Devices and methods for treatment of a patient's vasculature are described. Embodiments may include a permeable implant such as a permeable shell or mesh having a radially constrained state configured for delivery within a catheter lumen, an expanded state, and a plurality of elongate filaments that are woven together. The permeable implant may include a stiffer proximal portion that is configured to sit at the neck of an aneurysm. The stiffer proximal portion may include additional mesh layers on either the inside or the outside of a first permeable shell. The distal portion of the device may be softer and deformable.

Systems and apparatuses herein include a longitudinal member having opposite first and second end portions, a tension of the longitudinal member being adjustable to repair an atrioventricular valve of the patient. A delivery tool can be configured to couple the first end portion of the longitudinal member to a first portion of heart tissue, couple the second end portion of the longitudinal member to the leaflet, adjust tension of the longitudinal member, assume a first diameter at a portion of the delivery tool that passes between the leaflets of the atrioventricular valve, during coupling of the first end portion of the longitudinal member to the first portion of heart tissue, and assume a second diameter that is smaller than the first diameter, at the portion of the delivery tool that passes between the leaflets of the atrioventricular valve, during adjusting of the tension of the longitudinal member.

Disclosed are an occluder, an occluder fastening system and a fastening method therefor. The occluder includes a first occluding portion and a second occluding portion. A distal end of the first occluding portion is provided with a connecting bolt extending towards the second occluding portion, and a first external thread is provided on a side wall of the connecting bolt. A protrusion portion is provided at a proximal end of the second occluding portion with a through hole provided therein, and a second external thread is provided on a side wall of the protrusion portion. The thread direction of the first external thread is opposite to the thread direction of the second external thread, and a proximal end of the connecting bolt can extend through the through hole and is screwed to a nut. In cooperation with a pushing device, such designed occluder (10) achieves high-efficiency, stable and reliable fastening.

A device for treating a left atrial appendage, including an implant having a contact member configured to engage an inside tissue surface of the left atrial appendage and configured to rotate in at least a first direction from a first position to at least a second position so as to twist the left atrial appendage when the contact member is engaged with an inside tissue surface of the left atrial appendage. Some embodiments can also include a securing element configured to move between a first position in which the securing element is decoupled from the contact member and a second position in which the securing element is coupled with the contact member.

Mechanical Detachment Systems stemming from a corewire having a grooved slot for housing supplemental detachment means including SR threads, locking rings and variated pitches in helical groove driven systems which reliably detach instantaneously.

A medical device including a removable frame and biomaterial cover, methods of assembling and using the same, and a delivery system including the same are described herein. The medical device includes a frame having proximal and distal ends, the frame including a proximal disc at the proximal end, a distal disc at the distal end, and a connecting segment having a proximal end and a distal end connecting the proximal and distal discs. Each of the proximal and distal discs includes a respective plurality of prongs and has a maximum cross-sectional dimension larger than the connecting segment. The medical device further includes at least one biomaterial cover including an outer section and an inner section defining a cavity therebetween, wherein at least one of the proximal and distal discs of the frame is positioned in the cavity.

The present teachings provide a medical system for delivering and deploying a medical implant, and the method of using thereof. Specifically, one aspect of the present teachings provides a medical system having an implant with an engagement loop, and a delivery system having an engagement wire and an interface. During implant delivery, the engagement wire engages the engagement loop of the implant. The engagement wire further interacts with the interface in order to prevent unintended disengagement of the engagement loop from the engagement wire. Certain embodiment of the present teaching also includes an implant release control mechanism fixedly attaching to a proximal end of the engagement wire. During implant delivery, the implant release control mechanism attaches the proximal end of the delivery system. During implant deployment, the implant release control mechanism detaches the proximal end of the delivery system.

An embolic coil conveying device and a preparation method thereof are disclosed. The embolic coil conveying device includes a pusher and an embolic coil. A distal end of the pusher and a proximal end of the embolic coil are connected to serve as a detachment section. A stretch-resistant thread is disposed in the embolic coil. The stretch-resistant thread is fixed at the proximal end of the embolic coil. A conductive wire is disposed in the pusher. The stretch-resistant thread is connected to the conductive wire. Compared with the prior art, the present invention has the advantages that the stretch-resistant thread is fixed at the proximal end of the embolic coil, so that the stretch-resistant thread is connected to the conductive wire, thereby reducing the length of the detachment section, making the detachment section more flexible, and avoiding kick-out of a microcatheter due to release of the embolic coil.

Disclosed are embodiments of a device for occluding a left atrial appendage (LAA) and other cavities or openings within a body. Some embodiments of the device can include an implant configured to be deployed within the LAA or other cavity, configured to be expanded or moved against a wall portion of the LAA or other cavity, and configured to twist at least a portion of the LAA or other cavity when the implant is rotated. Thereafter, one or more securing elements, staples, sutures, or other fasteners can be implanted in the gathered tissue to hold the tissue in the gathered state, thereby occluding the opening of the LAA or other cavity. In some embodiments, the opening of the LAA or other cavity can be occluded by elongating or otherwise reshaping the opening using an implant device, and securing the opening in the occluded state.

An example medical device for occluding the left atrial appendage is disclosed. The example medical device for occluding the left atrial appendage includes an expandable member having a first end region, a second end region and an inflation cavity. The example medical device includes at least one fixation member having a first end and a second end coupled to the expandable member. The at least one fixation member is configured to move from a delivery configuration to a deployed configuration in response to an expansion of the expandable member. Additionally, the example medical device includes a valve member extending at least partially into the inflation cavity and the expandable member is configured to expand and seal the opening of the left atrial appendage.