Patent application number | Description | Published |
20100074959 | LIPID GROWTH FACTOR FORMULATIONS - The present invention is directed to novel formulations and methods for the improved delivery and administration of hydrophobic therapeutic compounds that are substantially insoluble and/or susceptible to precipitation in aqueous solution at physiological pH, including, e.g., growth and differentiation factor-5 and related proteins. Many therapeutic compounds are hydrophobic at physiological pH levels. | 03-25-2010 |
20110048414 | CIRCUMFERENTIAL AEROSOL DEVICE - The present application discloses devices and methods for delivering a therapeutic compound to the olfactory epithelium of an animal or human. The device having one or more channels for imparting a circumferential and axial velocity to the discharged fluid, and an outlet that discharges an aerosol spray having a circumferential and axial velocity as it enters the nasal cavity of a user. The device is designed to displace the air in the upper nasal cavity in order to specifically deposit a therapeutic agent on the olfactory epithelium while minimizing pressure and discomfort experienced by the user. | 03-03-2011 |
20120087857 | GADOLINIUM EXPRESSED LIPID NANOPARTICLES FOR MAGNETIC RESONANCE IMAGING - Lipid nanoparticles expressing metal ions and methods for using the compositions for magnetic resonance imaging. | 04-12-2012 |
20130142868 | Circumferential Aerosol Device for Delivering Drugs to Olfactory Epithelium and Brain - Methods of delivering a pharmaceutical compounds directly to the olfactory epithelium of a mammal by providing a pharmaceutical aerosol suspension comprising an aerosol and the pharmaceutical compound; aerosolizing the suspension to generate a stream of droplets, the stream having a rotational component, and, delivering the droplets directly to the olfactory epithelium, wherein at least 15% of the droplets are delivered directly to the olfactory deposition. The pharmaceutical compound may be encapsulated within a liposome nanoparticle. | 06-06-2013 |
20140014104 | Nasal Drug Delivery Device - A compound delivery device for delivering a plume derived from a propellant and a drug formulation. The drug formulation is in an intranasal dosage form in the form of powder, suspension, dispersion or liquid. The propelled intranasal dosage form is deposited within the olfactory region of the nasal cavity. The drug deposited within the olfactory region is delivered to the brain avoiding the blood-brain-barrier. Hydrofluoroalkane propellant from a pressurized canister is channeled to a diffuser and drug-containing chamber where the intra-nasal dosage form is aerosolized. The aerosolized intra-nasal dosage form passes through a nozzle thus delivering a plume to the olfactory region of a user's nasal cavity. | 01-16-2014 |
20140083424 | Nozzles for Nasal Drug Delivery - A nozzle for use in delivering a mixture of aerosol propellant and drug formulation. The nozzle includes a drug product inlet configured to receive a mixture of aerosolized propellant and an intranasal dosage form. The inlet is disposed at the proximal end. A nozzle body is secured to the drug product inlet. Two or more channels are disposed within the body. Two or more orifice apertures are disposed at the distal end of the nozzle. | 03-27-2014 |
20140343494 | CIRCUMFERENTIAL AEROSOL DEVICE - The present application discloses devices and methods for delivering a therapeutic compound to the olfactory epithelium of an animal or human. The device having one or more channels for imparting a circumferential and axial velocity to the discharged fluid, and an outlet that discharges an aerosol spray having a circumferential and axial velocity as it enters the nasal cavity of a user. The device is designed to displace the air in the upper nasal cavity in order to specifically deposit a therapeutic agent on the olfactory epithelium while minimizing pressure and discomfort experienced by the user. | 11-20-2014 |
20150100042 | Muroid Family Nasal Device - A muroid nasal device for intranasal delivery of compounds to the olfactory region. | 04-09-2015 |