Devices, systems, and methods for treating the pancreas are disclosed herein. For example, some aspects of the technology are directed to a method for treating a medical condition affecting the pancreas of a human patient, wherein the method comprises implanting an occlusive device within the pancreatic duct to induce atrophy of pancreatic tissue.

Systems and methods for treating an aneurysm in accordance with embodiments of the present technology include intravascularly delivering an occlusive member to an aneurysm cavity and deforming a shape of the occlusive member via introduction of an embolic element to a space between the occlusive member and an inner surface of the aneurysm wall.

A device for occlusion of a body lumen including an implantable occlusion apparatus (3) operably attached to an elongated catheter member (4) configured for transluminal delivery and deployment of the occlusion apparatus in the body lumen. The occlusion apparatus includes a radially expansible element (5) detachably attached to the elongated catheter member, and adjustable between a contracted orientation for transluminal delivery and a deployed orientation configured to occlude the body lumen, an energy delivery element (6, 14, 21) configured to deliver energy to surrounding tissue to heat the tissue, and a sensor (7) configured to detect a parameter of the wall of the body lumen. The energy delivery element (6, 14, 21) and sensor (7) are axially movable independently of the radially expansible element whereby, in use, the energy delivery element and sensor can be transluminally retracted leaving the radially expansible element in-situ occluding the body lumen.

Retrieval of material from vessel lumens can be improved by electrically enhancing attachment of the material to the thrombectomy system. The system can include a catheter having a distal portion configured to be positioned adjacent to a thrombus in a blood vessel, an electrode disposed at the distal portion of the catheter, and an interventional element configured to be delivered through a lumen of the catheter. The electrode and the interventional element are each configured to be electrically coupled to an extracorporeal power supply.

An occluder includes a proximal occlusion portion. The proximal occlusion portion has a proximal end provided with a first converged member, and is provided with a conical guide structure on an outer periphery of the first converged member. The guide structure has an inner diameter gradually decreasing from a distal end to a proximal end. The guide structure provides a guiding performance to facilitate the occluder to be withdrawn into the sheath easily. An occluder fastening system is used in cooperation with the occluder.

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.

Expandable endograft devices, systems, and methods of using the same to partially or fully occlude a luminal organ. An endograft device described herein may include a stent portion and a wall portion, wherein the wall portion is configured to receive a substance therein.

A medical device, comprising a tube including at least one lumen, an absorbent located at a distal portion of the tube, the absorbent being configured to transition from a compressed state to an expanded state, and a structure fixed to the absorbent, wherein the structure is configured to flex into a compressed state and an expanded state simultaneously with the compressed state and the expanded state of the absorbent, and the structure exposes at least a portion of the absorbent.

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.