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Molecular imaging is a disease-specific targeting modality that promises much more accurate diagnoses of serious diseases such as cancer and infections. Agents are being continually developed with a view to clinical translation, with several such therapies requiring measurement of very small doses. Currently, there is no way of accurately measuring small amounts of radioactivity used in many pre-clinical tracer studies, as on-the-market commercial dose calibrators measure at too high a dose range, typically at 10-1000 µCi and higher.

Researchers at the NCI  Laboratory of Molecular Theranostics and the Molecular Imaging Program have developed a new method to modify, isolate and remove a single chemically-labeled molecule or a cluster of proteins associated with the chemically-labeled protein. The chemical label can be an antigen-antibody complex. This discovery is based on the mechanism of photo-immunotherapy (PIT).

This technology from the NCI Molecular Imaging Program relates to a Zirconium-89 (89Zr)-oxine complex for cell labeling, tracking of labeled cells by whole-body positron emission tomography/computed tomography (PET/CT) imaging, and associated methods. A long half-life of 89Zr (78.4 hours), high sensitivity of PET, and absence of background signal in the recipient enable tracking cells over a week using low levels of labeling radioactivity without causing cellular toxicity.

Accurate measurement of low metabolite concentrations produced by medically important enzymes is commonly obscured by noise during magnetic resonance imaging (MRI). Measuring the turnover rate of low-level metabolites can directly quantify the activity of enzymes of interest, including possible drug targets in cancer and other diseases. Noise can cause the in vivo signal to fall below the limit of detection. A variety of denoising methods have been proposed to enhance spectroscopic peaks, but still fall short for the detection of low-intensity signals.

Over the past decades, taxanes such as paclitaxel and docetaxel have emerged as effective chemotherapy agents for breast cancer and other malignancies. Taxanes are effective in many patients, however, not all patients benefit from this type of chemotherapy. A significant need remains for a means of predicting clinical outcome from taxane-based chemotherapy.

This invention pertains to a system for continuous observation of rodents in home-cage environments with the specific aim to facilitate the quantification of activity levels and behavioral patterns for mice housed in a commercial ventilated cage rack.  The home-cage in-rack provides daytime and nighttime monitoring with the stability and consistency of a home cage environment.

Henipaviruses are RNA viruses containing two high consequence human pathogens: Nipah virus (NiV) and Hendra virus (HeV). Both NiV and HeV infection in humans can result in severe respiratory disease and/or severe neurological manifestations, with mortality rates as high as 80%. There are currently no FDA-approved vaccines or therapeutics, and both NiV and HeV are considered dangerous emerging human pathogens with pandemic potential.

Fentanyl is a synthetic opioid drug approved by the Food and Drug Administration for use as an analgesic (pain relief) and anesthetic. However, synthetic opioids, such as fentanyl, are prone to abuse and are the primary drivers of overdose related deaths in the United States. As little as two milligrams of fentanyl can be lethal. Furthermore, structural variants of fentanyl, often mixed with other drugs or counterfeit pills are illegally distributed without the user’s knowledge.