Search Results - nb1hxx

3 Results Sort By:
Derivatives of Docosahexaenoylethanolamide (DEA) for Neurogenesis
The invention pertains to derivatives of docosahexaenoylethanolamide (synaptamide or DEA) and their use in inducing neurogenesis, neurite growth, and/or synaptogenesis. As such, these DEA derivatives can be used as therapeutics for neurodegenerative diseases such as traumatic brain injury, spinal cord injury, peripheral nerve injury, stroke, multiple...
Published: 10/28/2024   |   Inventor(s): Erika Englund, Juan Marugan, Samarjit Patnaik, Hee-Yong Kim
Keywords(s): Derivatives, Development, Discovery, Docosahexaenoylamide, Growth, IB6XXX, IBXXXX, IXXXXX, Listed LPM Vepa as of 4/15/2015, NB1FXX, NB1HXX, NB1XXX, NBXXXX, Neurons, NXXXXX, Post LPM Assignment Set 20150420, Pre LPM working set 20150418, Promote, That, VEXXXX, YAXXXX, YBXXXX, YFXXXX
Category(s): Collaboration Sought > Licensing, TherapeuticArea > Neurology, Application > Diagnostics, TherapeuticArea > Reproductive Health, Application > Research Materials, Application > Vaccines, Application > Therapeutics
SIRT2 Inhibitors as Novel Therapeutics for Myocardial Infarction and Ischemic Stroke and to Prevent Necrosis
Sirtuin 2 (SIRT2) inhibitors to reduce necrosis and, thereby, as novel therapeutics to treat ischemic stroke and myocardial infarction. Accumulating evidence indicates that programmed necrosis plays a critical role in cell death during ischemia-reperfusion. NIH investigators have shown that the NAD-dependent deacetylase SIRT2 binds constitutively...
Published: 5/6/2025   |   Inventor(s): Toren Finkel, Nisha Narayan
Keywords(s): Against, AGK2, deacetylase, IB1FXX, IB1XXX, IBXXXX, inhibitor, IXXXXX, NAD-dependent, NB1HXX, NB1XXX, NBXXXX, NECROSIS, NXXXXX, PROTECTS, Sirt2
Category(s): Collaboration Sought > Collaboration, Application > Diagnostics, Application > Research Materials, Application > Therapeutics, TherapeuticArea > Cardiology, TherapeuticArea > Neurology
Small Molecule MRS5474 with Anticonvulsant Activity for Treatment of Epilepsy
Adenosine modulates many physiological processes by activating specific adenosine receptors. These adenosine receptors play a critical role in the regulation of cellular signaling and are broadly distributed throughout the body. Thus, the ability to modulate adenosine receptor-mediated signaling is an attractive therapeutic strategy for a broad range...
Published: 10/28/2024   |   Inventor(s): Dilip Tosh, Kenneth Jacobson
Keywords(s): A3, Activity, ADENOSINE, AGONISTS, Agonists:, Al, ANTAGONISTS, Anticonvulsant, Derivatives, Docking, IB1FXX, IB1XXX, IBXXXX, IXXXXX, NB1EXX, NB1HXX, NB1XXX, NBXXXX, N-Methanocarba, Nucleosides, NXXXXX, PARTIAL, Patent Category - Chemistry, POTENT, RECEPTOR, TRUNCATED
Category(s): Collaboration Sought > Collaboration, TherapeuticArea > Neurology, Application > Diagnostics, Application > Research Materials, TherapeuticArea > Cardiology, Application > Therapeutics