A medical device is disclosed and may have a spiral shape structure that can function as a stent, such as a flow diversion stent to treat aneurysms. The medical device may have a spiral shape structure that can function as an occlusive device, for instance to occlude aneurysms. The medical device may include a shape setting structure to selectively adjust the shape of the medical device.

The present invention relates to a TIPS stent graft, comprising a tubular component having a lumen extending therethrough, the tubular component comprising a balloon expandable central section and a first and a second self-expanding section, the first and the second self-expanding section sandwiching the central section, the lumen extending through the first, central, and second sections, the stent graft being capable of selectively constricting the central section.

The present technology is directed to the treatment of cardiac valves. Many embodiments of the present technology comprise an anchor member configured to be positioned at an implantation site proximate a native valve annulus. The anchor member may comprise an expandable structure having a first portion and a second portion. When the first portion is positioned at the implantation site at body temperature and released from a constrained delivery state, the first portion is configured to self-expand into apposition with tissue at or near the annulus to secure the anchor member at the implantation site. The second portion remains in a low-profile state at or around body temperature and is configured to expand into apposition with tissue at or near the annulus when heated above a second temperature greater than the first temperature and body temperature.

A medical device is disclosed and may have a spiral shape structure that can function as a stent, such as a flow diversion stent to treat aneurysms. The medical device may have a spiral shape structure that can function as an occlusive device, for instance to occlude aneurysms. The medical device may include a shape setting structure to selectively adjust the shape of the medical device.

A parison tube former utilizes a radial compression heater to heat a very specific portion of a preform tube for stretching. The heater has a plurality of compression dies that form a central cavity for receiving the preform tube. The working surfaces of the compression dies close down onto the outer surface of the preform tube to heat the tube via conduction, which more accurately and precisely heats the preform tube. A first stretched portion of the preform tube is produced by stretching the preform tube after heating. A second portion of the preform tube is then located within the central cavity and is also heated by the radial compression heater and stretched to produce a second stretched portion of the preform tube and an unexpanded portion of the preform tube, or balloon portion of the parison tube.

A system, method, and apparatus to insert and remove a thermally activated vaginal pessary, by employing a nitinol core material that is integrated into the construction of the thermally activated vaginal pessary and configured to increase in radial size upon contact with body temperature by undergoing a configurational phase change in the underlying nitinol core material.

Closure devices that selectively control blood flow between the right atrium and the left atrium of a heart of a patient. The control of blood flow can be based on detected values from a pressure sensor. The closure devices can include a body configured to engage native tissue when the device is deployed across the septal wall. In a first state at least a portion of (an inner surface of) a lumen is closed, preventing blood flow through the closure device. Ina second state, the lumen is open to enable blood flow from the left atrium to the right atrium. A closure element can be selectively adjusted to control the flow of blood through the lumen. A volume of an expandable chamber can be increased or decreased to place the closure device into the first state or the second state.

A scaffold for a tube, the scaffold having a membrane and a pair of splines integrally formed with or embedded in the membrane. The splines being spaced apart from one another with the membrane spanning therebetween and with the membrane further having a pair of grooves disposed between the splines adapted to receive the splines when the membrane is folded over on itself. The scaffold may be applied internally or externally to a tube, including tubular biological structures (e.g.. arteries) to provide support thereto, and in this sense, it may be used as a stent. The scaffold is more easily deployed and retrieved than known stents,

Devices, systems and methods for altering functioning of a tissue/organ by application of force thereto. In one preferred embodiment, a device for reducing or preventing regurgitation of blood through a valve of a heart is provided. A device may include a main body having a segment adapted to apply force to a surface of tissue/organ; a member that applies counterforce to the force applied by the segment; and an adjuster that is manually operable to change the force applied by the segment. The adjuster can be manually operated before or after anchoring of the device to the tissue/organ.

A shunt device for creating a shunt in an atrial septum includes magnets coupled to inner loops of a coil comprising at least two inner loops and two outer loops, with a diameter of each of the inner loops being less than a diameter of the outer loops. The coil is made of a shape memory alloy (SMA) and is adapted to exert a compressive force upon layers of tissue caught between the inner loops of the coil. The magnets are adapted to provide additional compressive force to adjacent inner loops of the coil, thereby further causing the coil to cut through the layers of tissue and create a shunt. The diameter of the resultant shunt is less than the diameter of the outer loops, thereby preventing the outer two loops from passing through the created shunt. At least one end of the coil has a connection means for connecting with a delivery device.