Patent application number | Description | Published |
20090143748 | Catheter Devices for Myocardial Injections or Other Uses - A catheter device includes an elongate tubular housing, a cannula, and a flexible proboscis. The cannula defines a cannula lumen which is in fluid communication with a cannula exit port located adjacent the distal end of the elongate housing. The distal tip of the cannula is disposed within the cannula lumen. The cannula defines a proboscis lumen and the cannula has a proboscis exit port in fluid communication with the proboscis lumen. The proboscis exit port is located at the distal tip of the cannula. The flexible proboscis has a distal tip and is disposed within the proboscis lumen. | 06-04-2009 |
20100076403 | VARIABLE STIFFNESS DIRECT INJECTION SYSTEM - A direct injection system with a small diameter that can be easily placed at a desired treatment location is provided, where the system comprises an outer guide catheter having a predefined bend at the distal end. For example, the outer guide catheter may be no larger than a 7 Fr catheter. According to the invention, various mechanisms may be used to alter the curvature of the predefined bend in the catheter, allowing an operator to easily place the distal end of an injection catheter at a desired treatment location. Alternatively, the injection catheter itself has a predefined bend at the distal end, wherein the curvature can be adjusted by adjusting the position of the injection catheter within a guide catheter. | 03-25-2010 |
20100145306 | Various Catheter Devices for Myocardial Injections or Other Uses - A catheter device comprising a proboscis shaft and a proboscis disposed within the proboscis shaft. In certain embodiments, the catheter device further comprises an elongate tubular member, wherein the proboscis shaft is disposed within the elongate tubular member. In certain embodiments, the catheter device comprises a tissue surface engagement structure, which has a first configuration and a second configuration. In the second configuration, the tissue surface engagement structure presents a larger transverse profile in comparison to the first configuration. The tissue surface engagement structure may have any of various designs, including an expandable assembly and a hinged assembly. In certain embodiments, a deformable cushion is positioned at the distal end of the proboscis shaft. The deformable cushion comprises a pocket that is filled with a reshapeable material. In certain embodiments, the proboscis shaft comprises a longitudinally compressible portion. | 06-10-2010 |
20110160840 | Repetitive Cell Bifurcation / Side Branch Ostia Support Stent - A stent comprises at least one closed pathway that defines a single cell. In some embodiments, the closed pathway includes a plurality of petals constructed and arranged to extend away from the tubular wall of the stent. In one embodiment, some of the petals of the closed pathway overlap other of the petals of the closed pathway when the stent is in a reduced state. In at least one embodiment, the stent comprises a plurality of closed pathways. In one embodiment, the closed pathways are arranged in bands that extend either along the length of the stent or about the circumference of the stent. | 06-30-2011 |
20120010589 | LOCAL DELIVERY OF THERAPEUTIC AGENT TO HEART VALVES - The present invention relates to implantable medical devices and methods that employ these medical devices to treat heart valves. In one embodiment, a medical device is provided comprising a body. The body may have a portion thereof including therapeutic agent and can be configured to support the device proximate a heart valve. Methods in accordance with embodiments of the present invention may also include providing a medical device having a body with at least a portion thereof including a therapeutic agent. These methods may also include positioning the medical device in a location proximate to a downstream surface of the heart valve and securing the device. The therapeutic agent released may then be delivered to the heart valve. | 01-12-2012 |
20120172972 | Multi Stage Opening Stent Designs - In at least one embodiment, a stent comprises an unexpanded configuration, a nominally expanded configuration, and a fully expanded configuration. The stent further comprises a plurality of circumferential bands and a plurality of connectors connecting adjacent circumferential bands to one another. Each circumferential band has a plurality of struts interconnected by bridges. Adjacent struts form strut pairs and are connected to one another at a first end or a second end but not both. Each strut pair defines an opening between the struts of the strut pair; the bridges extend into the openings. In the unexpanded configuration, the struts are straight along their length. Also in the unexpanded configuration, the bridges comprise two adjacent straight segments that are connected by a u-shaped segment, and the straight segments are parallel to one another and to the longitudinal axis of the stent. | 07-05-2012 |
20120226342 | Stent with Reduced Profile - Medical devices, systems, and techniques are described for reducing the profile of a stent. In one example, a stent having a reduced state and an expanded state includes a plurality of interconnected annular rings arranged about a longitudinal axis, each of the plurality of annular bands comprising a plurality of peaks and a plurality of troughs, wherein in the reduced state, at least one of the plurality of peaks of at least one of the plurality of rings is positioned a first distance from the longitudinal axis, another one of the plurality of peaks being positioned a second distance from the longitudinal axis, the first distance being less than the second distance, and wherein in the expanded state, the plurality of peaks of the stent being positioned at substantially the same distance from the longitudinal axis. | 09-06-2012 |
20120239128 | STENT AND DELIVERY SYSTEM - Techniques are disclosed that allow a stent to be folded within a balloon of a stent delivery system. In one example, a stent has first and second columns that extend from a proximal end to a distal end along a longitudinal axis. Each of the first columns extend substantially parallel to the longitudinal axis and comprise a plurality of elements that each have a substantially polygonal shape. Each of the second columns extend substantially parallel to the longitudinal axis and are between adjacent first columns. Each of the respective second columns include a plurality of first connectors that have a curvilinear shape and that extend in a substantially circumferential direction to connect adjacent first columns. The stent also has a plurality of second connectors, wherein at least one of the second connectors extends between a first element and a second element. | 09-20-2012 |