An intermittent urinary catheter assembly (20) comprises a catheter tube (22) having a proximal insertion end (24) and a distal end (26) remote from the proximal insertion end and a lumen (28) which extends from at or near the proximal insertion end to the distal end for draining urine from a human bladder. The intermittent urinary catheter assembly includes a urine discharge sleeve (34) associated with the discharge opening (30) of the catheter tube, and the urine discharge sleeve has a compact stowed configuration and is extendable into a deployed configuration for directing urine flow. Alternatively, an adapter assembly (50″) comprises a fitting or nipple (52″) having a urine passageway for insertion into a funnel (40″) associated with a urine discharge end of an intermittent urinary catheter, and a discharge funnel (42″) associated with the fitting or nipple, and an extendable urine discharge sleeve (34″) within the discharge funnel.

A disposable device for treating a condition of a ureter or kidney having a cylindrical body about 1-2 mm in diameter by about 5 to 10 mm in length and having a top and bottom end. The body is made of absorbent material that expands upon contact with pharmaceutical agent and bodily fluids and includes a string connected to the bottom end of the body for removing the device. The device can be used to treat a condition of the ureter or kidney by inserting into the ureter or kidney, delivering a pharmaceutical agent, and removing the device after it has been impregnated with fluid. The device can be included in a kit with an insertion device and/or appropriate pharmaceutical agents.

A urinary catheter assembly is provided. The catheter assembly has a first outer package (20), which contains a second inner package (1). The second inner package includes a hydrophilic coated, intermittent catheter 82) and liquid swelling medium. The first outer package is made of a first material with a WVTR value between 1 and 6 g/(m.sup.2.Math.24 h) and the second inner package is made of a second material with a second WVTR value below 3 g/(m.sup.2.Math.24 h). An intermediate cavity (25) is defined inside the first outer package, but outside the second inner package. The first and second WVTR-values are balanced in such a way that the relative humidity (RH) is below 90% in the intermediate cavity. This prevents condensation on the inner surface of the first outer package and on the outer surface of the second inner package.

The disclosure provides a device and method for managing urinary incontinence. The device includes a platform, a balloon, and a valve. The platform and balloon can include a silicone material, a thermoplastic material, and an adhesive and/or a cement for sealing the urethra. The thermoplastic and silicone materials can soften at the body temperature so that their shape can be adapted to fit the three-dimensional contour of surfaces of the urethra. The balloon seals the internal orifice of the urethra, and the platform can block the leakage associated with the balloon. The valve permits selective urine voiding. The method includes inserting the device into the urethra and the bladder. The method can also include inflating the balloon. The method can further include pulling the balloon so that the balloon is in sealing contact with the neck of the bladder and moving the platform to a suitable position for sealing the urethra.

Ureteral or bladder catheters are provided, including (a) a proximal portion; and (b) a distal portion, the distal portion including a retention portion that includes one or more protected drainage holes, ports or perforations and is configured to establish an outer periphery or protective surface area that inhibits mucosal tissue from occluding the one or more protected drainage holes, ports or perforations upon application of negative pressure through the catheter. Systems, kits and methods for inducing negative pressure to increase renal function also are provided.

An intermittent urinary catheterisation assembly (1) for self-catheterisation comprises an intermittent urinary catheter (5) comprising a catheter tube. The catheter further comprises a conduit (4) extending longitudinally within the catheter tube and defining at least part of a flow path from a distal insertion end of the catheter to a proximal outlet end thereof, a measuring system for determining at least one fluid parameter in the flow path. The measuring system comprises at least one sensor element (35) configured to determine the at least one fluid parameter in the conduit and/or in a space in communication with the conduit and a signal processing device. In one aspect, the signal processing device comprises is detachable secured in relation to the connecting portion of the intermittent urinary catheter. In another aspect, the measuring system is securely connected to or integrated with the non-insertable portion of the catheter tube.

A urinary catheter assembly includes a first outer package having a first material, a second inner package contained inside of the first outer package, and an intermediate cavity defined as an area inside the first outer package and outside the second inner package. The first material has a first water vapour transmission rate (WVTR) measured according to ASTM F1249 at 90% relative humidity (RH) and 38° C. between 1 g/(m2.Math.24 h) and 6 g/(m2.Math.24 h). The second inner package has a second material having a second WVTR measured according to test method A at 65% RH and 30° C. below 3 g/(m2.Math.24 h). The second inner package contains a swelling medium and an intermittent urinary catheter with a hydrophilic coating.

A catheter device and manufacturing process for manufacturing the catheter device, wherein the catheter device has a halo-shaped coiled portion extending away from a perpendicular stem portion through a swan neck portion. Eyelets on the halo coil portion and swan neck portion facilitate flow out of the bladder through the catheter device vertical to the catheter, rather than perpendicularly as is the case with existing catheters. The catheter device is formed by using a straight catheter tube, heating and cooling it within a formed mold to have the halo coil and swan neck, such that it can be straightened using a pusher and stylet, inserted into the body while straightened, and thereafter return to its coiled shape when the stylet is removed.

A sterile dual-purpose closed intermittent urinary catheter system that may be used as either a drain line or a collection bag. A catheter resides within an inner cavity of an extensible sheath and may be extracted from a forward end through an outlet hub for insertion into the urethra. A valve at a rearward end of the sheath may be opened to permit the sheath to function as a drain line, or closed to permit the sheath to function as a collection bag. The sheath has an extended length substantially longer than the catheter length, and may be compressed in an accordion fashion or folded to a compact packaged shape. The urine may be collected in the sheath with the valve closed, or drained straight into a toilet with the valve open. The system may have a source of lubrication to wet the catheter.

A device is provided for delivering a predetermined volume of at least one substance within a body cavity of a subject. The device contains a) a capsule for containing the predetermined volume of substances; b) a delivery end, having at least one orifice of diameter D, for placement in proximity to the body cavity; c) a valve mechanically connectable to the capsule, having at least two configurations: (i) an active configuration in which the valve enables delivery of the substances; and (ii) an inactive configuration, in which the valve prevents delivery of the substances from the capsule to the body cavity; and d) a fluid tight chamber configured to contain predetermined volume V.sub.gas of pressurized gas at a predetermined pressure, P.sub.gas. The capsule further contains at least one mixing mechanism that mixes the substances and the pressurized gas after the valve is reconfigured to the active configuration.