RU110280U1 - CATHETER FOR THE TREATMENT OF CHRONIC PROSTATITIS - Google Patents

Abstract

 1. A catheter for treating chronic prostatitis, comprising a dielectric tube with an electrode fixed to the end of the tube, characterized in that the catheter has a proximal electrode that is connected to the distal electrode fixed to the end of the tube, the catheter has channels for supplying and using elastic dielectric strings and drainage into the area between the proximal and distal electrodes of the solution of the treatment fluid, and the distance between the proximal and distal electrodes is selected so that when maximum DUTY catheter electrode for external sphincter of the bladder ducts of glandular prostatic lobes are located in the region between the proximal and distal electrodes of the catheter. ! 2. The catheter according to claim 1, characterized in that the proximal and distal electrodes are electrically isolated from each other and are electrically connected to the respective electrically isolated current-conducting electrodes located on the outer surface of the catheter’s dielectric tube. ! 3. The catheter according to claim 1, characterized in that the inner channel of the dielectric tube with a distal electrode attached to it is used as the channel for withdrawing the treatment solution, and the distal electrode has an opening through which the tube for supplying the treatment solution, fixed to the proximal electrode, has an opening through which the treatment solution is supplied to the area between the electrodes of the catheter.

Description

The technical field to which the invention relates.

The invention relates to medicine, namely to physiotherapeutic methods and devices for the treatment of chronic prostatitis.

The known method and device described in patent RU 2008036, which consists in the fact that an electrode-catheter connected to a vacuum source is inserted into the posterior urethra. The catheter electrode has a head of conductive material that is connected to an electrical stimulator. Due to contractions of the muscles of the perineum, which are stimulated by electrical impulses, the stagnant secretion is removed from the acini of the prostate through the excretory ducts into the urethra. The head of the catheter electrode has openings connected to the internal channel of the tube connected to a vacuum source. The creation of a vacuum with the preliminary or simultaneous stimulation of muscle contractions, promotes, as described in the invention, the removal of stagnant secretion from the acini of the prostate gland.

Patent RU 2248228 describes a method for treating chronic prostatitis by flushing stagnant secretions with a solution supplied under constant pressure to the posterior urethra. As described in the invention, the washing out of stagnant secretion from the prostate cavities is facilitated by the complex action on the prostate gland of stimulating electrical impulses of the catheter electrode and pressure pulses from the rectum created by the pneumatic massager.

A common disadvantage of the methods described in patents RU 2008036 and RU 2248228 is that the electric current flowing between the conductive head of the catheter and the indifferent electrode located under the patient’s sacrum causes contraction of a significant muscle group and only partially stimulates muscle contractions of the urethra and capsule of the prostate .

The disadvantage of the device described in patent RU 2008036 is the low efficiency of the withdrawal of stagnant secretion through the holes in the catheter head, as well as trauma to the edges of the holes of the urethral mucosa as a result of the generated vacuum. Under the action of discharge, the mucous membrane of the prostatic urethra is sucked to the edges of the holes and multiple hematomas (the effect of suction of the mucosa) are formed in the contact area, which can cause increased stagnation in the prostate due to post-traumatic urethral edema and, in addition, complications that can be problematically corrected even by surgical endourethral methods (post-traumatic urethral stricture).

The disadvantage of the method described in patent RU 2248228 is that leaching of stagnant secretion is carried out without adequate circulation of the leaching solution (removal of particles of washed stagnant secretion from the leaching area), which reduces the effectiveness of treatment. In the process of leaching stagnant secretions from the prostate, in the zone of interest (the prostatic urethra and the “dead zone” of the catheter) remain, and can again penetrate the prostate gland, stagnant products containing pathogenic flora. As a result of this, the removal of washed particles of stagnant secretion may not occur completely, which reduces the effectiveness of the described method.

The aim of the invention is to increase the effectiveness of drainage of the prostate and reduce the traumatic effect on the mucous membrane of the urethra during the drainage process.

These goals are achieved through the use of a catheter having two electrodes interconnected by elastic strings made of a dielectric material, for example, nylon. The catheter has a system for supplying and removing the liquid treatment solution, which circulates the treatment solution in the area located between the electrodes of the catheter. The system for supplying and removing the treatment solution is made in the form of elastic dielectric tubes of various diameters. The tube for supplying the solution passes through the internal cavity of the tube to remove the solution and attaches to the proximal electrode. The tube for supplying the solution has an opening (cut-out) through which the solution is fed into the area between the electrodes of the catheter. The tube for removal of the solution is attached to the distal electrode of the catheter. The solution is removed from the area between the electrodes through the annular gap between the outer walls of the solution supply tube and the inner walls of the cavity of the solution removal tube. The channels of the tubes have external tight leads through which the supply and removal of the treatment solution. The electrodes of the catheter, by means of insulated from each other electrical conductors in a dielectric sheath, are electrically connected to the corresponding current-supplying electrodes located on the outer shell of the tube for removing the treatment solution. The electrical conductors connecting each of the electrodes of the catheter with the corresponding current-conducting electrode are located in a separate cavity made in the wall of the solution removal tube.

