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A joint study between Amsterdam University Medical Centers and MEDLAB analyzed over two dozen glucose sensors, insulin pumps, and insulin infusion sets to identify the chemicals present in these devices using gas chromatography–mass spectrometry (GC–MS).

Discover the 2026 HTC Innovation Award, recognizing groundbreaking contributions in separation science and hyphenated techniques by emerging scientists.

Using advanced chromatography–mass spectrometry techniques, researchers mapped how metabolites move between coral tissue and skeleton, uncovering clear metabolic differences across tissue and skeletal layers.

In the second episode of our GLP-1 Therapy Insights series, experts Judith Hey-Hadavi from Worldwide Clinical Trials and Nicole Snow from Olympia Pharmaceuticals discuss the evolution of GLP-1 receptor agonists from protein-based therapies to small-molecule options.

IQ Consortium experts explain how advanced chromatographic and analytical strategies are improving the bioanalysis, metabolite characterization, and regulatory readiness of RNA-based therapeutics.

Explore GLP-1 receptor agonists with experts Judith Heij-Hadavi and Nicole Snow: molecular design, patient care, oral therapies, and analytical insights.

Knauer's leaders discuss sustainability, AI integration, and strategic growth, highlighting their commitment to eco-friendly practices and gender balance in STEM.

Top articles published this week include an exclusive interview with Nicholas Snow of Seton Hall University and an article highlighting how LC–MS/MS is being used to assess oxysterol imbalances.

Georgia Tech and NASA used advanced chromatography and a new computational tool to compare organic compounds in meteorite and terrestrial rock samples.

Researchers investigating the role of cholesterol metabolism disorders in the etiopathogenesis of autism spectrum disorder (ASD) through the analysis of central and peripheral oxysterol levels assessed those levels using liquid chromatography coupled with tandem mass spectrometry (LC-MS/MS).

Researchers analyzed 200 mustard samples using gas chromatography with flame ionization detection (GC-FID) to determine their fatty acid profile, with a specific focus on erucic acid (EA) content.

Nicholas H. Snow emphasizes the growing need for chromatography training in academia and industry, highlighting short courses, conferences, and hands-on experience as critical tools for preparing the next generation of analytical chemists.

Susanne Boye, Daniela Held, and Claudia Zielke focus on the evolving landscape of chromatography, where flexible empathetic leadership and AI-driven techniques redefine laboratory culture and analytical science.