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Trends shaping global environmental analytical testing

The only certainty in a changing environmental landscape Despite a 38-fold increase in environmental laws put in place around the world since 1972, the future of our planet is under the spotlight like never before. Mitigating climate change has arrived as our world's...

Mass spectrometry as a forensic science tool in 2020

  There’s no doubt about it: forensics is at the front line of the criminal justice system. It’s where analytical chemistry has the power to fight crimes. It’s fascinating! But what excites me is how quickly things change and the speed of innovation. Just think about...

Microflow for metabolite ID: a win all around

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...

A year of cannabis in Canada. Where are we and what’s next?

It’s been a momentous year for the cannabis industry in Canada. Not only did the country legalize cannabis with the Canadian cannabis law in October 2018, but it has also taken a giant leap in setting up a multi-billion dollar market from scratch. The progress made...

Overcoming uncertainty in your PFAS analysis

Overcoming uncertainty in your PFAS analysis

Just like gum on the bottom of a shoe, the existence of per- and poly-fluorinated alkyl substances (PFAS) in our environment is a sticky one. If you’re in the field of environmental testing, then you’re all too familiar with the threat these substances have on public health. While we have learned a lot about them over the years, there is still much more to understand. With the right detection methods, we can gather the information we need to empower us to make informed decisions on reducing the risks they impose.

6 Signs it’s time for a new vendor

6 Signs it’s time for a new vendor

A lab’s success depends on many factors from instrument quality to efficient operations, including being partnered with the right vendor. A vendor is more than just a supplier. They should provide you with a high-level quality of support in maximizing the lifespan and performance of your systems, reducing downtime, enhancing ROI and more. How do you know if you’re partnered with the right one? Here are six signs it might be time to find someone new.

Nitrosamines: Where are we now?

Nitrosamines: Where are we now?

Nitrosamines are a large group of N-nitroso compounds that share a common functional N-N=O group. They are produced by a chemical reaction between a nitrosating agent and a secondary or tertiary amine. Back in 2018, nitrosamines suddenly found themselves in the spotlight when they were unexpectedly detected in medications for high blood pressure. Since then, they have been found in several other prescription medications, including those for heartburn, acid reflux and diabetes, resulting in manufacturers recalling some common medications.

FDA’s final rule on LDTs: what does it mean for clinical laboratories?

FDA’s final rule on LDTs: what does it mean for clinical laboratories?

On April 29, 2024, the U.S. Food and Drug Administration (FDA) announced a final rule regulating laboratory developed tests (LDTs) as in vitro diagnostic devices (IVDs) under the Federal Food, Drug and Cosmetic Act (FD&C Act). This rule amends FDA’s regulations to state that in vitro diagnostic tests “manufactured” by clinical laboratories fall within the scope of the FDA regulatory oversight and is poised to dramatically shift the way clinical diagnostic laboratories in the United States develop and offer LDTs in the future. Read this blog post for a basic overview of the scope, intent and implications of this final rule, including the regulatory requirements, exceptions and timeline for implementation.

4 Reasons Why Your Lab Needs Remote Monitoring

4 Reasons Why Your Lab Needs Remote Monitoring

You know the drill, lab managers are always seeking new solutions to keep their labs running at peak performance and instrument or system disruptions can be detrimental. Wouldn’t it be nice if there were a way to connect to your lab from anywhere securely and to stay ahead of potential instrument problems? By using remote monitoring, labs are now able to respond to issues quickly and efficiently, productively reducing downtime. 

Testing for a Variety of Bath Salts is a Necessity for Forensic Labs

Testing for a Variety of Bath Salts is a Necessity for Forensic Labs

To date, when it comes to testing urine or oral fluids in the workplace not all psychoactive substances can be detected due to evolving substitutions. As legislation changes, so too do chemical formulations.  Therefore researchers, like the authors of the following publication, A Validated Method for the Detection of 32 Bath Salts in Oral Fluids, published by Oxford Academic, analyze compounds using the best available methods so they can cast a wider net.

Vitamin D Analysis Made Simple

Vitamin D Analysis Made Simple

Last month, Dr. Phil Levy, a clinician, professor, and researcher at Wayne State University, was invited to SCIEX to lecture on ‘Vitamin D Measurement and Implications for Patient Care.’ His message was simple and very clear: Vitamin D testing is here to stay!

What does World Food Day Mean to Food Scientists?

What does World Food Day Mean to Food Scientists?

