Patent application number | Description | Published |
20080215131 | METHOD FOR LOADING A MEDICAL DEVICE INTO A DELIVERY SYSTEM - A process to load a medical device comprising a shape memory material into a delivery system is described herein. According to one aspect, the method includes applying a force to the medical device to obtain a delivery configuration thereof, where the device is at a first temperature within an R-phase temperature range of the shape memory material during application of the force. The medical device is cooled in the delivery configuration to a second temperature at or below a martensite finish temperature of the shape memory material. The force is then removed from the medical device, and the device is loaded into a delivery system. Preferably, the medical device substantially maintains the delivery configuration during the loading process. | 09-04-2008 |
20080228028 | WOVEN FABRIC WITH SHAPE MEMORY ELEMENT STRANDS - The disclosure relates to a woven fabric for use in an implantable medical device. The woven fabric comprises shape memory element strands woven with textile strands. At least one of the shape memory element strands has at least one float of at least five textile strands between binding points. | 09-18-2008 |
20080294230 | Apparatus and methods for deploying self-expanding stents - Apparatus and methods are provided for improved deployment of self-expanding stents. One advantage of the improved delivery system is that energy storage within a portion of an outer sheath and/or an inner tube may be reduced during the deployment of the stent. In a first embodiment, the outer sheath and the inner tube may be coupled together using a plurality of engaging threaded members, such that circumferential rotation of the inner tube with respect to the outer sheath retracts the outer sheath to deploy the stent. In an alternative embodiment, a fluid reservoir may be provided between the inner tube and the outer sheath. A proximal sealing ring may be disposed annularly between the inner tube and the outer sheath, such that when the fluid reservoir is filled, the proximal sealing ring is urged proximally to engage and retract the outer sheath. Using these techniques, energy build-up in the outer sheath and/or inner tube may be substantially reduced and improved accuracy in deploying the stent may be achieved. | 11-27-2008 |
20090171300 | DELIVERY SYSTEM FOR MEDICAL DEVICE - A system for delivery of a medical device to a target site within the body of a patient includes an introducer sheath, and a delivery assembly receivable within a passageway of the sheath. The delivery assembly comprises an inner tubular and an outer tubular member. At least a distal portion of the inner tubular member has a diameter such that the medical device is receivable thereover. The outer tubular member is generally coaxial with the inner tubular member, and has a length such that the outer tubular member distal end terminates proximal to the inner tubular member distal portion. The outer tubular member has a first outer diameter at the proximal end and extends for a length of the outer tubular member to a first diameter boundary point. The outer tubular member has a gradual inward taper in the distal direction from the boundary point to a second outer diameter, and has an abrupt outward taper in the distal direction from the second diameter to the first diameter. | 07-02-2009 |
20090171454 | COATED STENT AND METHODS OF MANUFACTURE - The present embodiments provide a coated stent for use in a medical procedure that comprises a coating and a stent disposed over the coating. The stent has a first expanded state in which an inner diameter of the stent is less than or equal to an outer diameter of the coating, thereby causing an inner surface of the stent to engage the outer surface of the coating. The stent may comprise a shape-memory material that is preconfigured to expand to the first expanded state. In one example, the stent may be temporarily held in a second expanded state having an inner diameter larger than the outer diameter of the coating, placed over the coating in the second expanded state, and then allowed to return to the first expanded state to engage the coating. | 07-02-2009 |
20090254168 | DELIVERY SYSTEM FOR MEDICAL DEVICE - A system for delivery of a medical device to a target site within the body of a patient includes an introducer sheath, and a delivery assembly receivable within a passageway of the sheath. The delivery assembly comprises an inner tubular and an outer tubular member. At least a distal portion of the inner tubular member has a diameter such that the medical device is receivable thereover. The outer tubular member is generally coaxial with the inner tubular member, and has a length such that the outer tubular member distal end terminates proximal to the inner tubular member distal portion. The outer tubular member has a first outer diameter at the proximal end and extends for a length of the outer tubular member to a first diameter boundary point. The outer tubular member has a gradual inward taper in the distal direction from the boundary point to a second outer diameter, and has an abrupt outward taper in the distal direction from the second diameter to the first diameter. | 10-08-2009 |
