Patent application number | Description | Published |
20130046275 | MATERIAL AND METHOD FOR TREATING INTERNAL CAVITIES - A hydrophilic biocompatible sustained-release material is disclosed. The material comprises amounts of Pluronic F-127, PEG-400, HPMC and water, effective to produce a composition of sufficiently low viscosity at room temperature to be injectable into an internal body cavity via a tube inserted within a urinary catheter. At body temperature, the material exhibits a much higher viscosity and will stably adhere to the internal surface of a body cavity. As the material dissolves, a therapeutic agent incorporated therein is slowly released to the body cavity, while the material itself is excreted from the body. | 02-21-2013 |
20130274858 | STENT WITH SHEATH AND METAL WIRE RETAINER - A stent assembly ( | 10-17-2013 |
20140309723 | STENT WITH SHEATH AND METAL WIRE - A stent assembly includes a stent and a fiber mesh sleeve covering the stent. A wire runs along the stent over the sleeve and fastened to the stent at multiple points so as to attach the sleeve to the stent. | 10-16-2014 |
20140309725 | OPTIMIZED DRUG-ELUTING STENT ASSEMBLY - A stent assembly including a stent configured to be positioned in a body lumen, and a knitted stent jacket including an expansible mesh structure having a coverage area of less than 25%, having approximate aperture diameters greater than 20 micrometers, and surrounding an external surface of the stent and coaxially associated therewith, wherein the stent assembly elutes an amount of an active pharmaceutical agent. | 10-16-2014 |
20150119971 | STENT-MESH ASSEMBLY AND METHODS - A method of affixing a stent jacket to a stent, comprising aligning the stent jacket coaxially with the stent, placing a portion of the stent within a portion of the stent jacket, wherein a central axis of the stent is aligned with a central axis of the stent jacket, and affixing the stent jacket to the stent with a plurality of stitches, wherein the plurality of stitches form a plurality of consecutive loops that pass through one or more holes in the stent jacket and through an outer surface of the stent. | 04-30-2015 |
20150246209 | Guide for intravascular device - A device guide ( | 09-03-2015 |
20150343233 | METHOD AND APPARATUS FOR TREATING CARDIAC ARRHYTHMIAS USING ELECTROMAGNETIC RESYNCHRONIZATION - A method and an apparatus for the treatment of cardiac arrhythmias using a weak pulsed magnetic field. A transducer that emits electromagnetic radiation of a prescribed frequency and peak intensity is placed on the patient's chest and, as a result, the weak electromagnetic field can cause activation, reactivation, inhibition or remodeling of electrophysiological change in cardiac tissue in an irradiated heart. This treatment method has wide application for use in patients who experience cardiac arrhythmia. | 12-03-2015 |
20150366974 | MATERIAL AND METHOD FOR TREATING INTERNAL CAVITIES - A hydrophilic biocompatible sustained-release material is disclosed. The material comprises amounts of Pluronic F-127, PEG-400, HPMC and water, effective to produce a composition of sufficiently low viscosity at room temperature to be injectable into an internal body cavity via a tube inserted within a urinary catheter. At body temperature, the material exhibits a much higher viscosity and will stably adhere to the internal surface of a body cavity. As the material dissolves, a therapeutic agent incorporated therein is slowly released to the body cavity, while the material itself is excreted from the body. | 12-24-2015 |