Laboratory Methods: are based on established scientific principles involving biology, chemistry, and physics, and encompass all aspects of the clinical laboratory from testing the amount of cholesterol in your blood to analyzing your DNA to growing microscopic organisms that may be causing an infection.
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Created specifically for busy laboratory professionals, this online course includes examples from current laboratory best practices and offers real-world, tangible knowledge that ca...
Mass spectrometry (MS)-based profiling of clinical specimens has been increasingly used in cancer research to characterize changes in protein expression between tumor and healthy tissue or be...
Survival rates for early stage non-small cell lung cancer (NSCLC) remain unacceptably low compared to other common solid tumors. This mortality reflects a weakness in conventional staging, as...
Human malignant glioma is a uniformly fatal disease, causing over 14,000 deaths in the US this year. Adults diagnosed with malignant brain tumors have a median survival of approximately 15 mo...
The effective implementation of personalised cancer therapeutic regimens depends on the successful identification and translation of informative biomarkers to aid clinical decision-making. An...
Pre-recorded webinar available for immediate playback.
Traditional method development, in which an LC method is developed principally by trial-and-error, is time consuming and may not resu...
  Influenza is a major clinical and public health issue. Rapid, accurate diagnostics for influenza have the potential to improve the efficacy of therapy, limit antibiotic over-use, conserve ...
 Equine anti-doping analysis is a changing and dynamic field of science. The constant introduction of new drugs and biopharmaceuticals present challenges to the integrity of sports. Anti-dopi...
This webinar presents LC-MS workflows for cost-effective research and forensic laboratory operation. The workflows, enabled by simple sample preparation coupled with rapid analysis ...