Abstract: A delivery device for a prosthetic mitral valve includes five sheaths and a handle. The first sheath is coupled to a first handle portion and is rotatable and bendable. The second sheath is coupled to a second handle portion and extends through the first sheath. The second sheath is bendable, rotatable and translatable relative to the first sheath. The third sheath is coupled to a third handle portion and extends through the first and second sheaths. The third sheath is translatable relative to the second sheath. The second handle portion is coupled to the first and third handle portions. The fourth sheath extends through the third sheath and forms part of a compartment to store the prosthetic valve. The fifth sheath extends through the fourth sheath to a tip and is coupled to a retaining sheath that closes the compartment to retain the valve in a collapsed condition.

Abstract: A structure for sealing a gap between a medical device and adjacent body tissue includes a ring-shaped body formed at least in part of a material that expands from a compressed condition to an expanded condition when heated to a transition temperature and that is adapted to conform to the body tissue in the expanded condition.

Abstract: A delivery device for a prosthetic mitral valve includes five sheaths and a handle. The first sheath is coupled to a first handle portion and is rotatable and bendable. The second sheath is coupled to a second handle portion and extends through the first sheath. The second sheath is bendable, rotatable and translatable relative to the first sheath. The third sheath is coupled to a third handle portion and extends through the first and second sheaths. The third sheath is translatable relative to the second sheath. The second handle portion is coupled to the first and third handle portions. The fourth sheath extends through the third sheath and forms part of a compartment to store the prosthetic valve. The fifth sheath extends through the fourth sheath to a tip and is coupled to a retaining sheath that closes the compartment to retain the valve in a collapsed condition.

Abstract: The present disclosure provides improved medical devices for occluding a left atrial appendage. In one embodiment, the medical device includes a temperature activated memory shape foam that is constructed to transition from a first collapsed conformation to a second expanded conformation upon an increase in temperature such that it can expand to provide an occlusive benefit inside a left atrial appendage. In another embodiment the medical device includes a flowable thermoset that is injected into the left atrial appendage where is it cured so that it may assume the conformation of the left atrial appendage and provide an occlusive benefit.

Abstract: The present disclosure provides improved medical devices for occluding a left atrial appendage. In one embodiment, the medical device includes a temperature activated memory shape foam that is constructed to transition from a first collapsed conformation to a second expanded conformation upon an increase in temperature such that it can expand to provide an occlusive benefit inside a left atrial appendage. In another embodiment the medical device includes a flowable thermoset that is injected into the left atrial appendage where is it cured so that it may assume the conformation of the left atrial appendage and provide an occlusive benefit.

Abstract: A structure for sealing a gap between a medical device and adjacent body tissue includes a ring-shaped body formed at least in part of a material that expands from a compressed condition to an expanded condition when heated to a transition temperature and that is adapted to conform to the body tissue in the expanded condition.

Abstract: A self-expandable ring seals a gap between a medical device and adjacent body tissue. The ring is disposed about the medical device and configured to self-expand from a first radius in a compressed condition to a second radius in an expanded condition, the second radius being greater than the first radius. The ring may be formed from a compliant biocompatible foam configured and arranged to conform to the body tissue.