Abstract: A gastric bypass device includes an occlusion device that is adapted to be deployed relative to a patient's pyloric sphincter, an anastomosis anchor that is adapted to be deployed relative to an anastomosis between the patient's stomach and their small intestine, and a tether that extends through the patient's small intestine between the occlusion device and the anastomosis anchor. A dynamic leash may be secured relative to the occlusion device and may work in conjunction with the tether to help hold the occlusion device in place.

Abstract: A gastric bypass device includes an occlusion device that is adapted to be deployed relative to a patient's pyloric sphincter, an anastomosis anchor that is adapted to be deployed relative to an anastomosis between the patient's stomach and their small intestine, and a tether that extends through the patient's small intestine between the occlusion device and the anastomosis anchor. A dynamic leash may be secured relative to the occlusion device and may work in conjunction with the tether to help hold the occlusion device in place.

Abstract: A gastric bypass device includes an occlusion device that is adapted to be deployed relative to a patient's pyloric sphincter, an anastomosis anchor that is adapted to be deployed relative to an anastomosis between the patient's stomach and their small intestine, and a tether that extends through the patient's small intestine between the occlusion device and the anastomosis anchor. A dynamic leash may be secured relative to the occlusion device and may work in conjunction with the tether to help hold the occlusion device in place.

Abstract: A gastric bypass device includes an occlusion device that is adapted to be deployed relative to a patient's pyloric sphincter, an anastomosis anchor that is adapted to be deployed relative to an anastomosis between the patient's stomach and their small intestine, and a tether that extends through the patient's small intestine between the occlusion device and the anastomosis anchor. A dynamic leash may be secured relative to the occlusion device and may work in conjunction with the tether to help hold the occlusion device in place.

Abstract: Cystic lesions can be treated by electroporation. For example, this document describes methods and devices for endoscopic ultrasound-guided ablation of cystic lesions using a needle for electroporation.

Abstract: Cystic lesions can be treated by electroporation. For example, this document describes methods and devices for endoscopic ultrasound-guided ablation of cystic lesions using a needle for electroporation.

Abstract: Devices, systems, and methods can be used to deliver photobiomodulation therapy (PBMT) to the GI tract. For example, this document describes battery-enabled LED light source devices that can be deployed through or over an endoscope and anchored directly to the GI tract. Significant systemic effects can be produced by PBMT with application to one part of the body promoting beneficial anti-inflammatory and metabolic benefits in other remote sites promoted by enhanced mitochondrial function and mitokine signaling.

Abstract: Endolumenal devices and methods can be used for the treatment of health conditions including obesity and diabetes. In some embodiments, the methods and systems provided herein can cause weight loss or control diabetes by reducing the caloric absorption of an individual. For example, this document provides several devices and methods for treating obesity and diabetes by using electroporation to modulate the duodenal mucosa. In addition, this document provides devices and methods for bypassing portions of the gastrointestinal tract to reduce nutritional uptake.

Abstract: 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.

Abstract: Endolumenal devices and methods can be used for the treatment of health conditions including obesity and diabetes. In some embodiments, the methods and systems provided herein can cause weight loss or control diabetes by reducing the caloric absorption of an individual. For example, this document provides several devices and methods for treating obesity and diabetes by using electroporation to modulate the duodenal mucosa. In addition, this document provides devices and methods for bypassing portions of the gastrointestinal tract to reduce nutritional uptake.

Abstract: Cystic lesions can be treated by electroporation. For example, this document describes methods and devices for endoscopic ultrasound-guided ablation of cystic lesions using a needle for electroporation.

Abstract: A system for bypassing a portion of a small intestine. The system includes an occlusion device and a bypass device. The occlusion device includes a tubular body, an occlusion member at a distal end portion of the tubular body, and an anchor member at a proximal end portion of the tubular body. The bypass device includes a liner, and an anchor member at a proximal end portion of the liner.

Abstract: 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 gastrointestinal tract to reduce nutritional uptake. The devices provided herein can be endoscopically implanted such that direct visualization of the entire implant location within the gastrointestinal tract is attained. In some embodiments, the device is distally deployed utilizing a technique that is like that of single or double-balloon enteroscopy.

Abstract: Endolumenal devices and methods can be used for the treatment of health conditions including obesity and diabetes. In some embodiments, the methods and systems provided herein can cause weight loss or control diabetes by reducing the caloric absorption of an individual. For example, this document provides several devices and methods for treating obesity and diabetes by using electroporation to modulate the duodenal mucosa. In addition, this document provides devices and methods for bypassing portions of the gastrointestinal tract to reduce nutritional uptake.

Abstract: 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 gastrointestinal tract to reduce nutritional uptake. The devices provided herein can be endoscopically implanted such that direct visualization of the entire implant location within the gastrointestinal tract is attained. In some embodiments, the device is distally deployed utilizing a technique that is like that of single or double-balloon enteroscopy.