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Method and Device for Selectively Labeling RNA

The National Cancer Institute's Structure Biophysics Lab seeks partners interested in licensing or co-developing a technology to site-specifically label RNA.

Device to guide oxygen over cells for photo-oxidation

Device is used to guide a stream of oxygen or carbon dioxide over a dish of cells during fluorescence microscopy. Invention includes the 3D printing software to create the device. The device makes it possible to easily provide a steady source of oxygen or carbon dioxide to cells while operating a fluorescent microscope to oxidize fluorophores for later visualization in electron microscopy. NCI seeks commercial partners to license this technology.

Transperineal Ultrasound-Guided Prostate Biopsy

The National Institutes of Health (NIH) Clinical Center (CC) seeks Cooperative Research and Development and/or license agreements for Transperineal Ultrasound-Guided Prostate Biopsy

Microosmometer for the Study of a Wide Range of Biological, Macromolecular, Polymeric, Gel, or Other Samples

Scientists at the Eunice Kennedy Shriver National Institute for Child Health and Human Development (NICHD) have discovered that changes in the osmotic pressure of tissue or hydroscopic samples having a mass of less than about one microgram and that can exert a high osmotic pressure can be measured by this method. The NICHD seeks research and co-development or licensees for a method of measuring small physical changes in small quantities of materials.

Micro-Dose Calibrator for Pre-clinical Radiotracer Assays

Pre-clinical radiotracer biomedical research involves the use of compounds labeled with radioisotopes, including radio-ligand bio-distribution studies, cell binding studies, immune cell labeling techniques, and α-based therapies. Before this Micro-Dose Calibrator, measurement of pre-clinical level dosage for small animal studies was inaccurate and unreliable. This dose calibrator is a prototype ready for customer testing and scale-up. It is designed to accurately measure radioactive doses in the range of 50 nCi (1.8 kBq) to 100 µCi (3.7 MBq) with 99% precision. The NCI seeks co-development or licensing to commercialize it. Alternative uses will be considered.