RU81066U1 - ARTIFICIAL Sphincter - Google Patents

Abstract

To ensure reliable operation of the device and simplify the design while ensuring optimal interaction of the cuff walls with adjacent patient tissues, the implantable sphincter of the bladder contains an inflatable cuff connected by connecting means to a reservoir that controls pressure through a manually driven pump for moving fluid from the cuff to the reservoir containing means for regulating fluid flow , and the activator of the sphincter, which is made in the form of an elastic membrane attached to the lateral erhnosti pump with attached thereto a flexible member with a thickening at the end, wherein the flexible element is arranged in one of the channels of the activator, and the tank wall, regulating the pressure are configured to elastic stretching prior to a position corresponding to the overlap urethral pressure ..

Description

The utility model relates to medical instruments, in particular, to surgical devices and can be used to eliminate severe urinary incontinence in men.

Urinary incontinence or enuresis occurs when the function of the sphincter of the bladder is impaired.

Known is an artificial sphincter containing an urethral elastic clamp connected to a magnetic element and made in the form of a bracket, on the cantilever parts of which are fixed permanent magnets connected by a flexible magnetic circuit on which a control winding is installed (USSR copyright certificate SU 558672, А61В 19/00, 1977 .).

Known artificial urethral sphincter containing an element of controlled compression on the urethra, characterized in that the element of controlled compression on the urethra is made entirely of nickel-titanium wire in the form of two meander-like branches, curved across the direction of translation of the meander waves along the anatomical curvature of the urethra opposite to each other friend and closed by adjacent ends between each other with a C-shaped jumper with elongated legs, and the C-shaped jumper is bent from the line of olzheniya unipolar wave envelope to meander possible touch urethral wall and wave meander gaps have to be placed on the surface of the urethra granular porous permeable TiNi (RF Patent №2275883, A61F 2/04, 2006).

One common treatment for enuresis is the implantation of an elastic cuff around the urethra that is inflated.

by applying pressure from the outside and thus the closure of the urethra is achieved (William D.F. et al. Implants in surgery. M., 1978, p .04).

The main disadvantage of such devices is the morbidity of their use, complexity, and the inability to maintain a constant working pressure in the cuff.

A device for treating urinary incontinence is also known, including an elastic cuff that is implanted around the urethra near the neck of the bladder, a manually operated pump placed in the scrotum and a reservoir that controls the pressure of the system implanted in the rectus abdominis muscle (US Pat. No. 4,887,889, A61F 1 / 00, 1988).

The main disadvantage of the known device should be considered the trauma of its use during the adaptation of the urethra with a cuff (necrosis of surrounding tissues, scars), complexity, and the inability to maintain pressure in the cuff.

Closest to the proposed utility model is an implantable sphincter of the bladder containing an inflatable cuff, a reservoir that controls pressure and a pump containing a device for adapting the sphincter (US Patent US 4682583, A61B 17/00, 1987).

Although the described device provides a significant advantage over previous solutions, it has certain disadvantages that limit its recognition and use.

Firstly, this device has a very complex structure, making its production difficult and expensive. In addition, the device does not provide any means to monitor the condition of the elastic cuff (filled with liquid

or not).

This utility model is aimed at solving the problem of creating a reliable device at all stages of the operation, which, with the simplest possible construction, can have optimal interaction between the cuff walls and the tissues adjacent to it.

The technical result from the use of the utility model is the technical effect, objectively manifested during its use and consisting in increasing the reliability of the device at all stages, the ability, with the simplest design, to have optimal interaction of the cuff walls with adjacent patient tissues.

The essence of the utility model is that an implantable sphincter of the bladder, an implantable sphincter of the bladder containing an inflatable cuff connected by connecting means to a reservoir that controls the pressure through a manually driven pump to move the fluid from the cuff into the reservoir containing means for regulating fluid flow, and the activator began the work of the sphincter, made in the form of an elastic membrane attached to the side surface of the pump, with a flexible element attached to it with a thickening m at the end, while the flexible element is placed in one of the channels of the activator, and the walls of the reservoir, regulating the pressure, are made with the possibility of elastic stretching to a position corresponding to the closing pressure of the urethra.

The above set of essential features ensures the achievement of the technical result of the invention in all cases to which the requested amount of legal protection applies.

In special cases, the implementation or use of the implantable sphincter as a means of regulation contains the first valve,

located between the cuff and the pump and a second valve located between the pump and the reservoir regulating the pressure, while the first and second valves are configured to create a unidirectional fluid flow from the cuff to the reservoir when pumping the device.

In addition, the means for regulating the flow of liquid may contain a flow restrictor equipped with a group of capillaries.

In a preferred embodiment of the device, the means for controlling the liquid flow comprise a flow restrictor made of a porous element.

As the material of the porous element can be used glass or ceramic.

Each of the options is intended for use as an implantable sphincter of the bladder, which is made of biologically inert materials, in particular silicone compositions, approved for use by the Ministry of Health of the Russian Federation.

Figure 1 shows a General view of the sphincter.

Figure 2 is a fragment of the sphincter (elastic convex membrane with a flexible element with a thickening at the end).

The implantable sphincter of the bladder consists of an inflatable cuff 1 connected by a pipe 3 to the channel 15 of the hand pump 4. The reservoir 2, which regulates the pressure in the system, is connected by a pipe 3 to the channel 6 of the pump.

