RU51339U1 - DEVICE FOR LIQUID FEEDING FROM CLOSED CAVITAS - Google Patents

Abstract

The utility model relates to the field of medicine and is intended for the collection of fluid from closed organs, for example, cystic formation. The purpose of the utility model is to increase the efficiency of processing cystic formations. The device contains a two-channel needle connected to a source of vacuum and a compressed medium, the proposed device allows processing the internal cavities of cystic formations with minimal labor and minimal trauma, which in turn will increase efficiency and shorten the treatment time. The simplicity of design and ease of use make it widely applicable in the surgical departments of medical institutions.

Description

The utility model relates to the field of medicine and is intended for the collection of fluid from closed organs, for example, cystic formation.

A device for drainage of cavities containing an elastic tube (1) is known.

The disadvantage of this device is the low efficiency of drainage.

Known puncture needle used to relieve tension of the gallbladder, made in the form of a curved pointed tube with a cannula (2).

The disadvantage of this needle is the low efficiency of the drainage of the cystic formation.

Known drainage device of the gallbladder containing a perforated elastic tube (3).

The disadvantage of this drainage is the low reliability of the drainage of the cystic formation.

Known drainage device containing two elastic perforated tubes and combining their elastic sleeve (4).

The disadvantage of this device is the increased complexity of its use in the drainage of cystic formations.

A device is known for puncture of a cavity and insertion of a drainage tube, comprising a hollow stylet, a bypass tube, an outer elastic tube and an inner elastic tube (5).

The disadvantage of this device is the increased invasiveness in the treatment of cystic formations.

A device for draining cavity formations is known, containing an elastic perforated tube (6).

The disadvantage of this device is the lack of reliability of its operation during drainage of the cystic formation.

A device for draining cavity formations is known, containing a perforated elastic tube and a fixing element (7).

The disadvantage of this device is the increased complexity in the drainage of cystic formations.

A device for collecting fluid from closed cavity formations is known, containing an elastic tube, a needle, guiding and fixing elements, and sources of vacuum or a compressed medium (8).

The disadvantage of this device is the low efficiency in the drainage of cystic formations.

Also known is a device for collecting fluid from closed cavities, containing a needle, an elastic tube and a vacuum source (9).

The disadvantage of this device is the low efficiency of the drainage of cystic formations.

The purpose of creating a utility model is to increase the efficiency of processing cystic formations.

This goal is achieved by the fact that the needle is made of two channels with holes on the lateral surface of the distal section, with a blind pointed end and two cannulas at the proximal end for connection to vacuum and compressed media, the vacuum and compressed media are made in the form of a cylindrical housing in which an annular piston with a rod mounted for movement along a tube placed along the longitudinal axis of the housing, one end of which extends into the piston space of the housing, forming a source of vacuum mind, and the second end of the tube, equipped with a cannula, is located on the distal end of the body, and in the distal section of the body on the tube there is an additional annular piston, the under-piston space of which forms a source of compressed medium connected by a cannula located on the distal end of the body with the aspiration channel of the needle , a hole is made on the side surface of the housing between the main and additional pistons, the volume of the vacuum source leaves 1.2 ÷ 2.0 of the volume of the source

compressed medium, the device can be made of biologically and chemically inert polymeric material.

Comparison of the proposed device with others known in the field of medicine, showed its compliance with the criteria of a utility model.

The utility model is illustrated by graphic material. Figure 1 shows a drawing of parts of a vacuum source and a compressed medium; figure 2 shows a two-channel needle, a General view; figure 3 shows a General view of the source of vacuum and compressed medium in the initial position, section; figure 4 shows a section aa in figure 3; figure 3 shows a General view in the working position of the vacuum source and the compressed medium; figure 6 shows a variant of using a vacuum source and a compressed medium, a section.

A device for collecting fluid from closed cavities contains a cannula with aspiration 1 and irrigation 2 channels with a blind pointed end 3, holes 4 and 5 on the lateral surface of the working distal section and cannulas 6 and 7 at the proximal section for connection with a source of compressed aspiration medium and vacuum . The source of compressed medium and vacuum is made in the form of a cylindrical housing 8 with a cover 9. In the housing 8 there is an annular piston 10 with a rod 11. The piston 10 is mounted for movement along a tube 12 mounted along the longitudinal axis of the housing 8. One end of the tube 12 extends into the over-piston the space of the housing 8, forming a source of vacuum 13, and the second end of the tube 12 is equipped with a cannula 14 located on the distal end of the housing 8. In the distal section of the housing 8 on the tube 12 there is an additional annular piston 15, the piston space is which forms a source 16 of compressed aspiration medium, connected by cannula 17 with cannula 6 of the aspiration channel 1 of the needle. The cannula 14 of the tube 12 is connected to the cannula 7 of the irrigation channel of the needle. On the proximal surface of the piston 15, stops 18 are made. On the lateral surface of the housing 8, a hole 19 is made between the piston 10 and the piston 15. The volume of the vacuum source 13 can be 1.2–2.0 times the volume of the source 16 of the compressed medium.

