RU2113245C1 - Device for continuous passage of urine - Google Patents

Abstract

FIELD: medicine; drainage of upper urinary tracts. SUBSTANCE: device is made of silicon rubber with retainers at ends and check valve in the form of tube with side holes and wall thickness of 0.1-0.2 mm. In case of long-term passage of urine from calyx-pelvis system to urinary bladder, bladder-ureter reflex does not develop. EFFECT: improved drainage of urinary tracts. 4 dwg

Description

 The invention relates to medicine, in particular to medical equipment, and relates to devices for drainage of the upper urinary tract.

 Known stent [1], which consists of an elastic tube with clamps at the ends, the wall of the stent throughout has perforations. Designed for prolonged drainage of the upper urinary tract. The fixators at the ends prevent the migration of the stent under the action of peristalsis of the ureter, as well as migration in the horizontal position of the patient. The disadvantage of the stent is the development of the vesicoureteral reflex during its use.

 The objective of the invention is the long-term passage of urine from the renal pelvis and ureter, prevention of regurgitation of urine from the bladder to the upper urinary tract.

 This goal is achieved in that the device for a long passage of urine from the upper urinary tract is made of silicone rubber in the form of a catheter, the ends of which are twisted in the form of spirals. The wall of one end, namely 2/3 of the catheter, has perforations, at the other end of the catheter there are two diametrically located perforations with a diameter of at least 1.5 mm and a non-return valve.

 In FIG. 1 shows the proposed device; in FIG. 2, 3 - check valve; in FIG. 4 - diagram of the operation of the device.

 A device for a long passage of urine is made in the form of a catheter 1 with clamps 2 in the form of spiral coils and perforations 3 at one end, made 2/3 of the size of the catheter, and two diametrically located perforations 4 at the other end of the catheter 1, above which a check valve 5 is fixed made in the form of a tube with a wall thickness of 0.1 - 0.2 mm with side holes 6 located diametrically to each other, and in a plane perpendicular to the plane of perforation 4.

The check valve 5 is made of silicone rubber and is rigidly fixed to the catheter 1 at a distance of 11 - 13 mm from the end of the tube. The ratio of the diameter d _{1 of the} catheter 1 to the diameter d ₂ of the valve 5 tube is 1: 2, and the ratio of the length l _{1 of the} valve 5 to the cut of the catheter 1 to the length l _{2 of the} valve 5 from the cut of the tube 1 is 2: 1.

 The device operates as follows.

 Before introduction into the urinary tract, the catheter 1 is put on a metal conductor (not shown), the ends of which, due to their elasticity, are straightened on the conductor. By means of another flexible tube (not shown) of the pusher, a catheter 1 is inserted into the pelvis retrogradely under the control of vision through the cytoscope. Then the conductor and the pusher are sequentially removed from the urinary tract. At the same time, the ends of the catheter restore their original spiral shape and provide fixation from the pelvis and bladder. Through perforations 3, 4, urine enters the cavity of the catheter and expires through a section of the catheter 1 and perforations into the cavity of the valve 5 and through the outlet of the valve 7 and diametrically located perforations 6 of the valve 5 enters the cavity of the bladder. If the passage of urine is violated when the valve 5 tube is bent, the outflow of urine is provided through openings 4 and 6.

 With increasing pressure in the bladder during urination, coughing and changing body position, valve 5 closes.

 The operation of the device is based on the laws of hydrodynamics, according to which, with increasing pressure in the bladder above the pressure in the pelvis, the walls of the valve overlap the lumen of the end of the catheter and the holes inside the valve.

 An example of the operation of the device 1.

 The device is connected to a funnel 8, the end of which is placed in a sealed vessel with liquid 9.

At a pressure (P ₁ ) greater _than pressure (P ₂ ), from the funnel 8, according to the laws of hydrodynamics, the fluid moves along the catheter 1 into the vessel 9. In this case, the elastic walls of the valve 5 are moved apart and the fluid through the catheter 1 and perforation 4 is poured into the vessel 9.

 With increasing pressure in the vessel 9 using a rubber bulb 10, the liquid from the vessel 9 rushes towards lower pressure, i.e. into the valve 5, at this time, the elastic walls of the valve 5 come together, which tightly close the end of the catheter 1 and perforation 4, the elastic walls of the valve adhere to the walls of the catheter and the walls stick together with the freedom of the valve part.

 Using the device allows for a long time to pass urine through the ureter without developing complications in the form of a vesicoureteral reflex, inflammation of the urethra, and relieve the patient of pain associated with increased pressure in the pyelocaliceal system.

Claims (1)

 A device for a long passage of urine, made in the form of a catheter with perforations and clamps in the form of spiral turns at its ends, characterized in that at one end of the perforation 2/3 of the catheter is made, and on the other there are two diametrically located perforations, above which are fixed non-return valve, made in the form of a tube with a wall thickness of 0.1 - 0.2 mm with side holes located diametrically to each other and in a plane perpendicular to the plane of perforations.

Images