Researchers at the National Cancer Institute (NCI) developed a multiplex assay to determine the efficacy of apoptosis-related drugs targeting the Bcl2 family of proteins or aid in the selection of cancer patients likely to respond. The NCI seeks partners for co-development or licensees for commercialization of novel immunoassays for determining or predicting patient response to cancer therapy.
Scientists at the National Cancer Institute's Surgery Branch developed a method to identify T cells that specifically recognize immunogenic mutations expressed only by cancer cells. The NCI seeks parties interested in collaborative research to co-develop or license T-cell therapy against cancer mutations.
Inventors at the National Cancer Institute (NCI) have developed chimeric antigen receptors (CARs) that target two B cell surface antigens, CD19 and CD22, improving treatment of B-cell malignancies, such as acute lymphoblastic leukemia (ALL). NCI is actively seeking parties interested in licensing this invention to commercialize the bicistronic CAR construct targeting CD19 and CD22 for immunotherapy.
Scientists at the National Cancer Institute developed a method to identify T cells that specifically recognize immunogenic mutations expressed only by cancer cells. NCI seeks parties interested in collaborative research to co-develop or license T-cell therapy against cancer mutations
Researchers at the National Institute on Drug Abuse (NIDA) seek licensing and/or co-development research collaborations to further develop, evaluate or commercialize the software, Mobile Personalized Assessment & Learning for Addiction Treatment and Behavioral Modification. NIDA researchers developed this software for use in treating substance use disorders (drugs, alcohol, smoking) that provides personalized feedback to users.
The National Eye Institute's Ophthalmic Genetics and Visual Function Branch seeks interested commercial parties to co-develop the use of nitisinone (NTBC) for oculocutaneous albinism or as a treatment for increasing pigmentation in the eyes, hair and/or skin of patients.
NCI scientists developed a method that uses urine samples to detect early-stage cancers and that could supplement low-dose computed tomography (LD-CT) for early-stage cancer detection, and significantly decrease expensive false negative/false positive results. The NCI seeks co-developers or licensees to commercialize this technology.
The National Institutes of Health, through The National Institutes of Health - Clinical Center (NIH-CC) and the National Heart Lung and Blood Institute (NHLBI), seeks licensing and/or co-development partners for a nitric oxide cream for the treatment of ulcers associated with sickle cell disease.
This technology provides improved processes for production and purification of nucleic acid-containing compositions, such as non-naturally occurring viruses, for example, recombinant polioviruses that can be employed as oncolytic agents. Some of the improved processes relate to improved processes for producing viral DNA template.
Researchers at the National Cancer Institute (NCI) have developed a dendritic cell vaccine for treating multiple cancer types. The NCI seeks licensing and/or co-development research collaborations to bring this invention to the public.
Researchers at the National Cancer Institute’s Biopharmaceutical Development Program recently developed massively parallel sequencing methods for virus-derived therapeutics such as viral vaccines and oncolytic immunotherapies, for which the NCI seeks licensees or co-development collaborations.
Researchers at the National Cancer Institute identified a collection of TCRs that exclusively recognize the common hotspot driver mutations in p53 tumor suppressor, expressed by a variety of human cancers, including colorectal, breast and lung cancers. The mutated p53 variants are recognized by the TCRs in the context of specific Class I/Class II HLA alleles. These TCRs can be used for a variety of experimental therapeutic, diagnostic and research applications.'
The invention is a novel methodology for predicting a mantle cell lymphoma (MCL) cancer patient’s survival prognosis. This information is important in helping determine the best course of treatment for the patient.
Researchers at the National Institutes of Health identified a collection of TCRs that exclusively recognize the common hotspot driver mutations in KRAS antigen, expressed by a variety of epithelial cancers, including pancreatic, colorectal and lung cancer. The mutated KRAS variants are recognized by the TCRs in the context of specific Class I/Class II HLA alleles. These TCRs can be used for a variety of experimental therapeutic, diagnostic and research applications.
Novel thalidomide analogs and their use as immunomodulatory agents are disclosed in this invention by scientists at the National Institute on Aging (NIA). These therapeutic compounds could reduce chronic systemic and central nervous system inflammation. The NIA seeks licensing or co-development partners to commercialize this technology.