The present invention relates to a catheter valve for use with a catheter. The catheter valve comprises an inlet nozzle at a front end of the valve and an outlet nozzle at a rear end of the valve. The valve comprises a longitudinal stem encapsulated within a middle section of the valve which extends in between the front end and the rear end of the valve. The longitudinal stem is divided into a front end and a rear end by a rib and an O-ring is inserted into the front end of the stem; and a resilient means is inserted into the rear end of the stem; the front end of the longitudinal stem further comprises sectional longitudinal grooves which cuts across the longitudinal and cylindrical stem extending from a head end of the front end of the stem up till the rib of the stem and the head end is curved inwardly in between each sectional longitudinal groove; and the rear end of the longitudinal stem further comprises sectional longitudinal grooves which cuts across the longitudinal and cylindrical stem in a triangular form extending from a head end of the rear end of the stem up till a bottom interface of the rib.

The balloon includes a pouch formed of a sealed wall delimiting an internal space, and a valve for filling the internal space with a fluid, capable of being occluded after filling the internal space. The pouch delimits a fluid-draining orifice opening into the internal space. The balloon further includes an occluding ball that occludes the draining orifice. The occluding ball can be spherical or polyhedral, and be capable of releasing the draining orifice under the effect of a magnetic field, so as to enable the at least partial drainage of the fluid contained in the internal space. The occluding ball is movable along at least two distinct axes in relation to the pouch.

A method for maintaining a balloon of a balloon catheter at a prescribed pressure of between about 0.2 psi and 1 psi comprises the step of: generating a vacuum within a reservoir defined in a burette that is part of a fluid management system that is configured to controllably inflating and deflating the balloon by circulating balloon fill media along a fluid circuit, wherein generating the vacuum results in formation of a pressure differential along the fluid circuit, thereby allowing the balloon to be maintained at the prescribed pressure between about 0.2 psi and about 1 psi.

Disclosed herein are inflators and methods of using the inflators for inflating inflatable devices, such as balloons, used in medical procedures. Such procedures include angioplasty and the transcatheter delivery of prosthetic heart valves and stents. The inflators overcome the resistances typically generated during such procedures and reduces the force required to fully inflate the balloon.

The present invention generally relates to a double or triple lumen, indwelling, urinary catheter having a bladder-protecting tip and a fitted check-valve. The catheter is useful for catheterizing patients whose bladders are in need thereof (e.g., due to a surgical procedure or other medical problem).

In one embodiment, the present application discloses, in part, a balloon catheter assembly comprising: a) a balloon catheter comprising a proximal end, a distal end; and b) a connecting line comprising a proximal end and a distal end, wherein the proximal end comprises a first terminal magnetic connector for forming a water tight connection with the magnetic click connector on the port panel.

Disclosed herein are inflators and methods of using the inflators for inflating inflatable devices, such as balloons, used in medical procedures. Such procedures include angioplasty and the transcatheter delivery of prosthetic heart valves and stents. The inflators overcome the resistances typically generated during such procedures and reduces the force required to fully inflate the balloon.

Valves and valve systems are provided that are useful for integration with inflatable indwelling medical devices to prevent over-inflation of retention balloon.

A method of limiting an inflation system pressure for dilating a region of a patient's nasal sinus passageways. The method includes grasping an inflation device. The inflation device includes a syringe including a plunger slidably disposed within a barrel, a connector for fluidly connecting an outlet of the syringe with a surgical instrument balloon, and a mechanical pressure indicator associated with the syringe, the mechanical pressure indicator including a housing and an indicator body disposed within the housing. The method also includes delivering the surgical instrument balloon to a patient's paranasal sinus target area, operating the plunger within the barrel of the syringe to deliver pressurized fluid to the surgical instrument balloon, and transitioning the indicator body to extend outside of the housing when a predetermined inflation pressure of the surgical instrument balloon is reached.

A method for maintaining a balloon of a balloon catheter at a prescribed pressure of between about 0.2 psi and 1 psi comprises the step of: generating a vacuum within a reservoir defined in a burette that is part of a fluid management system that is configured to controllably inflating and deflating the balloon by circulating balloon fill media along a fluid circuit, wherein generating the vacuum results in formation of a pressure differential along the fluid circuit, thereby allowing the balloon to be maintained at the prescribed pressure between about 0.2 psi and about 1 psi.