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A novel class of small molecule Alpha, Beta-ABAD interaction inhibitors for the treatment of Alzheimer's Disease. 

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This invention introduces carbon-biomaterial nanohybrids for use in high-performance, low-cost optoelectronic devices such as infrared detectors.

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Ecological Niche Modeling for Predicting the Potential Geographic Distribution of Invasive Species. This invention uses a novel combination of computer programs and analytical techniques drawn from quantitative geography, artificial intelligence, and the emerging field of biodiversity informatics to provide a tool for predicting, analyzing, and strategizing against agricultural species invasions.
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Hearing loss, tinnitus, and vertigo result from the damage of mechanosensory hair cells (HCs) located in sensory epithelium of the cochlea and vestibular organs of the inner ear. HCs do not regenerate. Currently, hearing aids and cochlear implants are the only treatments to address hearing loss, and both options provide mild relief. The challenge in developing new therapies and screening ototoxic agents is that the cochlear and vestibular sensory epithelium are isolated deep in the inner ear. Invasive measures are required to access the sensory epithelium. KU researchers have endeavored to create both cochlear and vestibular sensory epithelium outside of the body. They are developing a model platform where the cochlear and vestibular sensory epithelium can be grown outside of the body for testing and developing new diagnostics, screening ototoxic agents, and evaluating new therapies. No such model currently exists. Thus, this technology has the potential to take a leap forward in the advancement of medicine for hearing disorders.
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The current invention is a novel composition of matter that is comprised of a monomeric species, which could be used as co-initiator as well as co-monomer.  Upon excitation using visible light, the monomeric species efficiently assists the photopolymerization and itself polymerizes into a material that is useful for dental applications.

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A novel sensor design allows capture of angular fluid flow with greater accuracy than the conventional Pitot-type probe currently in use in commercial and military aircraft

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A mechanical barrier system for reducing infections associated with intravascular catheters. The invention reduces the risk of bacterial contamination of the outer surface of the catheter at the skin entry site, which in turn prevents more serious infections caused by the spread of bacteria down the surface of the catheter into the bloodstream. The barrier device functions by forming an occlusive "boot" at the skin exit site and relies on use of a cyanoacrylate adhesive to complete the occlusive junction between the boot and the contaminated skin.  At time of device removal, the device-adhesive bond is safely broken through a novel bladder release method, allowing for safe removal of the vascular catheter.

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A lightweight, laser-based sensor system that augments an onboard autopilot with accurate altitude and attitude measurements, enabling automated landing of uncrewed aerial vehicles (UAVs).
 
Development status: completed system-level simulation; exp. proof-of-concept in lab (1-Hz meas rate)
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The invention is a novel and efficient method to establish new embryonic stem (ES) cell lines from mammalian species and to maintain ES cells at the pluripotent state.

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The current invention is a method for using inexpensive and widely available silica nanoparticles as a fluid loss prevention agent and nanoproppant to maintain micro-fractures during hydraulic fracturing (fracking) to extract oil or natural gas from a variety of geological formations.  

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