The reservoir 2 is able to increase the volume from minimum to maximum and, accordingly, during this period of increase in volume, the pressure of the elastic wall acts on the contents of the reservoir.

The pump 4, which is driven by the patient, is located in

cavity of the patient’s body so that the patient can control it. The pump contains a chamber 18, spontaneously accepting a state of maximum volume, based on which, when the chamber 18 is compressed as a result of the action of the patient, it is forced to decrease in volume to dispense contents.

The chamber 18 is connected by channels 6 and 19 to a reservoir that controls the pressure in the system. A valve 7 is located in the channel 6 of the pump, which is basically a unidirectional valve, whereby a unidirectional fluid flow can be created from the chamber 18 to the tank 2. The second valve 8 located in the channel 19 is also a unidirectional valve, whereby from the cuff 1 to the chamber 18 a unidirectional fluid flow is formed.

When the patient acts on the pump 4, forcing to compress the chamber 18 of the pump 4, the liquid from the cuff 1 enters the reservoir 2, which has the ability to elastically increase in volume.

The pump 4 is equipped with a limiting means 9 located in the channel 10, which serves to limit the flow of fluid from the tank 2 to the cuff 1 with the maximum volume of the tank.

The flow restrictor is formed by a plurality of flow passage channels and may comprise a plurality of flowing capillaries or a porous element made of glass, ceramic or similar inert material capable of withstanding the pressure created in the channel 10 by the reservoir 2 so that a controlled amount of liquid is allowed to pass through the flow restrictor 9 required to inflate the cuff 1.

The channel 10 is connected to the chamber 11, which has annular protrusions 6 on the lateral surface, forming a passage 20, with which the activator of the sphincter work start interacts. The activator contains a convex elastic membrane 12 and a flexible element 21 with a thickening 14 at the end,

connected to a convex elastic membrane 12 (figure 2), sensitive to manual palpation.

A flexible element 21 with a thickening 14 at the end moves in the passage 20. The dimensions and shape of the protrusions 6 and the thickening 14 are such that they make it possible to tightly shut off the passage 20 when fluid flows from the tank 2 through the channel 10 and the restrictor 9 into the chamber 11 when pressing on the dome the membrane 12 and fixing the membrane 12 in a curved state, which allows the doctor to evaluate the condition of the elastic cuff. In this case, when the sphincter is activated by squeezing the chamber 18, the generated pressure disengages the bulge 14 from engagement with the protrusion 6, the membrane bends, and the fluid begins to flow through the channel 15 into the cuff 1.

When using the sphincter, the reservoir is placed behind the rectus abdominis muscle, the cuff, when not inflated, is wrapped around the urethra, near the neck of the bladder, and the pump is placed in the suprapubic region so that it is accessible when the skin is pressed, and the elastic membrane 12 is located in curved state (channel 20 is closed). In order to adapt the cuff with surrounding tissues and prevent their injuries and necrosis, sphincter activation is performed 1-2 months after surgery.

For this, the reservoir 2 and the cuff 1 are filled with physiological saline and through the adapters the outlet ends of the pipelines 3 are connected to the fittings 22 and 23 of the pump 4.

After that, to bring the system into operation, the patient controls the pump 4 by squeezing the pump chamber 18 so as to cause fluid to enter the chamber 11. in this case, due to the pressure created by the pump, the bulge 14 disengages from the protrusions 6, the membrane 12 is bent and released passage 20.

Liquid from the reservoir 2 (due to the pressure of the elastic walls)

enters through the channel 10 and the limiter 9, into the chamber 11 and through the channel 15 and the pipe 3 fill the cuff 1, thus blocking the urethra.

To empty the bladder, the patient repeatedly squeezes the chamber 18 of the pump 4. In this case, the liquid from the cuff 1 through the channel 15 passes 20 and the channel 19 enters the chamber 18 and through it into the channel 7 of the channel 6 and the reservoir 2. Due to the redistribution of fluid, the cuff “relaxes” and the bladder is empty. After some time, sufficient to empty the bladder (determined by the resistance of the restrictor 9, the fluid from the reservoir 2 through the channel 10 and the restrictor 9 enters the chamber 11 and fills the cuff 3 through the passage 20 and again compresses the urethra.

Claims (5)

1. An implantable sphincter of the bladder containing an inflatable cuff connected by connecting means to a reservoir that controls the pressure through a manually driven pump for moving fluid from the cuff to the reservoir containing means for regulating fluid flow and an activator for starting the sphincter, characterized in that the activator is made in the form an elastic membrane fixed to the side surface of the pump, with a flexible element attached to it with a thickening at the end, while the flexible element is placed in one of the channels s activator, and the tank wall, regulating the pressure are configured to elastic stretching prior to a position corresponding to the overlap urethral pressure. 2. The implantable sphincter of the bladder according to claim 1, characterized in that it is equipped with means for regulating the flow of fluid containing a first valve located between the cuff and the pump, and a second valve located between the pump and the reservoir regulating the pressure, and the valves are made with the possibility creating a unidirectional fluid flow from the cuff to the tank when pumping the device. 3. The implantable sphincter according to claim 1 or 2, characterized in that it is equipped with means for regulating the flow of fluid containing a flow restrictor-regulator equipped with a group of capillaries. 4. The implantable sphincter according to claim 1 or 2, characterized in that the means for regulating the fluid flow contain a flow restrictor made of a porous element. 5. The implantable sphincter according to claim 4, characterized in that the porous element is made of glass or ceramic.