Over the last several years there has been a slow and steady progression within the LC-MS community to move traditional high-flow applications to lower flow rates. In particular, moving into the microflow regime has proven to be a simple adjustment in methodology that...
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Celebrating customer experience: Insights from SCIEX leaders
Introduction Customer Experience Day (CX Day) is a special occasion for SCIEX, celebrated every first Tuesday in October. It’s a day dedicated to recognizing the incredible value of our customers and the relentless dedication of our associates who strive to make...
LC-MS system replacement: Are you ready?
Meeting deadlines in a bioanalysis laboratory can be a big challenge. Older, less sensitive and less reliable LC-MS systems make it even more difficult. Even the disruption caused by the installation and validation can be disconcerting and delay decisions. Does this sound familiar?
Questions and answers to help improve your mycotoxin analysis
During a recent webinar I shared method details for mycotoxin analysis on the SCIEX 7500 system. In this blog i will share the Q&A for the submitted questions that we did not have chance to answer during the live webinar.
Optimized rolling collision energy curves for IDA and SWATH DIA for peptides
During data dependent acquisition (DDA or IDA) or SWATH acquisition, the collision energy can be automatically adjusted according to the mass/charge and charge of the peptide. This dependency has been well characterized on our QTOF systems. By selecting rolling...
Back to the new basics: Part 1 | Making the leap from GC-MS to LC-MS
Producing accurate results quickly in a demanding environment is no easy feat for analytical scientists. What’s more, many of us are constantly questioning ourselves—I certainly am—about whether we are employing the best technique for the analysis at hand.
It’s an overwhelming thought, considering the wide range of tools that are available to choose from, each of which offers varying levels of capacity, sensitivity, selectivity, specificity and cost. How do you meet the unique needs of your organization without breaking the bank? I get it, and I’m not here to convince you it’s easy. My aim is to guide you through the process to help you make the right decision for you.
MRM method transfer from a SCIEX Triple Quad or QTRAP 6500+ system to the SCIEX 7500 system
General recommendations when beginning method development Objective: The purpose of this document is to provide a quick reference for transferring MRM-based quantification methods from a SCIEX Triple Quad or QTRAP 6500+ system to a SCIEX 7500 system. While the best...
Adapting a SCIEX high flow source for microflow LC
To set up a SCIEX high flow source for microflow LC (Turbo V ion source, DuoSpray source or IonDrive Turbo V ion source), first you must replace the wider bore electrodes with more narrow bore hybrid electrodes. Note with the OptiFlow Turbo V ion sources, there are...
Identifying the unknown PFAS profile in firefighting foams/AFFF
According to a recent study from Harvard University, the US EPA, and NIEHS, traditional targeted analysis techniques poorly characterize the PFAS composition of contemporary PFAS-based firefighting foams, know as aqueous film-forming foams (AFFF). Using the EPA 533 PFAS drinking water method for the analyte list, the researchers found that targeted mass spectrometry methods accounted for <1% of organic fluorine content. This is important because it demonstrates that targeted analysis methods miss nearly all the PFAS compounds in modern AFFF mixtures, thus underestimating the risk to human health and the environment.
sMRM Concurrency Calculator
This excel sheet allows you to quickly estimate the MRM concurrency and approximate dwell time for your Scheduled MRM Algorithm acquisition method. Paste your MRM method with retention times into the input tab then calculate the Excel workbook. Plots will update to...
The risky business of aflatoxins in milk
If you’re in the dairy or food testing business, you know the threat aflatoxins pose. Aflatoxins are a type of mycotoxin produced by Aspergillus parasiticus, aspergillus flavus , and rarely aspergillus nomius.1 These are likely the most extensively researched group of mycotoxins because of their adverse health effects.2 What’s more, they are widely found in a variety of crops, namely maize, tree nuts, and spices. Believed to be primarily caused by rising temperatures and humidity, these naturally occurring fungi grow on crops in the field, or during storage of feed and raw materials, where they can potentially produce toxins that enter the food chain.
When Chiral Separation Turns Tricky: The Story Behind CESI-MS in Forensic Chiral Analysis
Against a backdrop of rapid growth, chirality plays a major role in the synthesis of drugs in both pharmaceutical and illicit drug development. In fact, more than half of the drugs currently in use are chiral compounds, available as either racemates or pure...
Cannabis is Legal in Canada – How Did We Get Here?
The First in a Three-Part Series Welcome to the first in a series of blogs from the cannabis team at SCIEX, designed to bring you up to speed and put you in the lead of the recently legalized cannabis market in Canada. The Canadian cannabis market has taken the plunge...
3 Dicamba Analysis Questions You Need to Ask Yourself Today
We blinked and the last two years went in a flash. It seems like just yesterday, the Dicamba herbicide controversy hit the headlines in 2016 and the EPA set the regulations to expire in two years. Fast forward to today. Dicamba is an acid herbicide used to kill...
