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Spatial proteomics and transcriptomics are fast-emerging fields with the potential to revolutionize various branches of biology. In the last five years, various multiplex immunofluorescence and immunohistochemistry imaging methods have been developed to stain 5-60 different protein markers in a given tissue. Nonetheless, most of these techniques are iterative and can image a maximum of 3-8 markers in a single cycle, resulting in processing time of several hours to days.

Summary: 
Investigators at the National Institute on Drug Abuse seek co-development partners and/or licensees for collection of mu opioid receptor (MOR) agonists as alternatives for existing compounds.

Description of Technology: 
Although existing opioids are excellent analgesics and useful as positron emission tomography (PET) radiotracers, they come with debilitating side effects. These include addiction, respiratory distress, hyperalgesia, and constipation. Therefore, there is a need for alternatives with lower adverse effects.

This technology includes a blood flow imaging method that allows for a higher density of smaller particles to be detected. Current imaging methods that are based on Doppler measurements are limited by the discontinuity in the capillary flow in the space between red blood cells. The core technology is to use a scattering agent to enhance capillary flow or microcirculation. This technology has been tested for optical coherence Doppler tomography, but can be expended to any Doppler based flow imaging techniques such as laser speckle imaging.