To drain the prostate, a catheter is inserted into the urethra so that the proximal electrode of the catheter is located behind the external sphincter of the bladder. In this case, the distance between the electrodes of the catheter is selected so that the ducts of the glandular lobes of the prostate gland are located in the region between the electrodes of the catheter. The catheter is fixed in the urethra by compressing the catheter electrodes with the external and internal bladder sphincter. Since the proximal electrode is connected to the distal electrode via elastic strings, a compressive force acts on the proximal electrode from the side of the urethral walls, which ensures reliable retention of the catheter in the urethra.

Drainage of the prostate is carried out by alternately or simultaneously electrically stimulating the prostate gland and flushing the ducts of the acini with a healing solution. Electrical stimulation of the prostate gland is carried out by connecting current-conducting electrodes of the catheter to the electrical leads of the electrical stimulator. The ducts of the glandular lobules are washed by feeding a treatment solution through the supply tube into the urethral cavity between the proximal and distal electrodes of the catheter catheter and then removing it through the tube cavity to remove the treatment solution. For more effective drainage of the ducts of the acini, the treatment solution is fed into the cavity between the proximal and distal electrodes under pressure. The maximum excess pressure is determined by the degree of obturation of the electrodes with the walls of the urethra and can be controlled by the presence of a solution at the exit site of the catheter from the urethra.

The use of two electrodes in the catheter, in the cavity between which the ducts of the glandular lobes of the prostate gland are located, allows to achieve the most effective muscle contraction of the urethra and capsule of the prostate gland as a result of electrical stimulation. Effective muscle contraction of the urethra and capsule of the prostate gland during electrical stimulation can significantly increase the effectiveness of drainage.

The use of elastic strings connecting the proximal and distal electrodes of the catheter allows you to maximize the usable area on which the draining of the acini. In addition, the presence of elastic strings made, for example, of nylon, eliminates the possibility of injury to the mucous membrane of the urethra when creating a discharge in the urethra, for example, after removal of the treatment solution. The use of elastic strings connecting the proximal and distal electrodes of the catheter eliminates the possibility of suction of the mucous membrane at the edges of the suction opening and thereby significantly reduces the trauma of prostate drainage when using this invention.

The use of channels of supply and removal of the treatment solution in the catheter allows for effective washing of the ducts of the prostate gland and the withdrawal of stagnant secretions. The possibility of constant circulation of the treatment solution during drainage can significantly reduce the possibility of re-penetration of particles of washed stagnant secretion through the already cleaned ducts into the prostate gland and thereby significantly increase the effectiveness of the treatment when using this invention.

A brief description of the drawings.

Figure 1 shows a General view of the catheter.

On Figa, shows a catheter in section.

Figure 3 shows a section of the electrodes of the catheter in the cross section of elastic strings.

Figure 4 shows a cross section of the channels of the catheter tubes.

The implementation of the invention.

Figure 1 shows a General view of the catheter according to this invention. The proximal electrode 1 and the distal electrode 2 are interconnected by elastic strings 3. The electrodes 1 and 2 are made, for example, of stainless medical steel. The elastic elements 3 are made of elastic dielectric material, for example, from nylon fishing line. The number of elastic strings connecting the electrodes 1 and 2 may be different, for example, four. An elastic dielectric tube 4 is attached to the distal electrode 2. The tube 4 can be made, for example, of PVC. The junction of the electrode 2 and the tube 4 is sealed by a dielectric compound 5. The electrodes 1 and 2 are electrically connected by electrical conductors to the corresponding current-supplying electrodes 6 and 7 located on the outer surface of the tube 4. The inner cavity of the tube 4 is connected to the outlet 8, designed to drain the treatment solution . To the outlet 8 is attached a sealing cuff 9, through which the tube 10, designed for the introduction of a therapeutic solution. The cuff 9 is made, for example, of rubber. The tube 10 is made, for example, of PVC.

