One or more medical devices may be provided that may be used, for example, in bariatric surgery including a vertical sleeve gastrectomy. Occlusion devices can be integrated with a catheter or tube to occlude one or more proximal or distal landmarks of a stomach and a stapling guide may be used to occlude a lateral boundary of the stomach to define a cavity. A volume of the potential resultant sleeve may be determined by inserting fluid or gas into the catheter or tube, measuring pressure, and calculating the volume of the cavity.

A bariatric clamp may include substrate members overmolded in polymer forming first and second elongated portions with insert portions, and a bight portion having a flexible hinge wherein the inserts are engaged via a magnetic force to retain the clamp in a closed position to partition the stomach. In another embodiment, the bariatric clamp may include substrate members overmolded in polymer forming first and second elongated portions and a bight portion having a flexible hinge, wherein the first and second elongated portions are curved to conform to a curvature of a patient's stomach. In another embodiment, the bariatric clamp may include substrate members overmolded in polymer forming first and second elongated portions each having one or more suture portions formed via one or more recesses formed in the substrate members.

The present invention provides delivery systems for positioning a gastrointestinal implant in a patient, for example, for treatment of a metabolic disease. Also provided are methods for assembling the delivery systems, methods of positioning a gastrointestinal implant, and methods of treatment of metabolic diseases, such as type 2 diabetes, non-alcoholic steatohepatitis (NASH), non-alcoholic fatty liver disease (NAFLD), obesity, and related comorbidities thereof.

Devices and methods can be used for the endoscopic treatment of conditions such as obesity and metabolic diseases. For example, this document provides devices and methods for bypassing portions of the GI tract that can reduce nutritional uptake, decrease weight, and improve diabetes control. The devices are advantageously designed for migration resistance, reflux prevention, and ease of implantation.

A connector device for gastric calibration hoses, including a first end and a second end opposite the first end. A first connector is disposed at the first end and a second connector is disposed at the second end. The first and the second connector are connected with each other via a fluid channel. The first connector includes a first tapering cavity sized and shaped to receive and couple with a gastric calibration hose. The second connector includes a second tapering cavity and a tapering recess annularly surrounding the second tapering cavity. The second tapering cavity and the tapering recess are sized and shaped to alternatively couple with different medical devices by receiving therein tubular structures of the different medical devices.

A gastric tube for use in a bariatric surgical procedure includes an elongate tube and a movable component supported on an outer surface of the elongate tube. The elongate tube has a non-circular cross section along at least a portion of a length of the elongate tube. The movable component is movable between an unexpanded configuration and an expanded configuration. In the unexpanded configuration, the movable component is disposed in abutting engagement with the outer surface of the elongate tube. In the expanded configuration, the movable component bows outwardly from the outer surface of the elongate tube.

An volume filling device for treatment of obesity is placed outside the stomach wall of the patient to reduce the inner volume of the stomach, thereby affecting the patient's appetite. By providing the volume filling device outside the stomach wall, contact with stomach acids is avoided, thereby increasing the life of the device.

Methods, devices and systems for delivering a device assembly into a gastric or other space within the body, allowing the device to expand to occupy volume within the gastric space and, after an effective period of time, delivering a substance or stimulus to begin breakdown of the expanded device so that it may release from the body.

The present invention relates to gastric obstruction device deployment systems and a device for intermittently obstructing a bodily opening, such as a gastric opening, and includes a proximal occluding member connected to a distal occluding member by a tether. The proximal occluding member is formable from an elongated and narrower configuration to a contracted or expanded but wider configuration. When employed in the stomach, the gastric obstruction device may be arranged transluminally with the distal occluding member disposed in the duodenum and the proximal occluding member disposed against the pyloric valve, intermittently occluding the pyloric valve and preventing or delaying the flow of gastric contents through the pyloric valve.

An intragastric device including (1) a first wire mesh structure having a pre-deployment shape, a post-deployment shape greater than the pre-deployment state, and one or more openings on an upper portion of the first wire mesh structure that are configured to permit food to enter the device, (2) a second wire mesh structure having a pre-deployment shape a post-deployment shape greater than the pre-deployment state, and one or more openings on a lower portion of the second wire mesh structure that are configured to permit food to exit the device. A sleeve may be coupled to the lower portion of the wire mesh structure. An anti-migration collar may interconnect the wire mesh structure and the sleeve. In use, food enters the upper portion of the first wire mesh structure, passes through both wire mesh structures, and then exits the lower portion of the second wire mesh structure.