Patent application number | Description | Published |
20110264193 | OPTIMAL RATIO OF POLAR AND BENDING MOMENT OF INERTIA FOR STENT STRUT DESIGN - An intravascular stent is provided to be implanted in coronary arteries and other body lumens. The transverse cross-section of at least some of the stent struts have a ratio of polar and bending moments of inertia, which results in optimal resistance to stent twisting. This resistance to twisting ratio for the stent struts minimizes out of plane twisting of the struts or projecting edges of the struts when the stent is expanded from a compressed diameter to an expanded diameter in a coronary artery. | 10-27-2011 |
20110295356 | STENT HAVING OPTIMIZED EXPANSION RATIO - An intravascular stent has an elongated tubular member that has a manufactured inner diameter and a manufactured outer diameter. The nominal expansion outer diameter (implanted diameter) is approximately 1.618 times larger than the manufactured outer diameter, which is referred to the Golden Ratio. The Golden Ratio provides for optimal crimping and expansion aesthetics, stent expansion uniformity, and uniform coatability for stent receiving a drug coating. | 12-01-2011 |
20130096668 | OPTIMAL RATIO OF POLAR AND BENDING MOMENT OF INERTIA FOR STENT STRUT DESIGN - An intravascular stent is provided to be implanted in coronary arteries and other body lumens. The transverse cross-section of at least some of the stent struts have a ratio of polar and bending moments of inertia, which results in optimal resistance to stent twisting. This resistance to twisting ratio for the stent struts minimizes out of plane twisting of the struts or projecting edges of the struts when the stent is expanded from a compressed diameter to an expanded diameter in a coronary artery. | 04-18-2013 |
20140025157 | STENT WITH ACTIVELY VARYING RING DENSITY - A stent and method comprising inserting within a vessel an unexpanded stent that includes a first zone comprising a plurality of adjacent ring elements, not less than three in number, that are distributed along the stent with a first spacing, and a second zone comprising a plurality of adjacent ring elements that are distributed along the stent with a second spacing, and expanding the stent to cause the plurality of ring elements in the first zone to redistribute to a third spacing that is smaller than the first spacing and to cause ring elements in the second zone to distribute to a fourth spacing larger than the first spacing. | 01-23-2014 |
20140276747 | SYSTEM AND METHOD FOR DENERVATION - A catheter apparatus for treatment of a human patient is described, the catheter apparatus having a central axis and comprising a shaping structure moveable between a delivery state having a first helical shape, and a deployed state having a second helical shape. The shaping structure is configured to have a reverse taper with a structural diameter that varies over the length of the shaping structure such that the structural diameter of the shaping structure at the proximal end is smaller than the structural diameter of the shaping structure at the distal end. | 09-18-2014 |
20140330360 | SEGMENTED SCAFFOLD DESIGNS - Segmented scaffolds composed of disconnected scaffold segments with overlapping end rings are disclosed. Scaffolds with at least one discontinuous link are also disclosed. | 11-06-2014 |
20140330361 | SEGMENTED SCAFFOLD DESIGNS - Segmented scaffolds composed of disconnected scaffold segments with overlapping end rings are disclosed. Scaffolds with at least one discontinuous link are also disclosed. | 11-06-2014 |
20150039075 | VARIABLE STIFFNESS STENT - A stent has one or more redundant crests for a ring. The redundant crest is located at a Y-crown for a peak-to-valley type stent pattern in one example. The stent may also have frangible bridges for connecting links. The stent's radial stiffness decreases when a redundant crest fractures and its axial and bending stiffness decreases when a frangible bridge breaks. | 02-05-2015 |