A robust, sensitive, and reliable multi-residue LC-MS/MS method workflow solution that uses the Thermo Scientific TSQ Altis triple quadrupole mass spectrometer provides analysis and quantitation of more than 160 veterinary drugs with the Thermo Scientific VetDrugs Explorer Collection solution in salmon (fillet), bovine muscle, and milk. The complete instrument and data processing method including SRM settings is included with the VetDrugs Explorer Collection start-to-finish workflow solution. In 17 minutes, the target veterinary drugs were detected and quantified in food matrices.
Worldwide food safety concerns have risen dramatically as the number of food contamination incidents and product recalls has increased. Every food analysis starts with sample preparation, which is widely accepted as one of the most critical steps of LC/MS. Increased demand for higher throughput, accuracy and lower matrix interference from food analysis laboratories has made sample preparation the largest bottleneck. Turbulent flow chromatography technology can eliminate the need for lengthy offline sample preparation steps, thereby eliminating these disadvantages.
There is growing environmental concern regarding the health impact of trace levels of pharmaceuticals and personal care products (PPCPs) in water resources. In response, the U.S. Environmental Protection Agency (EPA) published Method 1694, which determines dozens of PPCPs in water, soil, sediment, and biosolids by HPLC-MS/MS. We demonstrate a progressive approach to analyzing PPCPs in environmental sources of water at the ng/L level with online sample preparation using small volumes of water, thus saving time and reducing the cost of analysis.
Antibiotics are widely used to treat diseased animals, prevent diseases and promote growth. However, inappropriate or excessive usage of antibiotics can result in antibiotic residues being found found in food and food products of animal origin. In here, a multi-residue, confirmatory method for the quantitative determination of antibiotics in chicken meat is described using the Thermo Scientific Transcend TLX system coupled to an LC-MS/MS. With online sample cleanup and high sample throughput, this approach addresses the demand for a fast and cost-effective multi-analyte method.
We developed a highthroughput, sensitive and precise screening method, with minimal sample preparation, for the determination of multiclass antibiotic residues in milk samples by LC-MS/MS.
