MD795Z - Controlled catheter - Google Patents

Abstract

The invention relates to the medical equipment, in particular to controlled catheters, and may be used in neurosurgery.The controlled catheter comprises a tube (1) of elastic material, consisting of working and non-working parts, guide threads (4), connecting the working part of the tube (1) with thread tensioning mechanisms (4), mounted on the non-working part of the tube (1), and also a wound cylindrical spring (3). The end of the working part of the tube (1) is made blunt with through holes (1'). The spring (3) is placed around the working part of the tube (1). The coils of the spring (3) are made with a defined pitch, at the same time in the first coil (3') of the spring (3), on the side of the blunt end, are made four bends, uniformly placed around its circumference, for the fixation thereon of four threads (4), placed between the tube (1) and the spring (3). Additionally, in the non-working part of the tube (1) along it is installed a guide rod (2), rigidly connected to the last coil of the spring (3). The spring (3) is covered with an additional tube (5). The thread tensioning mechanisms (4) are made with the possibility of regulating the amount of tension and are equipped with control knobs (11).

Description

The invention relates to medical equipment, in particular to guided catheters, and can be used in neurosurgery.

A catheter is known, which includes a tube made of elastic material and inflatable balloons [1].

The disadvantage of the known catheter is the lack of additional components necessary for the treatment of neurosurgical pathologies.

The closest solution presents a catheter, which includes a tube made of elastic material, which consists of working and non-functional parts, guide wires, which connect the working part of the tube with wire tensioning mechanisms, mounted on the non-functional part of the tube, as well as a cylindrical spiral spring [2].

The disadvantage of the known catheter is that the guide wires are placed outside it, and when manipulated they will traumatize the brain tissue.

The problem solved by the invention consists in developing a guided catheter for the treatment of neurosurgical pathologies, increasing the effectiveness of the catheter by ensuring the maneuverability of its working end.

The problem is solved by the fact that the guided catheter includes a tube made of elastic material, which consists of working and non-functional parts, guide wires, which connect the working part of the tube with wire tensioning mechanisms, mounted on the non-functional part of the tube, as well as a cylindrical spiral spring. The end of the working part of the tube is made blunt with pierced holes. The spring is placed around the working part of the tube. The turns of the spring are made with a determined pitch, at the same time in the first turn of the spring, from the blunt end, four bends are made, evenly placed on its circumference, for fixing on them four wires, placed between the tube and the spring. Additionally, in the non-functional part of the tube along it, a guide rod is installed, rigidly connected to the last turn of the spring. The spring is covered with an additional tube. The thread tensioning mechanisms are designed with the possibility of adjusting the tension size and are equipped with guide handles.

Thread tensioning mechanisms can be made with a worm.

The design of the catheter with the above-mentioned elements provides the possibility of introducing the guided catheter into the brain substance on a trajectory established by installing the guide rod in the non-functional part of the catheter tube, and then directing the working part of the tube to the required point. For the introduction of medicinal preparations, pierced holes are made in the end of the working part of the tube, which is made blunt. The guide wires do not traumatize the brain, since they are located between the tube and the arch, and the arch is covered with an additional tube.

The invention is explained by the drawings in Fig. 1-3, which represent:

- Fig. 1, guided catheter, general sectional view;

- Fig. 2, the first spiral of the arch with four curves, in an expanded view;

- fig. 3, guided catheter, section A-A of fig. 1.

