Abstract: A prosthesis used for long-term treatment of Gastro-Esophageal Reflux Disease (GERD) comprising an upper thin ring mesh for incorporation in the esophageal wall with a lower tubular part to block reflux and a method where a temporary ring is placed to exert compression laterally on a thin ring supporting a tubular or slit valve to treat GERD to help the thin ring incorporate in the esophageal wall.
Abstract: A method of preventing contraction and peristaltic wave action of an esophagus in which a GARD is placed, preventing displacement of the GARD towards or into a stomach, the method comprising injecting botulinum toxin very precisely in the muscular layer of the esophageal wall at the level where the GARD is or will be placed. A system comprising a catheter having one or two expandable balloon(s) which carries guide needle catheters that can pierce the esophageal wall and reach precisely the muscular layer of the wall of the esophagus, the needles used to inject the toxin at precisely the exact location in the esophageal wall in relationship with the GARD device to block esophageal peristalsis locally.
Abstract: A method of preventing contraction and peristaltic wave action of an esophagus in which a GARD is placed, preventing displacement of the GARD towards or into a stomach, the method comprising injecting botulinum toxin very precisely in the muscular layer of the esophageal wall at the level where the GARD is or will be placed. A system comprising a catheter having one or two expandable balloon(s) which carries guide needle catheters that can pierce the esophageal wall and reach precisely the muscular layer of the wall of the esophagus, the needles used to inject the toxin at precisely the exact location in the esophageal wall in relationship with the GARD device to block esophageal peristalsis locally.
Abstract: A prosthesis (14) that is useful as an anti-reflux device or an anti-obesity device within a gastro-intestinal tract of a living organism, such as a human, comprises an elastic portion including a helical elastic spring (15) embedded in a biocompatible material.
Abstract: A method of, and device for, slowing the passage of food through a digestive tract of a patient and thereby treating obesity. The device is an obesity tube comprising (A) an upper ring of a size corresponding to a point under a patient's esophagus and above the patient's diaphragm muscle, and (B) a lower tube having a length and a distal opening. The method comprises stapling the upper ring under the patient's esophagus, above the patient's diaphragm muscle, and placing the lower tube distal to the upper ring. The length of the lower tube depends on whether the tube is to terminate distally in the stomach or terminate past the pylorus, in which case a section can be provided which is thick enough to resist collapsing under pylorus pressure. The lower tube can be entirely or partially non-permeable or semi-permeable. Semi-permeable tubes or sections thereof have walls which permit the passage of gastric hydrochloric acid but not food.
Abstract: The invention relates to a generally tubular prosthesis (1) for controlling the direction of flow in a duct (O) of a living organism. Said prosthesis consists of a biocompatible, elastically deformable material and comprises an annular proximal fixing part (1a) in a section (H) of the duct (O) with a greater diameter; and a distal part (1b) whose wall is designed in such a way that it can collapse on itself in the event that an overpressure is exerted on its outer surface. The diameter of said annular proximal fixing part (1a) is substantially equal to that of said section (H) of the duct (O) with a greater diameter and its resistance to crushing is significantly greater than that of the distal part (1b) of the prosthesis (1), so that the annular proximal part (1a) can retain the prosthesis (1) in the duct (O) of the living organism.
Abstract: A prosthesis in the form of a flexible tube having a substantially uniform cross section is disclosed. The prosthesis comprises a flange (2) for endoscopically placing stitches or clips in a hiatal hernia (3), and a flexible tubular portion (1) enabling the tube to be squeezed by exerting a pressure (F) on the outer surface thereof in order to prevent reflux of the stomach contents into the esophagus. Food can pass freely through the prosthesis in the direction from the esophagus (4) to the stomach (5). The prosthesis is made of a biocompatible polymer optionally containing barium sulphate to make it detectable using X-rays.