Did you know that the Food and Agricultural Organization of the United Nations (FAO), celebrates its founding each year on October 16 with World Food Day? You can explore their theme and commitment to ending hunger by 2030 here. As part of their, “Ten Facts You Need to Know about Hunger,” perhaps you may find it interesting that, “The world will need to grow 60 percent more food by 2050 to feed the growing population.”

Multi-Laboratory Study Highlights the Quantitative Reproducibility of SWATH Acquisition (Nature Communications Paper)

Multi-Laboratory Study Highlights the Quantitative Reproducibility of SWATH Acquisition (Nature Communications Paper)

Reproducibility is one of the key tenets of the scientific method. But in a recent survey published in Nature, more than 70% of researchers were not able to reproduce another scientist’s experiments, and more than half could not reproduce their own experiments1. While the reasons for this are many, at least some of them stem from issues inherent in data collection.

Training Program for Today’s Food and Beverage Testing Lab

Training Program for Today’s Food and Beverage Testing Lab

Is your lab looking to acquire methods for food testing? What about getting better acquainted on the SCIEX Triple Quad™ or QTRAP® mass spectrometers to learn quantitation better? The following SCIEXUniversity Success Program training courses not only cover food and beverage quantitation but offer application training on topics such as meat speciation testing and pesticide analysis. Especially important considering the latest Fipronil contamination in eggs.I want to sign up for courses >

Phthalates Are Out, Accurate Detection Using LC-MS/MS Technology Is In

Phthalates Are Out, Accurate Detection Using LC-MS/MS Technology Is In

Whether you like it or not, the plastics industry is a growing market. According to an Allied Market Research report, it was valued at $15,179 million in 2015 and is projected to reach $18,538 million by 2022, growing at a CAGR of 2.9% from 2016 to 20221. Additionally, according to the report, in 2015, phthalates type held two-thirds of the global market in 2015. An important statistic since the use of various phthalates is restricted in many countries because of health concerns2.

SCIEX Lands HUPO Science and Technology Award

SCIEX Lands HUPO Science and Technology Award

We are pleased to congratulate its research scientists Stephen Tate and Ron Bonner (retired) for being awarded this year’s Science and Technology award at HUPO 2017 in Dublin Ireland. The Science and Technology Award at HUPO recognizes an individual or team who were key in the commercialization of a technology, product, or procedure that advances proteomics research

Forensics Made Easy

Forensics Made Easy

Mass spectrometry techniques are now commonplace for high throughput quantitation and screening, but also for research and discovery for food safety, forensics, environmental testing, and a host of other applications. The demands of these settings are different from traditional research, requiring MS systems which combine robust and reliable operation with straightforward day-to-day processing. The SCIEX X500R QTOF System has been developed specifically to meet these needs and is now helping to streamline the workflow of Zurich’s Institute of Forensic Medicine.

Making Your Vitamin D Testing Dreams Come True

Making Your Vitamin D Testing Dreams Come True

If you work in clinical diagnostics, you can probably confirm that most clinical laboratories have seen a 5 to 6-fold increase in 25-hydroxyvitamin D testing over the past decade, and volume is growing.  Furthermore, the Office of Inspector General (OIG) recently reported Vitamin D as one of the top five laboratory assays reimbursed by Medicare, accounting for 8.7 million laboratory tests and $337 million in reimbursement dollars.

Elimination of Interference using the SelexION Differential Mobility System for the Quantitation of Rituximab in a Dual Surrogate Peptide Approach

Elimination of Interference using the SelexION Differential Mobility System for the Quantitation of Rituximab in a Dual Surrogate Peptide Approach

The quantitation of proteins using the surrogate peptide approach can complicate nominal mass Triple Quadrupole MRM measurements due to co-extracted interference when using non-selective extraction techniques such as pellet digestion. High resolution coupled with accurate mass filtering can mitigate such interference, as reported previously for the determination of rituximab using the TripleTOF 6600 (Protein Quant Approaches). However, an additional level of selectivity can often be achieved on nominal mass systems using the orthogonal gas-phase separation approach offered by the SelexION+® Differential Mobility System technology (DMS). Interfaced between the sampling orifice and ion source, the DMS separates ions based upon differences in their migration rates under alternating low and high field waveform amplitudes (Figure 1). Ion clustering in low fields and declustering in high fields amplifies the distinction in mobility of an ion, resulting in improved resolution from interfering species of differing molecular cross-section.1-4

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