The guided catheter includes a tube 1 made of elastic material, for example, silicone, which consists of working and non-functional parts, guide wires 4, which connect the working part of the tube 1 with wire tensioning mechanisms 4, mounted on the non-functional part of the tube 1, as well as a cylindrical spiral spring 3. The end of the working part of the tube 1 is made blunt with pierced holes 1'. The spring 3 is placed around the working part of the tube 1. The turns of the spring 3 are made with a determined pitch, at the same time in the first turn 3' of the spring 3, from the blunt end side, four bends 3", placed uniformly on its circumference, are made for fixing on them four wires 4, placed between the tube 1 and the spring 3. Additionally, in the non-functional part of the tube 1 along it, a guide rod 2 is installed, rigidly connected to the last turn of the spring 3. The spring 3 is covered with an additional tube 5. The wire tensioning mechanisms 4 can have different constructive solutions and are made with the possibility of adjusting the tensioning amount. A cylinder 6 is placed on the tube 1, rigidly connected to a disk 7. On the lower part of the disk 7 (Fig. 3) the wire tensioning mechanisms 4 are mounted, which for example are made with a worm (reducer with worm) and placed in a body 8. Each worm reducer consists of a gear 9 placed on a shaft 13 and a worm 10, at the end of which the guide handles 11 are fixed. A spool 12 is fixed to the gear 9, on which the guide wires 4 are wound.

The device operates in the following mode.

The guide rod 2, due to its rigidity, ensures the insertion of the catheter in the required direction into the brain. The depth of insertion should not be greater than the level of the cylinder 6. Medicinal preparations are introduced through the tube 1 made of elastic material, which through the pierced holes 1' penetrate into the required area. In the initial position, all the guide wires 4 are tensioned equally, and the tube 1 has the shape of a straight line (Fig. 1). After completing the curative procedure in the immediate vicinity of the end of the working part of the tube 1, it must be directed to another place, since the dimensions of the treatment application area are larger than the area adjacent to the holes 1'. The wire tensioning mechanisms 4 compress the spring 3 on one side, and the tube bends in this part, since the spring 3 is made cylindrically spiral, and the turns of the spring 3 are made with a determined pitch. Tensioning is carried out until the spring 3 is bent to the required degree, and then the treatment process continues. The additional tube 5 protects the brain from the arch 3. Four guide wires 4 are fixed mutually perpendicularly to the bends 3", made in the first turn 3' of the arch 3, which does not allow the wires 4 to move to one side during the treatment. Such their placement allows bending the arch 3 in any necessary direction, which is achieved in the following way. From the very beginning, the decision is made regarding the direction of the first bend of the arch 3. If this corresponds to the position of one wire 4, then the tension is applied only to this wire. However, if this direction is between adjacent wires 4, then the tension is applied simultaneously to these two wires 4. The tension is carried out by rotating the guide handle 11. This rotation leads to the rotation of the worm 10. The gear 9 rotates on the shaft 13, at the same time the coil 12 rotates, on which the guide wires 4 are wound. The shaft 13 of the gear 9 rotates in the housing 8 in bearings (not shown). All four housings 8 of the reducer are fixed on the disc 7, which is connected to the cylinder 6.

After completing the treatment process after the first bending of the spring 3 by rotating the handle 11 in the opposite direction, the spring 3 returns to its initial position, and then the catheter is bent in another direction (if this is necessary for the treatment), or the catheter is removed, if the treatment is completed.

1. RU 2012370 C1 1994.05.15

2. RU 2014098 C1 1994.06.15

Claims (2)

1. Guided catheter, which includes a tube (1) made of elastic material, which consists of working and non-functional parts, guide wires (4), which connect the working part of the tube (1) with wire tensioning mechanisms (4), mounted on the non-functional part of the tube (1), as well as a cylindrical spiral spring (3), characterized in that the end of the working part of the tube (1) is made blunt with holes (1') pierced; the spring (3) is placed around the working part of the tube (1); the turns of the spring (3) are made with a determined pitch, at the same time in the first turn (3') of the spring (3), from the blunt end side, four bends are made, uniformly placed on its circumference, for fixing thereon four wires (4), placed between the tube (1) and the spring (3); Additionally, in the non-functional part of the tube (1), a guide rod (2) is installed along it, rigidly connected to the last coil of the spring (3), while the spring (3) is covered with an additional tube (5); the thread tensioning mechanisms (4) are made with the possibility of adjusting the tensioning amount and are equipped with guide handles (11). 2. Guided catheter according to claim 1, characterized in that the thread tensioning mechanisms (4) are made with a worm.