A compact packaged intermittent urinary catheter having a longitudinally elongated intermittent urinary catheter retained within a longitudinally compacted elastic package. A method of using the catheter wherein at least a portion of the package is used as a drainage tube for the catheter. A package for an intermittent urinary catheter including a longitudinally compacted elastic package having a longitudinally extending receiving chamber containing a lubricating medium. The package having two longitudinal ends that may be removed to open the package and enable conversion of the package from a compacted state to an extended state. A method of using the package as a clean handling sleeve through which an intermittent urinary catheter may be passed to coat it with a lubricating medium.

A setting adjustment tool for a magnetically adjustable device implanted in a patient includes a circumference. A plurality of magnetic coils can be circumferentially distributed on a circumference of the tool. One of the magnetic coils can be movable along the circumference between a plurality of predetermined positions associated with the selectable performance settings. The magnetic coils may also be capable of attracting or repulsing the at least one magnet of the rotor of the implanted device in a radial direction by at least a predetermined angle within a plane of rotation of an at least one magnet of the rotor thereby inducing a rotating moment into the rotor.

A manually-actuated, constant reduced-pressure apparatus for use with a reduced-pressure system for treating tissue at a tissue site includes a flexible, collapsible member that is operable to move between a compressed position and an extended position. The collapsible member may be disposed between a carrier member and a slider member that move between a compressed position and an extended position. The carrier member and slider member are urged away from each other by a constant-force biasing member, e.g., a constant force coil spring. As the apparatus moves from the compressed position to the extended position, a constant reduced-pressure is generated and delivered to a reduced-pressure port. Methods of manufacturing a manually-actuated, constant reduced-pressure apparatus and methods of treating a tissue site are also provided.

A manually-actuated, constant reduced-pressure apparatus for use with a reduced-pressure system for treating tissue at a tissue site includes a flexible, collapsible member that is operable to move between a compressed position and an extended position. The collapsible member may be disposed between a carrier member and a slider member that move between a compressed position and an extended position. The carrier member and slider member are urged away from each other by a constant-force biasing member, e.g., a constant force coil spring. As the apparatus moves from the compressed position to the extended position, a constant reduced-pressure is generated and delivered to a reduced-pressure port. Methods of manufacturing a manually-actuated, constant reduced-pressure apparatus and methods of treating a tissue site are also provided.

Provided is a stent pusher assembly for positioning a ureteral stent, the stent pusher assembly having an inner and outer stent pusher. The stent pusher assembly positions the ureteral stent in a patient's kidney and bladder without a bladder fixing portion of the stent entering a ureteral passage-way, thereby minimizing irritation to the patient.

A device (100) for medical procedure localization and/or insertion that can be dimensionally adjusted for different patient sizes and properly aligned and stabilized using anatomical landmarks. The device (100) for medical procedure localization and/or insertion provides an adjustable template that indexes the site of interest at the intersection of a first axis or plane and a second axis or plane. An embodiment is disclosed in which a first axis is the axillary line through the patient's axilla (armpit) and iliac crest (pelvis), and a second axis is the patient's ideal horizontal nipple line. The intersection of the first and second axes is the 4th or 5th intercostal space, into which a needle and/or chest tube may be placed for decompression.

A method for manufacturing an inner drainage biomimetic stent for glaucoma. The inner drainage biomimetic stent for glaucoma comprises: a cylinder tube body with a hollow structure, and a plurality of straight tubes, provided inside the hollow structure of the tube body, for supporting a tube wall of the tube body. Proper placement of the inner drainage biomimetic stent for glaucoma can direct an aqueous humour to smoothly flow through an orifice expanded by the biomimetic stent, into Schlemm's canal. A collapsed Schlemm's canal is re-expanded by the flow of the aqueous humour to direct the aqueous humour to a collector canal, thereby lowering an intraocular pressure and achieving the goal of glaucoma treatment

A catheter system includes an indwelling, hollow catheter having a tip inserted into a person's bladder. The tip has an opening through which urine from the bladder passes into the catheter. A flexible reservoir extends around the person's ankle and has walls bounding an interior compartment. A flexible, elongated tube has one end connected to the catheter and an opposite end connected to the reservoir. The tube is hollow for conducting urine in the catheter through the tube into the compartment of the reservoir. One of the walls of the reservoir is a bottom wall that engages and rests on a top of the person's foot in use to resist downward movement of the reservoir as the reservoir is filled with urine. A freely manipulated drain pipe is in fluid communication with the reservoir.

Systems and methods for implanting an endovascular shunt in a patient is disclosed. The system having an expandable anchor configured for being deployed in a dural venous sinus of a patient at a location distal to a curved portion of a wall of an inferior petrosal sinus (IPS) of the patient; an elongate guide member coupled to, and extending proximally from, the anchor; a shunt delivery catheter having a first lumen configured to receive the guide member, and a second lumen extending between respective proximal and distal openings in the shunt delivery catheter, the shunt delivery catheter further having a penetrating element coupled to a distal end of the catheter; and the system further having a guard at least partially disposed over, and movable relative to, the penetrating element.

A method for removing bodily fluid includes drawing bodily fluid that has accumulated in excess, converting the drawn fluid from bulk liquid form to aerosol form, and disposing of the aerosol via evaporation of liquid droplets and absorption and/or diffusion of vapor. Conversion from bulk liquid to aerosol may include collecting the bulk liquid fluid in a reservoir, conveying the bulk liquid bodily fluid to an atomizer, converting the bulk liquid fluid into an aerosol having ultrafine droplets, and ejecting the aerosol into a subcutaneous space for disposal via evaporation of liquid droplets and absorption and/or diffusion of vapors. The method may be performed with a subcutaneous atomizer that may be controlled locally or by an external transmitter for effecting a conversion and mist rate to keep pace with the accumulation of excess bodily fluid.