20090281610 | DELIVERY SYSTEM WITH LOW LONGITUDINAL COMPRESSIBILITY - An improved delivery system for an implantable medical device includes a retention sheath having a proximal end, a distal end, and an inner lumen extending from the proximal end to the distal end. The implantable medical device is disposed within the inner lumen of the retention sheath, which restrains the implantable medical device. A plurality of substantially incompressible rings are disposed within the inner lumen of the retention sheath in a stacked co-axial configuration that extends from the proximal end of the retention sheath in a pre-deployment position to a proximal end of the implantable medical device. Each ring in the plurality of separate rings abuts at least a portion of an adjacent ring. The plurality of separate rings is configured to prevent the implantable medical device from moving toward a proximal end of the retention sheath when the retention sheath is moved from the pre-deployment position to a deployment position. | 11-12-2009 |
20090309273 | METHOD OF MAKING A SELF-EXPANDING STENT - A method of making a self-expanding stent includes disposing a stent comprising a shape memory alloy about an inflatable body, and applying a coolant to a surface of the stent. The inflatable body is inflated to radially expand the stent to an expanded diameter from an initial diameter, and the coolant is reapplied to the surface of the stent. The inflatable body is deflated, and the stent is positioned about a mandrel sized to accommodate the expanded diameter of the stent, where the stent reaches a mandrel-defined diameter. The stent is heat set at the mandrel-defined diameter so as to impart a memory of an expanded configuration of the stent to the shape memory alloy. | 12-17-2009 |
20090319019 | Expandable Tip Delivery System For Endoluminal Prosthesis - An improved delivery system for an implantable medical device includes a retention sheath for an implantable medical device. The retention sheath includes a central lumen extending from a proximal end to a distal end of the retention sheath, and a tapered portion disposed at a distal end of the retention sheath. The tapered portion of the retention sheath includes a first layer made of a low-friction material. The first layer may be movable from a compressed, folded configuration in an initial position, to a substantially uncompressed and unfolded configuration in a deployment position. The retention sheath also includes a second layer made of an expandable material. The second layer is disposed radially outward of and in contact with the first layer, and the second layer is configured to expand in a substantially radially outward direction when the first layer moves from the initial position to the deployment position. | 12-24-2009 |
20100049168 | INTRODUCER SHEATH HAVING DUAL REINFORCING ELEMENTS - An introducer sheath for deploying a stent to a target site within a body passageway of a patient. The introducer sheath includes a tubular inner liner having a proximal portion, a distal portion, and an outer surface. A first reinforcing element, and a second reinforcing element are positioned along the outer surface of the inner liner. The first reinforcing element comprises a braid the second reinforcing element comprises a coil. The braid is positioned at the proximal portion of the inner liner and extends distally therefrom. The coil is positioned at the distal portion longitudinally adjacent the braid. The braid has a length that may extend about 90% of the length of the sheath. An outer jacket is positioned longitudinally around the reinforcing elements, and is connected to the inner liner between the respective wires of the braid and the coil. | 02-25-2010 |
20100063577 | METHOD OF IMPLANTING A PROSTHETIC VALVE - Methods of implanting a prosthetic valve in a body vessel are provided. A first expandable frame member is delivered to and deployed at a point of treatment in a body vessel. A second expandable frame member is delivered to the point of treatment. The second expandable frame member has an attached graft member that forms a valve adapted to permit fluid flow through the body vessel in a first direction and to substantially prevent fluid flow through the body vessel in a second, opposite direction. After deployment of the first expandable frame member, the second expandable frame member is deployed at the point of treatment such that the second frame member is positioned radially inward of the first frame member within said body vessel to form a prosthetic valve. | 03-11-2010 |
