extraction of 25-hydroxy vitamin D from serum. The extraction protocol was ultimately transferred to an SPE automation platform and method performance versus manual processing was compared.
Part No: P079Issued year: 2014File size: 0.59mbFile type: pdf
The new ISOLUTE® PLD+ Protein and Phospholipid Removal Plate is highlighted in this poster. Protein and phospholipid removal, and analyte recovery are included, along with data illustrating the positive impact of clean (PL and protein free) samples in maintaining analyte signal intensity and low UPLC column back pressure over multiple LCMS runs.
Part No: P088Issued year: 2014File size: 1.06mbFile type: pdf
This poster evaluates the performance of a novel 96-well filter plate (ISOLUTE PLD+ Protein and Phospholipid Removal Plate) for
the simultaneous removal of proteins and phospholipids from serum samples prior to LC-MS/MS analysis.
Part No: P104Issued year: 2014File size: 0.77mbFile type: pdf
This poster presents the ISOLUTE PLD+ Protein and Phospholipid removal plate, highlighting its ease of use and excellent performance with respect to sample clean up, analyte recovery and elimination of back pressure build up in the UPLC system.
Part No: P153Issued year: 2016File size: 0.52mbFile type: pdf
In postmortem cases, where drugs or pesticides have been used for
their poisonous properties, traditional matrices such as urine and
whole blood may be inappropriate for qualitative and quantitative
analysis. As the site of metabolism for most drugs and toxins, the
liver may provide more insight to cause of death than other bodily
This poster describes the use of ISOLUTE SLE+ supported liquid extraction columns to extract a range of drug and pesticide classes form homogenised liver using a simple, streamlined workflow.
Part No: P112Issued year: 2014File size: 1.4mbFile type: pdf
This poster demonstrates the extraction of a range of drugs of abuse from oral fluid, collected with common collection devices, prior to UPLC-MS/MS analysis. The target analyte list includes benzodiazepines, z drugs, amphetamines, cathinones, opiates, cocaine, buprenorphine, PCP, THC-COOH, fentanyl and ketamine.
Part No: P132Issued year: 2015File size: 1.55mbFile type: pdf
This poster demonstrates the extraction of a range of drugs of abuse from oral fluid collection devices using supported liquid extraction suitable for UPLC-MS/MS analysis. Unlike some sample preparation techniques, SLE allows for the simultaneous extraction of cross-functional analytes in a single extraction protocol without forfeiting extract cleanliness.
The target analyte list includes benzodiazepines, z drugs, amphetamines, cathinones, opiates, cocaine, buprenorphine, PCP, THC-COOH, fentanyl and ketamine.
Part No: P087Issued year: 2014File size: 0.94mbFile type: pdf
This poster describes the extraction of a range of drugs of abuse (including barbiturates, THC and metabolites, benzodiazepines, z drugs, amphetamines,cathinones, opiates, cocaine, buprenorphine, PCP, fentanyl and ketamine) from oral fluid using supported liquid extraction (ISOLUTE SLE+) columns prior to GC-MS and LC-MS/MS analysis.
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
Part No: P026Issued year: 2008File size: 0.36mbFile type: pdf
Matrix components, particularly salts, proteins and
phospholipids, can lead to ion suppression resulting in
inaccurate quantitation and reduced detection limits.
Resin-based mixed-mode cation exchange SPE sorbents
are widely used for the extraction of basic compounds
from biological fluids. The dual retention mechanism
allows a two stage interference wash protocol, which
results in extremely clean extracts.
This poster will investigate the performance of
EVOLUTE™ CX for the extraction of a wide range of basic
drugs from plasma, showing high analyte recovery and
advanced extract cleanliness. The analyte suite was
selected to cover a variety of basic analytes with wide
ranging polarities (LogP values). Extract cleanliness
experiments were performed showing overall ion
suppression, then individual matrix components examined
in terms of protein and phospholipid removal.