RU2380026C1 - Method of hollow organ intubation and device for implementation thereof - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: group of inventions concerns medicine and can be used in diagnostics and treatment of various diseases of hollow organs. The method of hollow organ intubation involves insertion of a probe in the cavity of a hollow organ through a cylindrical body. In the body the probe of an elastic film is attached and turned out to form double walls. The external end of said elastic film is attached to the end of the cylindrical body with a clamp bushing and fixed with a first sleeve nut. The internal end of the elastic film is attached to the end of the clamp bushing and is fixed with a second sleeve nut. The clamp bushing has a socket piece in the middle. Through said socket piece, liquid is introduced into a closed space between double walls and by regulating the liquid volume, the probe is advanced and stretched in the cavity of the hollow organ.

EFFECT: ensured easier insertion of the probe in the cavity of the hollow organ, reduced time of procedure and more safe insertion of the probe in the cavity of the hollow organ ensured by eliminated friction of the probe walls and the hollow body walls.

2 cl, 1 ex, 5 dwg

Description

The invention relates to medicine and can be used in the diagnosis and treatment of various diseases of hollow organs.

A device for sensing a hollow organ, made in the form of a probe containing a hollow tube, a conductor with detachable elements and a clamp for their position. The detachable elements are made in the form of hollow cylinders, worn on the probe along its length, and have an outer braid. (USSR Author's Certificate No. 1500314, A61M 25/00, 1987).

A device for sensing a hollow organ and a method for introducing the device into a hollow organ, selected as a prototype, which is a probe that contains a hollow elastic tube with a blind rounded working end. The probe guide is made in the form of a coiled coil spring of tight winding and is placed in the thickness of the wall of the elastic tube. The working end of the probe is inserted into the cavity of the hollow organ, then it is advanced along the channel under investigation. In this case, translational motion is carried out by pushing the probe into the cavity of the hollow organ. (RF patent No. 20132366, A61M 25/00, Drozhzhin Yu.S., 1994).

The disadvantages of the known method of sensing a hollow organ and a device for sensing a hollow organ selected as a prototype is that the translational movement of the probe into the hollow organ is accompanied by friction of the probe walls against the walls of the hollow organ. Also, the probe can twist, which makes it difficult to advance and is not safe for the patient, as it can cause damage to the walls of the hollow organ. The procedure can take up to 2-3 hours.

The present invention solves the problem of easier insertion of the probe into the cavity of the hollow organ, reducing the time of the procedure and safer insertion of the probe into the cavity of the hollow organ, by eliminating the friction of the probe walls against the walls of the hollow organ.

The problem to be solved in the method of sensing a hollow organ, which consists in introducing the probe into the cavity of the hollow organ, is achieved by introducing the probe into the cavity of the hollow organ by introducing a cylindrical body into the hollow organ, in which the probe is fixed, made in the form of an elastic film with the possibility of turning out , a liquid is introduced between the walls of the elastic film, by controlling the volume of which the probe is advanced and then expanded in the cavity of the hollow organ. The problem to be solved in a device for sensing a hollow organ containing a probe is achieved by the fact that the probe is made in the form of an elastic film with the possibility of twisting and as a result forming double walls, the outer end of which is fixed to the end of the cylindrical body by a clamping sleeve and is fixed by the first union nut, the inner end is fixed to the end of the clamping sleeve and is fixed with a second union nut, the clamping sleeve has a fitting in the middle part for introducing fluid into the closed space formed dy probe walls.

Figure 1 shows a General view of a device for sensing a hollow organ, which is a device for implementing the method of sensing a hollow organ.

Figure 2 shows a probe made in the form of an elastic film, a device for sensing a hollow organ.

Figure 3 shows the outer and inner ends of the elastic film of a device for sensing a hollow organ.

Figure 4 shows the fastening of the outer end of the elastic film to the cylindrical body of the device for sensing a hollow organ.

Figure 5 shows the fastening of the inner end of the elastic film to the pressure sleeve of the device for sensing a hollow organ.

The device for sensing a hollow organ, shown in figures 1-5, contains a probe made in the form of an elastic film 1 (figure 2), with the ability to turn out and as a result forming double walls, with external 2 and internal 3 ends (figure 3 ) The outer end 2 of the elastic film 1 (Fig. 4) is fixed to the conical end of the cylindrical body 4 by means of a clamping sleeve 5 and is fixed by the first union nut 6. The cylindrical body 4 has an inner cone at one end corresponding to the outer conical end of the cylindrical body 7. Inner end 3 elastic film 1 (Fig. 5) is fixed to the opposite end of the clamping sleeve 5 by means of a second union nut 8, thereby forming a closed space between the walls of the elastic film 1, which is placed in of cylindrical housing 4. This clamping sleeve 5 in the side part has a fitting 9 for supplying fluid to the cavity an elastic film. The cylindrical body 4 can be made of metal or plastic, the elastic film 1 is made of polyethylene.

Consider the implementation of a method for sensing a hollow organ, for example, when probing a human intestine. A cylindrical body 4 is injected 4-5 cm, for example, into the rectum, through the nozzle 9 between the walls of the elastic film 1 is injected liquid (water), for example, using a syringe, a sufficient amount to stretch the elastic film 1. The elastic film 1 is straightened by increasing pressure in a confined space, which provides translational movement into the lumen of the hollow organ, while the elastic film repeats all the bends of the hollow organ, moving along the path of least resistance. Thus, damage to the shell of the hollow organ that can occur as a result of friction between the walls of the elastic film and the walls of the hollow organ is eliminated. Research time is also reduced. In the nozzle 9 for the expansion of the elastic film 1, you can enter both liquid and gas. The diameter of the elastic film, depending on the studied object, ranges from 1 mm to 1 cm. The length of the elastic film for examining the intestines is 1.5-2 m, for the stomach - 80 cm. The volume of injected fluid is determined by the length of the elastic film.

Compared with the prototype, both in the method of sensing a hollow organ and in the device for sensing a hollow organ, the problems of easier insertion of the probe into the cavity of the hollow organ, reduction of the procedure time and safer insertion of the probe into the cavity of the hollow organ by eliminating the friction of the probe walls against the walls are solved hollow organ.

Claims (2)

1. A method for sensing a hollow organ, comprising introducing the probe into the cavity of the hollow organ, characterized in that the introduction of the probe is carried out through a cylindrical body in which the probe is fixed from an elastic film that can be twisted to form double walls, the outer end of the elastic film being fixed to the end the cylindrical body with a clamping sleeve and is fixed by the first union nut, and the inner end of the elastic film is fixed to the end of the clamping sleeve and is fixed by the second union nut, while mnaya sleeve has in the middle of fitting, through which fluid is introduced into the enclosed space between the double walls and by adjusting the volume of liquid carried advancement of the probe, and then unfolding it into the cavity of the hollow body. 2. A device for sensing a hollow organ containing a probe, characterized in that the probe is made in the form of an elastic film with the possibility of turning out, and as a result, forming double walls, the outer end of which is fixed to the end of the cylindrical body by a pressure sleeve and is fixed by the first union nut , the inner end is fixed to the end of the clamping sleeve and fixed with a second union nut, the clamping sleeve has a fitting in the middle part, for introducing liquid into the closed space between the walls onda.

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