20100145429 | Introducer sheath and method of manufacture - The present invention relates to a medical device delivery system. The delivery system includes an introducer sheath having an elongated tubular member having a passageway extending generally longitudinally therethrough. The passageway is defined by an inner surface of the tubular member and is configured to receive a medical device moveably disposed therein, where at least a portion of the inner surface of the inner tube comprises a non-uniform surface configured to reduce surface contact between the inner surface and the medical device. The delivery system includes an inner catheter configured to slidably extend throughout the passageway of the introducer sheath. A prosthesis is disposed within a distal portion of the introducer sheath, where the prosthesis is supported within the introducer sheath by the inner catheter. | 06-10-2010 |
20100148409 | METHOD FOR MANUFACTURING A STENT DELIVERY SYSTEM - A method for manufacturing a stent delivery system having a holder and at least one stent configured to expand from a first diameter to a second diameter is provided. The manufacturing method includes compressing the stent to the first diameter, inserting the stent into a first tube, placing a second tube inside the first tube and inside an inner diameter of the stent. The second tube is airtight. The manufacturing method also includes applying pressure and heat suitable to the second tube, thereby blowmolding the second tube against the stent. | 06-17-2010 |
20100168785 | EMBOLIC PROTECTION DEVICE AND METHOD OF USE - A medical device for embolic protection within a patient's body vessel is provided. The device comprises inner and outer tubular members each having proximal and distal ends and a lumen formed through the proximal and distal ends. A flexible everting filter portion includes a body having a first end attached to the distal end of the inner tubular member and a second end attached to the distal end of the outer tubular member. The inner and outer tubular members are movable relative to one another to position the filter portion within the body vessel. The filter portion is movable from a collapsed, everted delivery and removal configuration to an expanded, generally non-everted deployed configuration. The filter portion expands radially outward to engage the filter body with an enclosing vessel wall. The filter portion allows the passage of blood cells and prevents the passage of emboli or thrombi through the body vessel. | 07-01-2010 |
20100249815 | EVERTED SHEATH THROMBECTOMY DEVICE - A medical device for removing a thrombus includes an outer sheath and an inner catheter. The inner catheter is disposed within the inner lumen of the outer sheath. The device also includes a rollsock which is everted upon itself and connected to the distal ends of the outer sheath and inner catheter. A scraping device is attached to the outer surface of the rollsock, such that when the outer sheath is moved relative to the inner catheter the scraping device is exposed to an inner surface of a body vessel. | 09-30-2010 |
20100268243 | FLEXIBLE SHEATH WITH POLYMER COIL - A medical device including a tube having a coil fitted around at least a part of an inner liner, such as PTFE, and a braid extending over at least part of the coil. A polymeric layer is positioned over the braid to adhere to the inner liner. A portion of the coil advantageously comprises a polymer, such as PEEK, while the coil may also have a metal portion. The polymer coil may extend along at least at the proximal region of the tube, and the metal coil may extend along at least at the distal region of the tube. A polymer coil, a metal coil or any combination thereof can extend along the intermediate region of the tube. The polymer coil can be configured so that the tube is longitudinally splittable with a cutting instrument. | 10-21-2010 |
20110009945 | METHOD FOR DEPLOYING A STENT DELIVERY SYSTEM HAVING A BLOWMOLDED HOLDER - A method for deploying a stent delivery system having a blowmolded holder is provided. The stent is configured to expand from a first diameter to a second diameter. The holder is blowmolded to an inner surface of the compressed state. The holder contacts the inner surface and at least portions of side surfaces of the stent, and the holder and the stent have an interference fit therebetween. The deployment method includes delivering the compressed stent placed on the blowmolded holder and the holder into a predetermined deployment side. The deployment method further includes releasing the stent from interference with the holder and expanding the stent from the compressed stent to the expanded stent. | 01-13-2011 |
