Devices are used to modify a metabolic pathway of a digestive system by creating a pathway within the intestinal tract through an anastomosis between a proximal location within the intestinal tract and a distal location within the intestinal tract. An anastomosis compression assembly includes a first portion and a second portion, each including two or more segments securely fixed together by a pair of degradable joining members, and each further including interlocking mechanisms. The first portion and second portion are configured to be coupled together from different locations within the intestinal tract by the application of force. Once aligned, the first and second portions are securely attached to one another by engaging their respective interlocking mechanisms. After completion of the anastomosis procedure, the degradable links degrade and separate the anastomosis compression assembly into smaller fragments for ease of passage through the patient's intestinal tract.

An apparatus is operable to provide an anastomosis coupling two hollow organs, such as a duodenum and ileum. The apparatus includes a first component that is inserted through an enterotomy in a first hollow organ and a second component that is inserted through an enterotomy in a second hollow organ. The first and second components are brought together to o align the enterotomies and compress apposed layers of tissue adjacent to the enterotomies. The compressed tissue eventually necroses and the apparatus may be removed or simply pass through the hollow organ. Each component may include a set of pivoting links and a resilient member that is configured to both bias the links to an expanded configuration and grip the tissue adjacent to the enterotomy. The components may include magnets that secure the positioning of the components relative to each other and provide a compressive force on the apposed tissue.

Apparatus comprising a stent (1) expandable from a non-deployed configuration (2) for delivery to a target site for an anastomosis, and a deployed configuration for forming a temporary stented-anastomosis (201) with a through-channel (5). Magnetic attraction between first and second portions (11, 12) around the through-channel (5) induces formation of a permanent, magnetic compression anastomosis (202) to biologically supplant the temporary stented-anastomosis (201). The apparatus may especially suitable for use in the digestive system, optionally in the gastrointestinal tract.

The invention is an implantable magnetic anastomosis device having an exoskeleton that directs self-assembly. The design allows the device to be delivered in a linear configuration using a minimally-invasive technique, such as endoscopy or laparoscopy, whereupon the device self-assembles into, e.g., a polygon. A coupled set of polygons define a circumscribed tissue that can be perforated, or the tissue can be allowed to naturally necrose and perforate. The device can be used to create anastomoses in a variety of tissues, such as tissues found in the gastrointestinal, renal/urinary, and reproductive tracts. New procedures for using anastomoses, e.g., surgical bypass are also disclosed.

Methods and apparatus for creating an anastomosis or fistula between the gallbladder and an adjacent organ are disclosed. First, a parent magnet, typically a permanent magnet, is deployed in the stomach, small intestine, or another organ adjacent to the gallbladder, and a mating daughter material is deployed in the gallbladder in order to create a magnet-compression anastomosis. The gallbladder may then be ablated or otherwise functionally inactivated through the anastomosis. Another aspect of the invention relates to an all-in-one surgical kit that contains all the necessary specialized tools for a surgeon to perform the procedure.

An apparatus for joining organ wall portions of first and second hollow organs, including first and second connectors, wherein the first and second connectors are magnetically attracted to one another. A device for delivering and deploying the first and second connectors to portions of the first and second hollow organs can be provided, wherein the device is configured and dimensioned to axially align the first and second connectors for performing circular anastomosis of the first and second hollow organs.

A system for endoscopically forming an anastomosis between two naturally adjacent points in the digestive tract. The system utilizes elongate magnetic devices that, when connected across a tissue boundary, necrose tissue until an anastomosis forms and the devices are passed naturally. Despite the elongate shape of the devices, the resulting anastomosis is substantially round. As such, round anastomoses can be formed having increased diameters merely by increasing the lengths of the devices, obviating the need for wider endoscopes.

The present disclosure provides modular magnetic anastomosis devices that can be implemented in digestive surgery or in any circumstance of anastomosis between adjacent organs or two hollow viscera. The device is minimally invasive and easily and quickly delivered using laparoscopic or endoscopic procedures.

A tissue compression device for forming an anastomosis between first and second anatomical structures may include a first device portion having a first magnetic member and a second device portion having a second magnetic member. The magnetic members are configured to magnetically draw together the first and second device portions to compress tissue positioned therebetween. The compression device further includes a latching mechanism configured to couple the first device portion with the second device portion when the device portions are magnetically drawn together. The latching mechanism may include a first latching member extending from the first device portion and a second latching member extending from the second device portion. The latching members are configured to lockingly engage and thereby couple the first device portion with the second device portion.

An apparatus is operable to provide an anastomosis coupling two hollow organs, such as a duodenum and ileum. The apparatus includes a first component that is inserted through an enterotomy in a first hollow organ and a second component that is inserted through an enterotomy in a second hollow organ. The first and second components are brought together to o align the enterotomies and compress apposed layers of tissue adjacent to the enterotomies. The compressed tissue eventually necroses and the apparatus may be removed or simply pass through the hollow organ. Each component may include a set of pivoting links and a resilient member that is configured to both bias the links to an expanded configuration and grip the tissue adjacent to the enterotomy. The components may include magnets that secure the positioning of the components relative to each other and provide a compressive force on the apposed tissue.