Medical devices as wells as methods for making and using medical devices are disclosed. An example medical device may include a left atrial appendage device. The left atrial appendage device may include an expandable frame configured to shift between a first configuration and an expanded configuration. A fabric mesh may be disposed along at least a portion of the expandable frame. An anti-thrombogenic coating may be disposed along the fabric mesh.

Disclosed is an occluder for occluding a defect in a vasculature. The occluder includes: two occluding disks and a tightening element. The two occluding disks is configured for covering different openings of the defect; wherein the tightening element includes a tightening thread, the tightening thread passing through the defect and being connected to the two occluding disks, the tightening thread has a length between the two occluding disks and the length is adjustable by means of a free end of the tightening thread. Further provided are an occluding system provided with the occluder, a knotting method for the tightening element of the occluder and a method for occluding an oval foramen with the occluder.

Some embodiments of a system or method for treating heart tissue can include a control system and catheter device operated in a manner to intermittently occlude a heart vessel for controlled periods of time that provide redistribution of blood flow. In particular embodiments, the system can be configured to provide an estimation of the cumulative effects of the treatment. For example, some embodiments of the system or method can treat myocardium that is at risk of infarction by intermittently altering blood flow in a venous system to induce microcirculation within the myocardium, and can output a cumulative dosage value indicative of a measurement of progress of reducing an infarct size.

An implant for occluding a left atrial appendage may include an expandable framework including a first framework portion and a second framework portion, wherein the expandable framework is configured to shift along a longitudinal axis between a collapsed configuration and an expanded configuration. The second framework portion may be disposed radially inward of the first framework portion in the collapsed configuration. The expandable framework includes a proximal hub and a distal hub. The first framework portion may be fixedly attached to the proximal hub and the distal hub. The second framework portion may be fixedly attached to the proximal hub and the distal hub.

An implant for occluding a left atrial appendage may include an expandable framework including a body portion and a disk portion, wherein the expandable framework is configured to shift between a collapsed configuration and an expanded configuration, and an occlusive disk element disposed within the disk portion. The disk portion may include a first disk portion integrally formed with the body portion, and a second disk portion movably attached to the first disk portion by at least one hinge member.

Exclusion devices for anatomical structures, and related instruments and related methods, are disclosed. An exclusion device for an anatomical structure may include a first beam, a second beam, and/or a first spring operatively coupled to the first beam and the second beam to exert a closing force on the first beam and the second beam. The first spring may be generally U-shaped and/or may include a first end portion and a second end portion generally opposite a connecting portion.

Methods and devices that prevent stasis in the LAA by either increasing the flow through the LAA or by closing off or sealing the LAA. Increasing the flow is accomplished through shunts, flow diverters, agitators, or by increasing the size of the ostium. Closing off the LAA is accomplished using seals or by cinching the LAA.

Medical devices, systems and methods for forming an occlusive material for occluding a left atrial appendage of a heart are provided. In one embodiment, the occlusive material includes a foam portion that extends as a single piece, seamless monolithic structure that is sized to couple to an external side of a framework of a medical device. In another embodiment, the occlusive material may include a polymeric laminate. Such polymeric laminate may be adhered to an outer side of the foam portion. Further, various embodiments for forming a polymer laminate are provided.

An occlusive implant may include an expandable framework configured to shift between a collapsed configuration and an expanded configuration, the expandable framework including a proximal end and a distal end. The expandable framework includes a plurality of anchor members extending radially outward from the expandable framework in the expanded configuration, each anchor member including a root portion fixedly attached to the expandable framework and extending distally to a trunk portion in the expanded configuration. At least a portion of the trunk portion extends radially outward relative to the root portion in the expanded configuration. At least one of the plurality of anchor members includes a plurality of branches extending radially outward from the trunk portion in the expanded configuration.

A device for occluding a patient's left atrial appendage (LAA) device includes a self-expanding closure disc and an anchor. The self-expanding closure disc has an atrial side, an appendage side, and a peripheral edge configured to engage tissue on both an atrial side and an appendage side of an opening between the left atrium and the left atrial appendage. The self-expanding anchor extends from the appendage side of the self-expanding closure disc, and an annular sealing skirt extends about at least a portion of the appendage side of the self-expanding closure disc. the annular sealing skirt is more compliant than the self-expanding closure disc to seal over the left appendage side of the opening after implantation of the device in the LAA.