20110152760 | Deployment and Dilation With An Expandable Roll Sock Delivery System - An expandable roll sock delivery catheter includes an inner tube, an outer tube having a distal outer tube end, and a medical device, such as a self-expanding stent, collapsibly disposed over the inner tube and concentrically oriented between the inner tube and the outer tube. A hollow tube of expandable balloon material extends from the distal outer tube end, the balloon material being substantially disposed in its entirety within a distal end portion of the outer tube. The balloon material is folded back into the outer tube and over the device as a single layer of balloon material connectively linked to the inner tube proximal to the self-expanding device so as to form an expandable roll sock balloon. The roll sock balloon defines an inflation lumen disposed between the outer tube and inner tube, whereby the inflation lumen is configured for expansion of the roll sock balloon following release of the device. | 06-23-2011 |
20110257599 | INTRODUCER SHEATH - Introducer sheath ( | 10-20-2011 |
20110264056 | CATHETER TIP ASSEMBLY - A catheter tip assembly ( | 10-27-2011 |
20110268866 | COATED STENT - A coated stent ( | 11-03-2011 |
20120004610 | Vascular Introducer And Method Of Using Same - A vascular introducer for accessing a circulatory system of a patient includes a sheath and a dilator. The sheath includes a fitting attached at a proximal end, and includes a liner that is longer than a core tube. A proximal segment of the liner is attached to an inner surface of the core tube, but a distal segment of the liner is everted to cover an outer surface of a distal segment of the core tube. The dilator is positioned in the sheath and includes a tapered distal segment that extends beyond a distal end of the sheath. A handle is attached to the proximal end of the dilator and extends proximally from the fitting. During a procedure, a blood vessel may constrict and grip the sheath. During withdrawal of the sheath, the core tube is slid within a first portion of the everted distal segment of the liner while another portion of the liner is de-everting. | 01-05-2012 |
20120041537 | INTRODUCER APPARATUS - A stent introducer apparatus comprises a sheath for surrounding a stent member, with the sheath having a longitudinal slit extending from one end along at least a substantial part of the length thereof, and a sheath withdrawal device comprising a reel for winding up the sheath. A second sheath may surround the slit portion of the sheath. An intermediate guide member can smooth the withdrawal procedure and flatten the sheath before it is wound on the reel. The intermediate guide member may include at least one of a second reel or a slot-defining member. The reel may be operated by means of a gear system. A method of deploying a stent member is also provided. | 02-16-2012 |
20120059448 | EVERTING DEPLOYMENT SYSTEM AND HANDLE - A stent deployment system, handle, and method of loading of a medical device are provided. The system includes an outer catheter having an inner liner extending past the end of the outer catheter and an inner catheter disposed within the outer catheter. The inner liner is inverted and attached to the inner catheter. Relative movement between the outer and the inner catheters can urge the inner liner to peel away from the medical device. A handle is disposed at the proximal end of the outer catheter, and may include a splitter configured to slice the wall of the tubular member. The handle may also include a rotatable mechanism that can be attached to the tubular member. Rotation of the rotatable mechanism retracts a portion of the tubular member into the handle and winds the sliced portion about the rotatable mechanism. | 03-08-2012 |
20120060348 | TWO-STAGE METHOD OF COMPRESSING A STENT - A two-stage method of compressing a stent entails providing an expandable stent ( | 03-15-2012 |
20120204387 | WOVEN FABRIC WITH SHAPE MEMORY ELEMENT STRANDS - The disclosure relates to a woven fabric for use in an implantable medical device. The woven fabric comprises shape memory element strands woven with textile strands. At least one of the shape memory element strands has at least one float of at least five textile strands between binding points. | 08-16-2012 |
20130144329 | EMBOLIC PROTECTION DEVICE AND METHOD OF USE - A method of embolic protection during a medical procedure in a patient's body vessel includes inserting a medical device having an outer tubular member and an inner tubular member into the body vessel. A flexible filter portion has one end attached to the distal end of the inner tubular member and the other end attached to the distal end of the outer tubular member. The filter portion is deployed within the body vessel so that the filter portion extends distally from the outer tubular member and expands radially outward to engage the filter body with an enclosing body vessel wall. A medical instrument is inserted through the inner tubular member to perform the medical procedure. The filter portion allows the passage of blood cells to surrounding vessels and prevents emboli from entering surrounding vessels. After removing medical instrument, the medical device is also removed from the body vessel. | 06-06-2013 |
20140194856 | INTRODUCER SHEATH - Introducer sheath ( | 07-10-2014 |