In various embodiments, a layer of material can comprise a body, a proximal end portion, and a distal end portion. The proximal end portion can be releasably secured to a staple cartridge of a surgical end effector, and the distal end portion can be releasably secured to an anvil of the surgical end effector. The layer of material can comprise a tissue thickness compensator.

Systems and methods can remove material of interest, including blood clots, from a body region, including but not limited to the circulatory system for the treatment of pulmonary embolism (PE), deep vein thrombosis (DVT), cerebrovascular embolism, and other vascular occlusions.

A staple cartridge comprising a tissue thickness compensator is disclosed. The tissue thickness compensator comprises an external layer and tubular elements. The tubular elements are interconnected and positioned within the external layer. The tubular elements comprise apertures defined therein and the tubular elements are configured to collapse as pressure is applied to the tissue thickness compensator by tissue during the firing motion. The apertures enable fluids from the tissue to permeate the tissue thickness compensator.

A positioning wand for assisting in positioning at least one of a first magnetic implant and a second magnetic implant configured for forming an anastomosis between two adjacent walls of a digestive tract of a patient is provided. The positioning wand can include an elongated member sized and configured to be inserted into an abdominal cavity of the patient, and a distal tip provided at a distal end of the elongated member. The distal tip can include a guide magnet configured to magnetically couple with the at least one of the first and second magnetic implants through a wall of the digestive tract to position the at least one of the first and second magnetic implants to a desired site of the anastomosis. The distal tip can be configured to be moveable in response to a contact pressure upon contact with the wall of the digestive tract.

The designs and methods disclosed herein are for a clot retrieval catheter that can have a proximal elongate body with a large bore lumen and a distal tip expandable to a diameter larger than the outer sheath through which it is delivered. The distal tip can have a flexible metallic support frame to provide radial scaffolding and the ability for further flexible expansion when ingesting a clot. The support frame can be designed so that the expanding movement is focused in a portion of the circumference though a plurality of deformable cells that can collapse to be almost flat and parallel to the longitudinal axis for deliverability, but expand to a very steep angle for good resistance to collapse under aspiration. The designs can be sufficiently flexible to navigate tortuous anatomy but recover to maintain the inner diameter of the lumen when displaced in a vessel.

A suture construct that is elongate along a longitudinal direction and configured to change in size from a first configuration to a second configuration includes an outer layer of material that extends along the longitudinal direction and has a plurality of intertwined fibers that comprise a first sub-set of fibers crossed by a second sub-set of fibers at respective intersections, such that the first subset of fibers and the second subset of fibers are configured to reorient relative to each other in a manner causing the outer layer of material to change in one or more of surface texture and visual appearance as the suture construct changes between the first and second configurations.

A treatment system includes an insert that is resiliently deflectable. The tip portion of the insert can be configured to be coupled to the trailing portion of an implant. A guide tube having an internal lumen is configured to permit passage of the tip portion and the body portion of the insert through a guide tube. The guide tube can have a length that is less than that of the insert. Treatment systems include a plurality of inserts, each insert differing from in at least one of length, diameter, and curvature. Treating a patient can include sizing a fistula using an insert.

An organ preservation system is provided. The organ preservation system is embodied in a sleeve adapted to maintain a pre-transplant organ at a temperature lower than ambient temperature through a plurality of bladders interconnected by a deformable mesh. With the organ in the sleeve, each vessel of the organ can pass through separate, deformable holes of the mesh, facilitating ease of identification of each vessel needed for the pending vascular anastomosis.

In various embodiments, a tissue thickness compensator can comprise a compressible extracellular matrix and a bioabsorbable material dispersed within the extracellular matrix, wherein the bioapsorption of the bioabsorbable material is configured to leave behind channels in the extracellular matrix. The tissue thickness compensator can also comprise generation means for generating the ingrowth of tissue into the channels. In at least one embodiment, the tissue thickness compensator can comprise dissolvable wicking members which, when dissolved, can leave behind channels in the tissue thickness compensator. In certain embodiments, the tissue thickness compensator can comprise at least one rupturable capsule.

Embolization compositions and methods for controlling undesired bleeding and other treatments are provided. Preferred composition may comprise (a) a crosslinked hydrogel material; and (b) a fiber material, wherein the composition comprises a plurality of macropores; and the hydrogel material and fiber material are bonded by covalent and/or non-covalent bonds.