A catheter for measuring pressure in the urinary tract of a patient includes a catheter body having a proximal and distal end. A plurality of lumens is formed in the catheter body, and an adaptor is coupled to the proximal end of the catheter body. The adaptor includes a port for each lumen. A first pressure sensor, typically including a balloon, is fluidically coupled to a first lumen and is configured and positioned to measure pressure in a urethra of the patient. A second pressure sensor, also typically including a balloon, is fluidically coupled to a second lumen and is configured and positioned on the catheter body to measure pressure in a bladder of the patient. An expandable retention member, which may be coupled to a third lumen, is positioned on the catheter body between the first and second expandable pressure sensors so that the catheter body may be retained at a selected location in the urinary tract to properly position the fluid pressure sensors in the bladder and urethra, respectively.

A kit comprising: a urinary catheter comprising a first and a second longitudinal lumens; an ultrasonic transducer disposed about said catheter; a balloon mounted on said catheter, and enclosing said transducer; and a reservoir containing an acoustic coupling medium, wherein: said catheter further comprises a first opening in said first longitudinal lumen, said first opening disposed inside said balloon and configured to inflate said balloon with at least some of said acoustic coupling medium, said catheter further comprises a second opening in said second longitudinal lumen, said second opening disposed outside said balloon and configured to deliver a therapeutic fluid into the urinary bladder, around said balloon, and activation of said transducer in said urinary bladder causes cavitation bubbles to form in said therapeutic fluid adjacent an internal surface of the urinary bladder, and little or no cavitation bubbles are formed in said acoustic coupling medium in said balloon.

A catheter comprising: a shaft (1) having a proximal end (2) and a distal end (3), the distal end terminating in a tip (4); a drainage opening (7) located at the distal end of the shaft, the drainage opening communicating with a drainage lumen (8) of the shaft; a balloon located at the distal end of the shaft, the balloon comprising a first region secured to the shaft, a second region secured to the shaft and an elastic-walled conduit extending between the first region and the second region, the elastic conduit extending over the tip.

A temporary low profile intraluminal catheter for infusing agents into, or extracting fluids from, a bodily lumen featuring securement structure, wherein the securement structure allows the catheter to be placed with minimal intrusion into the bodily lumen is disclosed. With such design affording a more efficient, verifiable placement of the catheter with less complication due to infection and biofilm related issues, among other types of complications.

An adapter suitable for direct introduction of an active agent, or a contrast agent, into the bladder of a male or female patient without the use of a catheter has an elongated body that defines an internal through passageway and a toroidal sealing collar that surrounds the elongated body at a distal end portion of the elongated body. The distal end portion terminates in a rounded off tip-part sized for insertion into the urethra of the patient. The proximal end portion of the elongated body is adapted for connection to a dosing device.

An intermittent-catheter assembly (100) includes an intermittent catheter and a catheter housing (102). The intermittent catheter includes a funnel and a catheter tube fluidly coupled to the funnel. The catheter housing (102) includes the intermittent catheter disposed in the catheter housing while in a packaged state of the intermittent-catheter assembly. The catheter housing includes an inner sleeve (104) and an outer sleeve (102). The inner sleeve (104) includes a longitudinal cavity containing a majority of the intermittent catheter in the packaged state of the intermittent-catheter assembly. The outer sleeve (106) is slidably disposed over the inner sleeve (104). The catheter housing (102) is configured to expose the intermittent catheter for removal from the catheter housing (102) when the outer sleeve (106) is grasped and slid toward an exposed end of the inner sleeve (104) in opposition to a force applied to the exposed end of the inner sleeve (104).

A safety balloon catheter includes a catheter having a stretch valve, a connector, a balloon inflated with an inflation fluid, a hollow inflation lumen extending through the catheter to the balloon and conveying inflation fluid thereto and therefrom, a hollow second lumen, and a balloon drainage port fluidically connecting the balloon to the second lumen. The stretch valve has a hollow base fixed in the second lumen at a proximal catheter end and shaped to permit a fluid therethrough and a hollow plug slidably positioned in the second lumen at a given distance from the base to, in a steady state, prevent inflation fluid from passing through the drainage port and, when actuated, slide within the second lumen to permit inflation fluid to pass through the drainage port and into the second lumen. The connector connects the base and the plug and has a length greater than the given distance.

A ureteral catheter is provided, including a drainage lumen including a proximal portion and a distal portion configured to be positioned in a patient's kidney, renal pelvis, and/or in the ureter adjacent to the renal pelvis, the distal portion including a retention portion for maintaining positioning of the distal portion of the drainage lumen, the retention portion including at least two openings on a sidewall of the retention portion for permitting fluid flow into the drainage lumen wherein a total area of a proximal most opening of the at least two openings is less than a total area of more distal opening(s) nearer to the distal end of the drainage lumen, and wherein when negative pressure is applied through the ureteral catheter, fluid is drawn into the ureteral catheter through the at least two openings.

The present invention provides oxygenized nanobubbles and their uses in imaging and cancer treatment when combined with therapeutic drugs and precise ultrasound beam steering.

Apparatus and methods for treatment of bleeding and/or microbial infection of the genitourinary tract including a catheter and an insertable and removable medicament-delivery sheath for introducing a hemostatic and/or anti-microbial substance or the like. Some embodiments further include a light-delivery sheath and/or light-delivery-and-imaging sheath having a light-propagation channel, and a source of anti-microbial and/or imaging light in one or more wavelength bands, for example UVC light and/or light in the visible violet, blue or green wavelength ranges. Some embodiments include a display for captured images, and/or a motorized sheath-movement device configured to move one or more light-output ports. Some embodiments further include a light-propagation channel built into the catheter itself (such as one or more optical fibers) for the administration of anti-microbial ultraviolet light (and/or other wavelengths of light) light along the catheter and/or at the distal end of the catheter to treat and/or prevent microbial (bacterial and/or fungal) infections.