Abstract: Devices and methods for trimming a stent to a desired length with an outer tube and an inner tube having a distal end and a diameter configured to receive a portion of the stent in excess of the desired length. The inner tube may move within the outer tube and the distal end may include an end effector configured to trim the portion from the stent while the device and stent are within a patient.

Abstract: Devices and methods for trimming a stent to a desired length with an outer tube and an inner tube having a distal end and a diameter configured to receive a portion of the stent in excess of the desired length. The inner tube may move within the outer tube and the distal end may include an end effector configured to trim the portion from the stent while the device and stent are within a patient.

Abstract: A passive artificial sphincter includes a tension member, an outer sleeve, and a connecter. The tension member has first and second ends. The outer sleeve contains the tension member and is formed of a biocompatible material. The connecter is configured to couple the first and second ends together to form an artificial sphincter ring. The artificial sphincter ring is configured for implantation around the lumen to provide passive constriction of the lumen. In a method, an artificial sphincter comprising a tension member contained within an outer sleeve is positioned around a lumen of a patient. The lumen is constricted responsive to the tension in the tension member. The passage of material through the lumen and past the artificial sphincter ring is resisted responsive to the constriction of the lumen.

Abstract: Devices and methods for trimming a stent to a desired length with an outer tube and an inner tube having a distal end and a diameter configured to receive a portion of the stent in excess of the desired length. The inner tube may move within the outer tube and the distal end may include an end effector configured to trim the portion from the stent while the device and stent are within a patient.

Abstract: Various embodiments of an implant system for treating fecal incontinence are provided. The devices and systems can include a mesh or like device that can include a variable porosity to control the degree of expansion of the anal canal. The mesh can be constructed at least in part of patterned strut members allowing for various geometric configurations, with varying load and tension properties for the designated portions of the device according to the needs for a particular patient application.

Abstract: Devices and methods for trimming a stent to a desired length with an outer tube and an inner tube having a distal end and a diameter configured to receive a portion of the stent in excess of the desired length. The inner tube may move within the outer tube and the distal end may include an end effector configured to trim the portion from the stent while the device and stent are within a patient.

Abstract: Various embodiments of an implant system for treating fecal incontinence are provided. The devices and systems can include a mesh or like device that can include a variable porosity to control the degree of expansion of the anal canal. The mesh can be constructed at least in part of patterned strut members allowing for various geometric configurations, with varying load and tension properties for the designated portions of the device according to the needs for a particular patient application.

Abstract: Various embodiments of an implant system for treating fecal incontinence are provided. The devices and systems can include a mesh or like device that can include a variable porosity to control the degree of expansion of the anal canal. The mesh can be constructed at least in part of patterned strut members allowing for various geometric configurations, with varying load and tension properties for the designated portions of the device according to the needs for a particular patient application.

Abstract: A passive artificial sphincter includes a tension member, an outer sleeve, and a connecter. The tension member has first and second ends. The outer sleeve contains the tension member and is formed of a biocompatible material. The connecter is configured to couple the first and second ends together to form an artificial sphincter ring. The artificial sphincter ring is configured for implantation around the lumen to provide passive constriction of the lumen. In a method, an artificial sphincter comprising a tension member contained within an outer sleeve is positioned around a lumen of a patient. The lumen is constricted responsive to the tension in the tension member. The passage of material through the lumen and past the artificial sphincter ring is resisted responsive to the constriction of the lumen.

Abstract: Various embodiments of an implant system for treating fecal incontinence are provided. The devices and systems can include a mesh or like device that can include a variable porosity to control the degree of expansion of the anal canal. The mesh can be constructed at least in part of patterned strut members allowing for various geometric configurations, with varying load and tension properties for the designated portions of the device according to the needs for a particular patient application.