On figa shows a section of the front of the catheter. An electric conductor 11 is attached to the electrode 1. An electric conductor 11 having a dielectric sheath passes through the corresponding holes in the electrodes 1 and 2. The conductor 11 is attached to the electrode 1 at point 12. Reliable electrical contact at the attachment point of the wire 12 is provided, for example, by spot welding or soldering. Additionally, reliable electrical contact between the electrode 1 and the conductor 11 can be achieved by pressing the conductor 11, the head 13 of the electrode 1. The head 13 is attached to the electrode 1 by means of a threaded connection. The head 13 is made, for example, of stainless medical steel and has a streamlined shape that facilitates the insertion of a catheter into the urethra. A tube 10 is attached to the head 13, passing through the central hole of the electrode 1. The tube 10 has an opening (cut-out) 14, intended for supplying a therapeutic solution between the electrodes 1 and 2. The distance between the electrodes 1 and 2 is fixed by the strings 3. The system of strings 3, which are made, for example, of nylon fishing line, is made in such a way as to have a sufficient degree of stiffness, allowing the catheter to be inserted into the urethra and at the same time a sufficient degree of elasticity, allowing bending at insertion of a catheter into the urethral canal.

An electric conductor 16 is attached to the electrode 2 at point 15. Reliable electrical contact at the attachment point 15 of wire 16 is provided, for example, by spot welding or soldering. The electrical conductors 12 and 16 are electrically isolated from each other due to the presence of a dielectric sheath and are placed in a separate cavity made in the wall of the tube 4. The junction of the electrode 2 with the tube 4, as well as the contact point 15 and the entry point of the conductors 12 and 16 into the cavity of the tube wall 4, it is sealed with a dielectric compound 5. The electrode 2 has a central hole 17 through which the tube 10 passes into the internal cavity of the tube 4. The treatment solution is removed from the gap between the electrodes 1 and 2 through a stake The back gap between the inner wall of the Central hole 17 and the outer wall of the tube 10 and then through the annular gap between the wall of the inner cavity of the tube 4 and the outer wall of the tube 10.

2B shows a section through the back of the catheter. Electrical conductors 11 and 16, respectively connected to the proximal and distal electrodes of the catheter, are brought out of the cavity of the tube wall 4 to the outside and are attached to the current-carrying electrodes 6 and 7 at points 18 and 19, respectively. Reliable electrical contact at the attachment points 18 and 19 of the conductors 11 and 16 is provided, for example, by spot welding or soldering. The tube 4 is connected to the outlet 8, designed to drain the treatment solution. To the outlet 8 is attached a sealing cuff 9, through which the tube 10, intended for the introduction of a therapeutic solution.

Figure 3 shows a section of the front of the catheter in the plane of the cross-section of the strings. The strings 3 enter the corresponding holes in the electrodes 1 and 2 and are fixed, for example, by melting the ends of the nylon strings in the cavity of the holes when the electrodes are heated above the melting temperature of the thermoplastic material of the strings. To increase the reliability of fixing the strings in the corresponding holes of the electrodes, additional corrugation can be applied to the inner surface of the holes, for example, by threading. The presence of a corrugated surface of the holes in which the ends of the strings are melted provides reliable fixation of the strings in the holes of the electrodes and, respectively, of the electrodes 1 and 2 to each other.

Figure 4 shows a cross section of the channels of the catheter tubes. A tube 10 for supplying a therapeutic solution is placed inside the cavity of the tube 4. In the wall of the tube 4 there is an additional cavity in which the electrical conductors 11 and 16 are connected, connecting the proximal and distal electrodes of the catheter with the corresponding current-supplying electrodes.

Claims (3)

1. A catheter for treating chronic prostatitis, comprising a dielectric tube with an electrode fixed to the end of the tube, characterized in that the catheter has a proximal electrode that is connected to the distal electrode fixed to the end of the tube, the catheter has channels for supplying and using elastic dielectric strings and drainage into the area between the proximal and distal electrodes of the solution of the treatment fluid, and the distance between the proximal and distal electrodes is selected so that when maximum DUTY catheter electrode for external sphincter of the bladder ducts of glandular prostatic lobes are located in the region between the proximal and distal electrodes of the catheter. 2. The catheter according to claim 1, characterized in that the proximal and distal electrodes are electrically isolated from each other and are electrically connected to the respective electrically isolated current-conducting electrodes located on the outer surface of the catheter’s dielectric tube. 3. The catheter according to claim 1, characterized in that the inner channel of the dielectric tube with a distal electrode attached to it is used as a channel for withdrawing the treatment solution, and the distal electrode has an opening through which the tube for supplying the treatment solution, which is fixed to the proximal electrode, has an opening through which the treatment solution is supplied to the area between the electrodes of the catheter.