Don’t Be a Food Scandal Scapegoat. Fight Back with LC-MS/MS for Your Meat Authenticity Testing
The infamous horsemeat scandal of 2013 shined a spotlight on the questionable integrity of our meat supply. What followed was a lengthy investigation as the extent of the scandal unraveled before our eyes, reaching far beyond the European borders...
It’s Time to Turn Things Around―Faster and Accurate Mass Analysis of Organic Explosives
Sadly, the world is a volatile place. The threat of organic explosive use by terrorists and criminals is very much with us, posing a significant danger to people worldwide. The rising concern for public safety is a top priority for national security organizations...
Push Your Research to the Cutting Edge: 2018 Global CESI-MS Symposium
There are a lot of conferences vying for your attention every year. The Global CESI-MS Symposium on October 10-11 in the Netherlands is one you can’t afford to miss. It is the place to hear about the latest advancements made through the adoption of CESI-MS...
Break the routine: SCIEX OS-MQ improves your quantitation workflows
Advances in today’s technology have resulted in a need for higher and faster sample throughput, with increasing number of measured analytes per sample. The new SCIEX OS-MQ software breaks the routine and takes quantitation workflows to a new level. Key features...
Stop Fumbling Around in the Dark: Try LC-MS/MS for Designer Drugs in Forensic Samples
Imagine being blindfolded, sent into a large (dark) room filled with obstacles and challenged to find an item, but you don’t know what that item is, and you have never seen it before. Then you must do the same again the next day, but you are looking for a different...
Something’s in the Water: Tackle Your PFAS Analysis
Exposure to per- and polyfluoroalkyl substances (PFAS) residues could be dangerous. These chemicals have been linked to a variety of adverse health effects including liver damage, thyroid disease, decreased fertility, high cholesterol, obesity, hormone suppression,...
5 Reasons Why Mass Spec is Transforming Clinical Labs
According to the American Clinical Laboratory Association, more than 7 billion clinical lab tests are performed in the U.S. every year. While mass spectrometry represents only a fraction of the clinical applications, there are a growing number of tests where mass...
Save Effort. Save Time. Consolidate Your BioTherapeutic Quality, Safety, and Efficacy Assessments with One Direct LC-MS MAM Assay.
In a previous blog, we learned how you could Simplify Your Life with a Streamlined Workflow for Multiple Attribute Methodology (MAM). Based on the well-known technique of peptide mapping, a Liquid Chromatography-Mass Spectrometry-based MAM workflow (LC-MS MAM) enables...
Metabolism and Biotransformation – What Are You Missing?
Are you looking to improve your MetID studies? Want to achieve the productivity and throughput you need to keep your projects moving and have complete confidence that you’re not missing any low level or parent-like metabolites in your sample? In this blog, we’re...
Biologics Characterization: Intact and Subunit Mass Analysis
When All You Need Is Range – Mass Range, Dynamic Range, and the Complete Range Launching the best possible product in the shortest time possible is key for pharmaceutical companies like you. As you know, nearly every process throughout the biologics development cycle...
Now You Can Overcome Your Food and Environmental Testing Obstacles
How do you safeguard human health and protect your reputation through meeting stringent global food and environmental safety standards? When it comes to testing food and environmental samples, the quality of your testing data is vital to your business. You need fast...
Unraveling the Metabolome
Dr. David Wishart, Departments of Biological Sciences and Computing Science, University of AlbertaCanada’s TMIC is an internationally-recognized leader in metabolomics, providing tools and resources that are used by laboratories around the world. The center offers...
It’s Time to Stop Fraudulent Food Reaching the Consumer with LC-MS/MS
If you are reading this blog, it is likely that you are fully acquainted with food fraud, but let’s just take a moment to set the scene. Food fraud is by no means a new phenomenon and goes as far back as the middle ages, with the concept of tampering or...
Product Quality Assessments of Biotherapeutics Using LC-MS MAM
Why LC-MS MAM?The Liquid Chromatography-Mass Spectrometry Multiple Attribute Methodology (LC-MS MAM) is a technique that is quickly gaining traction in the development and manufacturing of biopharmaceuticals. But what exactly is MAM? As researchers describe in a...
Ion Formation Control Is the Key to Increasing System Robustness
Traditional mass spectrometry ionization methods such as electronic spray ionization (ESI) and matrix-assisted laser desorption ionization (MALDI), are popular methods for detecting the molecular weight of proteins, peptides, and other biologics. The reason being both...
Why You Need Mass Spec for Veterinary Drug Residue and Antibiotic Analysis
As hospitals struggle with increasingly hard-to-treat antimicrobial resistance (ARM) bacterial infections, related deaths now exceed 700,000 per year globally and are predicted to reach 10 million per year by 2050. There’s no denying that these statistics are both...
Simplify Your Life with a Streamlined Workflow for Multiple Attribute Methodology (MAM)
The effort to fully characterize and release a biotherapeutic to the market can be onerous. Typically, many tests are required to identify and monitor various attributes of the final product in order to ensure the safety and efficacy of the drug. These product quality...