GEN-MKT-18-7897-A
Nov 24, 2015 | Blogs, Food / Beverage | 0 comments
Truth – the first turkey I ever cooked was still frozen when it hit our plates. I couldn’t figure out why that thing was taking so long to roast. Then it hit me. I forgot to defrost the bird. If I recall correctly, even the giblets were still in it. It was ten p.m. when I broke the news to my guests that the turkey was not happening. A pizza was ordered, and everyone breathed a sigh of relief that they would not be suffering from a bout of food poisoning.
These days I defrost the turkey a few days ahead of the holiday. I know a turkey is done when it reaches 180 degrees Fahrenheit in the thigh and 165 degrees in the breast or stuffing. However, what I do not know is whether pesticides are lurking in the yummy deliciousness. As a scientist, I think about these things all the time. It is a common work hazard. For instance, the mass produced turkeys you find in the grocery store are injected with veterinary medicines to prevent illnesses and accelerate growth. No matter how long you cook the bird, those pesticides can remain in the meat even though a required withdrawal period takes place before slaughter.
Thankfully, manufacturers entrust labs to test routinely food for antibiotics using technology like the SCIEX QTRAP® which can detect antibiotics at trace levels. Common drugs including Oxytetracycline, Tetracycline and Chlortetracycline, can be detected at low levels in less than three minutes. What is more is that our High-Resolution MS library contains more than 240 veterinary drug compounds to assist labs in the analysis of animal tissue that makes me feel much better about eating my turkey.
I understand not everyone wants a mass spectrometer as their centrepiece on Thanksgiving Day, which is why you can be grateful the testing happens well in advance of the bird purchase. However, if you are concerned about antibiotics in your turkey then check with local farmers to see how they raise their birds.
USDA Turkey FACTS
Regulated laboratories are evolving faster than ever. New analytical modalities, higher sample throughput, increasing regulatory scrutiny, and leaner teams are reshaping how work gets done. At the same time, expectations for data integrity, standardization, and operational efficiency continue to increase complexity and/or scope. In this environment, LC-MS software is no longer simply an instrument control platform—it has become a critical part of a laboratory’s quality management system. The question is no longer whether your lab has changed, but whether your software has evolved to support the way regulated labs operate today, and if they are ready and able to meet the demands, they will face tomorrow.
Analyst software has long been a trusted foundation in regulated LC-MS laboratories—and for many, it still performs reliably today. But regulated environments are evolving faster than ever. As labs transition to Windows 11, strengthen cybersecurity policies, modernize IT infrastructure, and prepare for future compliance expectations, software decisions are no longer just about what works today—they’re about managing tomorrow’s risk. Analyst will not be supported on Windows 11. While some labs may continue operating in unsupported environments temporarily, the bigger question is: when that risk becomes reality, will your lab be reacting under pressure—or executing a planned mitigation strategy with confidence?
As regulatory scrutiny increases and detection requirements tighten, laboratories are facing a new question: How can TFA be measured reliably, sensitively, and at scale?
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