A method of applying a buttress to a surgically cut and stapled site uses an end effector with a buttress applier cartridge assembly to load one or more buttress assemblies to the end effector. The buttress assemblies each include a buttress to support a staple formed therein as well an adhesive for adhering to the end effector. The adhesive of the buttress assemblies can include a pattern to assist in both attachment to the end effector and release from the end effector after cutting and stapling a tissue site. The buttress applier cartridge can include features that accommodate end effectors having various tip configurations, including straight tips and curved or bent tips.

A parent artery occlusion (PAO) device which provides for immediate occlusion of a cerebral artery to isolate a defect. The PAO device includes a self-expanding wire-frame prolate structure which is partially covered with an ePTFE membrane.

A left atrial appendage occluder comprises an elastic closure disc, and a supporting structure connecting with the closure disc and being located on one side of the closure disc, with the supporting structure comprising a central end connecting with the closure disc and a plurality of interconnected and bent struts, wherein at least one anchoring thorn is set near the end of at least one strut with the anchoring thorn toward the closure disc. The left atrial appendage occluder has a stable structure, a good positioning and sealing effect on the cavity wall in the left atrial appendage, and it is easy to position repeatedly; it can also be recycled before separating from a conveyor. When in surgical operation, the left atrial appendage occluder can select the position area based on the actual shape and size of the patient's left atrial appendage, so the surgical risk is lowered.

The disclosure relates to a surgical staple defining a median folding zone which is continued by a pair of branches, each branch having a pointed fastening end and an intermediate clamping zone situated between the median folding zone and the pointed fastening end. The staple is deformable so that each branch can be folded relative to the median folding zone by causing each fastening end to approach the other branch, the staple being formed by a metal cutout pre-shaped by folding, and is of constant thickness. Intermediate clamping zones of the two branches are cut out such as to form at least two teeth, the edges of which form two complementary clamping surfaces, parallel to the median plane when the staple is folded. The cross-section of clamping surfaces correspond to the cross-section of the metal cutout.

In various embodiments, a tissue thickness compensator can comprise one or more capsules and/or pockets comprising at least one medicament therein. In at least one embodiment, staples can be fired through the tissue thickness compensator to rupture the capsules. In certain embodiments, a firing member, or knife, can be advanced through the tissue thickness compensator to rupture the capsules.

Disclosed herein are various exemplary systems and methods for deploying an implant to a target location of a body vessel. The delivery member can include a tubular body including a lumen and compressed distal portion. The delivery member can include a loop wire with a loop opening positioned approximate the compressed distal portion. The delivery member can include a pull wire that has a proximal pull wire portion and a distal pull wire portion connected by a suture linkage. The suture linkage can include a proximal suture knot engaged to the proximal pull wire portion and a distal suture knot engaged to the distal pull wire portion. Pull wire beads positioned on the proximal pull wire and distal pull wire portion can retain the suture knots during proximal translation of the pull wire. The suture linkage can include slack that is effective to prevent premature deployment of the implant.

A detachment system for delivering an embolic coil implant to a treatment site is provided. A loop wire that is looped over a pull wire of the system can include one or more twists to increase frictional resistance against the pull wire. The additional resistance decreases likelihood of premature deployment of the embolic coil prior to the detachment system reaching the treatment site.

Disclosed herein are various exemplary systems, devices, and methods for inhibiting premature implant deployment. The delivery member can include a body including a lumen extending therethrough, the body including a compressed distal portion. The delivery member can include a pull wire extending through the lumen. The pull wire can include a pull wire portion that extends radially to abut a sidewall of the body to provide frictional resistance against the body. The pull wire can be positioned to secure the implantable medical device to the delivery member, and the pull wire portion can be effective to inhibit premature detachment of the implant by inhibiting proximal translation of the pull wire due to the frictional resistance provided by the pull wire portion against the body.

Delivery and detachment system for an implantable intravascular device, the system including a securement wire in a passageway of an inner support tube. Imposed on the securement wire is a controlled friction force established within an intentional friction zone created by: (i) reflow of an outer sleeve through side port opening(s) in the inner support tube and into the passageway; or (ii) the securement wire having bend(s) creating an associated point(s) of direct physical contact with the inner wall of the inner support tube. During delivery of the implantable intravascular treatment device to a target site, the imposed controlled friction force minimizing movement of the securement wire relative to the inner support tube, and upon reaching the target site, a force being applied to overcome the imparted controlled friction force and releasing the implantable intravascular device.

A patient tracking device for insertion into an oral cavity includes a sensor housing comprising a first surface shaped to correspond to a pallet within the oral cavity. At least a portion of the first surface affixes the sensor housing to the oral cavity. An electromagnetic sensor is coupled to the sensor housing.