Abstract: Devices, systems and methods for the recycling and recovery of carpet are disclosed herein, including devices, systems and methods for disassembling or deconstructing carpet into the various components that make up the carpet, by abrasive removal and separation of the components.

Abstract: Devices, systems and methods for the recycling and recovery of carpet are disclosed herein, including devices, systems and methods for disassembling or deconstructing carpet into the various components that make up the carpet, by abrasive removal and separation of the components.

Abstract: An optical interposer for optically coupling light between an OED supported on a substrate and an optical fiber, the interposer comprising: (a) an interposer of an optically-clear moldable material comprising at least the following features: (b) a port for receiving a ferrule containing at least one optical fiber, the port comprising an interface surface positioned to optically couple with an end face of the optical fiber; (c) an active lens adapted to optically couple with an OED, the active lens and the interface surface optically coupled along an optical path in the interposer; (d) a protrusion extending backward from the port, the protrusion defining a first register surface, the first register surface being a certain distance from the optical path such that, when a second register surface of a ferrule containing the optical fiber contacts the first register surface, the ferrule is aligned with the port such that the port can receive a front portion of the ferrule if the ferrule is pushed forward.

Abstract: Devices, systems and methods for the recycling and recovery of carpet are disclosed herein. Devices, systems and methods for disassembling carpet into the various components used for carpet construction by abrasive removal and separation of components are also disclosed herein.

Abstract: Devices, systems and methods for the recycling and recovery of carpet are disclosed herein. Devices, systems and methods for disassembling carpet into the various components used for carpet construction by abrasive removal and separation of components are also disclosed herein.

Abstract: Devices, systems and methods for the recycling and recovery of carpet are disclosed herein. Devices, systems and methods for disassembling carpet into the various components used for carpet construction by abrasive removal and separation of components are also disclosed herein.

Abstract: An optical interposer for optically coupling light between an OED supported on a substrate and an optical fiber, the interposer comprising: (a) an interposer of an optically-clear moldable material comprising at least the following features: (b) a port for receiving a ferrule containing at least one optical fiber, the port comprising an interface surface positioned to optically couple with an end face of the optical fiber; (c) an active lens adapted to optically couple with an OED, the active lens and the interface surface optically coupled along an optical path in the interposer; (d) a protrusion extending backward from the port, the protrusion defining a first register surface, the first register surface being a certain distance from the optical path such that, when a second register surface of a ferrule containing the optical fiber contacts the first register surface, the ferrule is aligned with the port such that the port can receive a front portion of the ferrule if the ferrule is pushed forward.

Abstract: An implant system places magnetic structures in or on tissue that develop a magnetic repelling force between a soft palate a posterior pharyngeal wall. The magnetic repelling force has a magnitude F-mag, where F-mag=f (F-sep, F-nat), and where F-sep is a force required to separate soft palate tissue from pharyngeal wall tissue during sleep, and F-nat is a force exerted by native muscle on the soft palate during swallowing and/or drinking and/or speech. In another embodiment, a palate implant uses attractive magnetic force to keep the airway open.

Abstract: Systems and methods resist posterior movement of both the tongue and the soft palate/uvula during sleep, thereby keeping an airway open. The systems and methods employ first, second, and third structures. The first structure is sized and configured for placement in or on a tongue. The second structure is sized and configured for placement in or on a region of a soft palate or uvula. The third structure is sized and configured for placement in or on tissue in a desired relationship. anterior of the first and second structures. The first and second structures each includes a ferromagnetic material. The third structure includes a magnetic material that magnetically interacts with both the first and second ferromagnetic materials by attracting both the first and second ferromagnetic materials, thereby resisting posterior movement of both the tongue and the soft palate/uvula.

Abstract: A magnetic force system uses a magnetic implant sized and configured to be inserted in the pharynx and another magnetic implant sized and configured to be inserted in the tongue, palate, or pharynx. The system establishes different regions of magnetic interaction between the two implants across the airway, attracting and repelling, such that attractive interaction in one region of the implants combines with repelling interaction in another region of the implants, to provide a “hinge” structure. Alternatively, a magnetic force system that uses three magnetic implants sized and configured to be inserted in the tongue, pharynx, and palate, respectively. The tongue implant is attracted to the palatal implant, and repels the pharyngeal implant, forming a modified “hinge” structure. Forces of magnetic attracting bring tissue together to form a magnetic hinge joint, providing an anchor to stabilize the regions where repelling forces work to separate tissue to keep the airway open.