The device can be made of biologically and chemically inert polymeric material. The housing 8 can be made of translucent chemically and biologically inert polymeric material.

The proposed device for the treatment (aspiration and irrigation) of closed cavities, for example, congenital and parasitic cystic formations, is used as follows.

Case 8 is filled with an aspiration solution. To do this, finger 20 clamp the hole 19 of the housing 8. Lower the piston 10 by pressing on the rod 11. The increased pressure in the piston space will lower the piston 15 down, i.e. to the end of the distal end. Raising the piston 10 by the rod 11 in the piston space creates a vacuum (vacuum), which will lift the piston 15 up and will fill the piston space with aspiration fluid. Stop blocking the hole 19 with a finger 20 and lift the piston 10 up. The housing 8 is in its original position (see figure 3). The execution of the housing 8 from a translucent material allows you to visually control the aspiration and irrigation of the cavity of the cystic formation.

Cannula 6 and 7 needles are combined with cannula 17 and 14 of the housing 8.

Under the control of ultrasound, the needle is brought to a cystic formation and its wall is punctured. Pressing the rod 11, the piston 10 is carried out to the distal end of the housing 8. As a result, a reduced pressure (vacuum) is generated in the supra-piston space 13, and the cystic contents enter the needle cavity through the irrigation channel 2 and the tube 12. Air located in the housing 8 between the pistons 10 and 15 exits through the hole 19. The piston 10 is lowered, contacts the stops 18 of the piston 15 and simultaneously closes the hole 19. Simultaneously with the further advancement of the piston 10, the piston 15 moves. The aspiration fluid through the aspiration channel 1 needle enters the cavity of the cystic mass. Thus, aspiration and irrigation of the contents of the cystic formation occur simultaneously (see FIG. 5).

If necessary, in the course of work it is possible, within certain limits, to regulate the amount and ratio of aspiration and irrigation

liquids by closing the hole 19 of the housing with a finger 20 of the hand 8. When closing the hole 19 with the finger of 20 and moving the piston 10 downward (toward the distal end of the housing 8) in the piston space between the pistons 10 and 15 an increased pressure is generated which will move the piston 15 and supply an aspiration solution into a cystic formation (see Fig.6) with its simultaneous suction.

Thus, the proposed device allows with minimal labor and minimal trauma to process the internal cavities of the cystic formations, which in turn will increase the efficiency and reduce the treatment time.

The simplicity of design and ease of use make it widely applicable in the surgical departments of medical institutions.

INFORMATION SOURCES:

1. US patent No. 4182342, class. A 61 M 25/00, 1980.

2. Auth. testimonial. USSR No. 1532006, class A 61 B 17/34, 1989.

3. The catalog "Ruch Gastroenterologie, chimrgie, drainage" 111/2, 1970, p. 32, Fig. 223300.

4. Auth. testimonial. USSR No. 1012920, class A 61 M 27/00, 1983.

5. Auth. testimonial. USSR No. 5445347, class A 61 B 17/34, 1977.

6. Catalog "Ruch", t.II, Urologie, 1967, p.40, f.2671.

7. Auth. testimonial. USSR No. 1426595, cl. A 61 M 27/00, 1988.

8. Auth. testimonial. USSR No. 938981, class A 61 M 17/42, 1980.

9. Guide to surgery. M., Medgiz, 1960, p. 62.

Claims (4)

1. A device for collecting fluid from closed cavities, containing a hollow needle connected to a vacuum source and a compressed medium, characterized in that the needle is made of a two-channel with holes on the side surface of the distal section, with a blind pointed end and two cannulas at the proximal end for connection to vacuum sources and compressed media. 2. A device for collecting fluid from closed cavities according to claim 1, characterized in that the source of vacuum and compressed medium is made in the form of a cylindrical body, in which an annular piston with a rod is installed, mounted to move along a tube placed along the longitudinal axis of the body, one end of which extends into the over-piston space of the body, which forms a vacuum source, and the other end of the tube, equipped with a cannula, is located on the distal end of the body, and in the distal section of the body on the tube there is an additional the second annular piston, the piston space of which forms a source of compressed medium, connected by a cannula located on the distal end of the body with the aspiration channel of the needle. 3. A device for collecting fluid from closed cavities according to claim 2, characterized in that an opening is made on the side surface of the housing between the main and additional pistons. 4. A device for collecting fluid from closed cavities according to claim 2 or 3, characterized in that the volume of the vacuum source leaves 1.2 ÷ 2.0 volume of the source of compressed medium.