The present disclosure comprises devices, systems, and methods having an inverted sheath configured to cover, and in some instances constrain, a medical device and to retract through eversion, thus enabling the deployment of medical device at the treatment site. A constraining sheath can evert hydraulically. A constraining sheath can be configured to neck down a medical device to achieve a lower delivery profile. Furthermore, a constraining sheath can comprise a balloon to expand or positionally or structurally adjust a medical device.

A system for mounting a heart valve prosthesis on a catheter shaft, the system having at least two components, each component at least partially enclosing a rotation-symmetrical space tapering along an axis of symmetry, the at least two components being designed in such a way that a relative movement of the at least two components along a longitudinal axis of a heart valve prosthesis to be mounted can take place toward one another and into one another in such a way that a space enclosed jointly by the at least two components is decreased. At least one component has a mandrel, which is oriented centrally in the space enclosed by the component and is located on the axis of symmetry of the rotation-symmetrical space.

A medical device includes a balloon expanded scaffold crimped to a balloon catheter. The scaffold has a network of rings formed by struts connected at crowns and links connecting adjacent rings. The scaffold has a polymer coating and is crimped to the balloon. The scaffold is rotated, or allowed to rotate during crimping to improve results from crimping, such as reduced damage to the coating.

The present disclosure comprises devices, systems, and methods having an inverted sheath configured to cover, and in some instances constrain, a medical device and to retract through eversion, thus enabling the deployment of medical device at the treatment site. A constraining sheath can evert hydraulically. A constraining sheath can be configured to neck down a medical device to achieve a lower delivery profile. Furthermore, a constraining sheath can comprise a balloon to expand or positionally or structurally adjust a medical device.

An assembly for collapsing a prosthetic heart valve includes a compression member having a plurality of arms pivotable between a first orientation in which side edges of adjacent arms are spaced apart from one another and a second orientation in which the adjacent arms contact one another. A translating member is movable along the arms to pivot the arms from the first orientation to the second orientation to collapse the prosthetic heart valve. A separation tool includes ribs defining channels sized to receive the struts of a stent of a prosthetic heart valve to keep the struts separated from one another as the prosthetic heart valve is collapsed.

A system and a method for crimping a heart valve prosthesis onto a catheter shaft. The system comprises two components (1, 2) which receive the heart valve prosthesis (12) and are inserted into one another in the direction (14) in order to crimp the heart valve prosthesis (12).

A stent delivery system includes a core member and an expandable member coupled to the core member distal segment. A stent extends along the core member distal segment such that an inner surface of the stent is positioned over the expandable member. The stent has a primary heat-set configuration where the stent is radially expanded, and a secondary heat-set configuration where the stent is radially compressed. The expandable member is adapted to radially expand at least a portion of the stent from a radially compressed configuration toward a radially expanded configuration.

An expandable sheath is disclosed herein, which has a first polymeric layer and a braided layer positioned radially outward of the first polymeric layer. The braided layer includes a plurality of filaments braided together. The expandable sheaths further include a resilient elastic layer positioned radially outward of the braided layer. The elastic layer is configured to apply radial force to the braided layer and the first polymeric layer. The expandable sheath further includes a second polymeric layer positioned radially outward of the elastic layer and bonded to the first polymeric layer such that the braided layer and the elastic layer are encapsulated between the first and second polymeric layers. Methods of making and using the devices disclosed herein are also disclosed, as are crimping devices that may be used in methods of making the devices disclosed herein.

An endoprosthesis delivery system includes a wire holder on a distal section of an elongated shaft with a plurality of wires extending distally from the wire holder and, in a secured position, terminating in a distal receiver attached to the elongated shaft distal to the wire holder. A single wire attached to the wire holder and extending proximally along the delivery system to a point easily accessible by the operator may be pulled proximally to move the wires out of the distal receiver and release the endoprosthesis

An endoprosthesis delivery system includes a wire holder on a distal section of an elongated shaft with a plurality of wires extending distally from the wire holder and, in a secured position, terminating in a distal receiver attached to the elongated shaft distal to the wire holder. A single wire attached to the wire holder and extending proximally along the delivery system to a point easily accessible by the operator may be pulled proximally to move the wires out of the distal receiver and release the endoprosthesis