Abstract: Systems and methods prevent magnetic implant migration and extrusion in the upper airway. The systems and methods relate both to surgical techniques as well as structural features to address the problem of magnetic implant migration.

Abstract: Devices, systems, and methods resist posterior movement of the tongue during sleep, thereby keeping an airway open. An implant device has a ferromagnetic structure that, when implanted, occupies only one lateral side of the tongue when implanted. The ferromagnetic structure magnetically interacts with a magnetized material placed in a desired relationship with the tongue to stabilize a preferred tongue orientation.

Abstract: A carrier is sized and configured for placement in or on a tissue region. The carrier includes at least one interior compartment. At least one ferromagnetic material is carried within the compartment. The compartment and the ferromagnetic material are mutually sized and configured to allow movement of the ferromagnetic material within the compartment in response to magnetic interaction with a magnetic material located outside the carrier. The magnetic interaction can include either a magnetic attracting force or a magnetic repelling force. The carrier can be used in association with a source of magnetism sized and configured for placement in or on a tissue region outside the carrier for magnetic interaction with the ferromagnetic material carried within the compartment, e.g., to stabilize the orientation of a tissue region within an airway.

Abstract: Systems and methods place a first structure and a second structure in or on different tissue regions for magnetic interaction. The first structure comprises at least one ferromagnetic component, and the second structure comprises an array of magnetic components. The first and second structures are separated during use by a distance, which is defined as a separation between the centers of mass of the ferromagnetic and magnetic components. The distance varies within a working range as a result of native movement of the tissue regions on which the first and second structures are placed. The systems and methods titrate the size and orientation of the magnetic and ferromagnetic components to maintain a relatively constant magnetic field between the two structures within the working range, thereby accommodating relative movement of the tissue regions in the normal performance of bodily functions.

Abstract: Systems and methods are provided for resisting posterior movement of the tongue during sleep, thereby keeping an airway open. The systems and methods employ a first structure that can be placed either in or on a tongue within an oral cavity and/or in a region of hyoid muscle. The first structure includes a ferromagnetic material. The systems and methods employ a second structure that can be placed either in or on external tissue outside the oral cavity and/or in or on external tissue outside the oral cavity in a desired relationship with the first structure. The second structure includes a magnetic material that magnetically interacts with the ferromagnetic material by attracting the ferromagnetic material, thereby resisting posterior movement of the tongue.

Abstract: Magnetic structures develop a magnetic force between a tongue and a posterior pharyngeal wall to stabilize an orientation of the tongue.

Abstract: Systems and methods include magnetic structures for placement in or on tissues in an airway. The magnetic structures carry sources of magnetism, which generate magnetic fields having directions. The magnetic fields interact to provide magnetic forces that provide a desired therapeutic effect, e.g., maintaining separation between the soft palate and/or tongue and the posterior pharyngeal wall. The systems and methods size and configure the directions of the magnetic fields to provide stability, which makes possible the achievement of the desired therapeutic effect in a straightforward and elegant manner.

Abstract: Magnetic structures develop a magnetic force between a tongue and a posterior pharyngeal wall to stabilize an orientation of the tongue. The magnetic structures include magnetic materials that are sized, configured, and arranged on at least one of the first and second magnetic structures, to maintain a substantially mutually repelling orientation between the first and second magnetic structures during a native range of movement of the tongue relative to the pharyngeal wall, i.e., during swallowing and/or drinking/and or speech.

Abstract: Systems and methods place a magnetic structure in or on a single tissue mass in an airway. A first magnetic region on a given structure magnetically interacts with a second magnetic region on the structure to shape the structure within the single tissue mass and thereby stabilize a desired orientation for the single tissue mass. The first magnetic region can magnetically interact with the second magnetic region, e.g., by generating magnetic attracting forces.

Abstract: An implantable flow regulator (22) for regulating flow of a drug along a drug delivery pathway (14) from a drug source to a treatment site within a subject includes a movable diversion member (24) and an actuator. The movable diversion member (24) is operably coupled to a delivery pathway (14). The actuator is actuatable to move the diversion member (24) between at least a first mode position where the diversion member (24) restricts flow through the delivery pathway (14) (i.e., delivery pathway is “closed”), and a second mode position where the diversion member (24) is position to allow flow through the delivery pathway (14) (i.e., delivery pathway is “open”). Supplying power to actuate the actuator moves the diversion member (24) from its normally biased first mode or “closed” position, which is also a failsafe position, toward its second mode or “open” position. In the “open” position, drug is supplied to target sites, typically from a drug supply reserve within the regulator.