RU2294766C2 - Device for applying endoscopic hydropressure treatment, irrigation and aspiration - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has main tube having an additional tube attached to it. Valve mechanism is available on proximal part of the additional tube for controlling liquid supply and connected to pump of 4-5 atm via hose. The distal part of the hose is curved so that bend is at the level of distal main tube end. Clock stone having hole of 0.2 mm diameter is available in additional tube lumen 2-4 mm proximally with respect to the tube bend. Distal portions of both tubes are enclosed into cylindrical nozzle 16-20 mm diameter and 3-4 cm large height with two circular grooves of 6-7 mm in width and to 3 mm in depth dividing the cylinder into three equal parts. Spherical recess having hole in bottom is available on distal cylinder end. Four openings are available on proximal bevel in front of each other. Distal section of the additional tube opens at on the distal nozzle bevel. The nozzle is fixed in a way that distal section of the main tube is positioned on the boundary separating its middle and upper one/third.

EFFECT: enhanced effectiveness of treatment; reduced suction effect manifestations.

3 cl, 1 dwg

Description

The invention relates to medicine, namely to surgery.

Known irrigator-aspirator (aquapurator) for endoscopic sanitation of the abdominal cavity, which consists of a metal tube with a cut at the end and has on one part 4 additional openings on the walls for spraying liquid, and on the other part, valves for regulating the influx and outflow of fluid, and which is connected by hoses to a pump forcing liquid and a container for collecting flowing-out sanitation products (WISAP Aqua-Purator 1610 User Manual).

The disadvantage is the low efficiency of cleaning the walls of the cavities, as well as the suction of moving organs and tissues during aspiration.

The technical result of the invention is to improve the quality of rehabilitation and reduce the suction effect.

The technical result is achieved by the fact that an additional tube is attached along the main tube. The sections of both tubes opposite to the valve mechanism are located inside the nozzle, which is a cylinder with rounded chamfers and with two circular grooves that divide the cylinder into three equal parts. At the end of the cylinder opposite the valve mechanism, there is a spherical recess with an opening at the bottom. In circular grooves, there are 4 oval openings opposite each other. The chamfer closest to the valve mechanism has 4 openings opposite each other. The slice of the additional tube opposite to the valve mechanism opens at the nozzle facet distant from the valve mechanism. In the lumen of the additional tube there is a clock stone with a through hole. On the opposite nozzle the end of the additional tube has a valve mechanism that regulates the flow of fluid and is connected by a hose to the pump.

The drawing shows a General view of the device.

The device consists of a tube 1 with a slice 2 at one end. At the other end there is a valve mechanism 3, which provides the inflow and outflow of liquid through two hoses 4 from the irrigator-aspirator 5. On the opposite side of the valve mechanism of the main tube there is a nozzle 6, which is a cylinder. The cylinder has a chamfer 7 farthest from the valve mechanism and a chamfer 8 closest to it and two circular grooves 9, dividing the cylinder into three equal parts. At the end opposite the valve mechanism, there is a spherical recess 10 with an opening 11 at the bottom. In the circular furrows there are 4 oval holes 12 opposite each other. On chamfer 8 there are 4 holes 13 opposite each other. An additional tube 14 is attached along the main tube 14. A slice 15 of the additional tube 14 opposite to the valve mechanism opens on the chamfer 7 of the nozzle 6 farthest from the valve mechanism. In the lumen of the additional tube 14 there is a clock stone 16 with a through hole 17. There is a valve face on the opposite nozzle of the additional tube 14 a fluid control mechanism 18 and connected by a hose 19 to a pump 20.

The device operates as follows: in the presence of effusion and / or untreated walls of the cavity, the device is inserted inside through the port under the control of the image on the monitor. The nozzle 6 is immersed in the effusion so that the holes 13 on the chamfer 8 are not covered with liquid. By turning on the irrigator-aspirator 5, the effusion is removed. If the nozzle 6 is clogged with clots or large flakes of fibrin, then by feeding the liquid through the main tube 1, the holes 12 and 13 are cleaned. By alternating irrigation and aspiration, free effusion and suspension are removed from the cavity. In the presence of overlays on the walls of fibrin, hydropressive treatment of such areas is performed. To do this, the distal section 15 of the additional tube 14 is directed to the necessary sections and a fine-flowing fluid flow, for example, an antiseptic, is supplied from the distance of 2-10 cm by turning on the valve mechanism 18. The resulting suspension is removed through the main tube 1.

The proposed device combines an aquapurator with a special nozzle and a device for hydropressive processing. Using a nozzle reduces the suction effect. The device allows to simplify the course of the operation by reducing the number of necessary tools. The use of the device during video endoscopic operations for purulent-inflammatory diseases of the abdominal or thoracic cavities, especially for fibrinous inflammation, will allow for high-quality cleaning of the walls of the cavities. The device can be made of plastic and used once or from metal and sterilized.

Claims (3)

1. A device for endoscopic hydropressive treatment, irrigation and aspiration, consisting of a tube having a slice on one end and a valve mechanism for adjusting the flow and outflow of fluid on the other, characterized in that an additional tube is attached along the main tube, and sections of both of which are opposite to the valve mechanism the tubes are located inside the nozzle, which is a cylinder with rounded chamfers and with two circular grooves dividing the cylinder into three equal parts, while on the opposite valve According to the cylinder end, there is a spherical recess with a hole at the bottom, and in circular grooves there are 4 oval holes opposite each other, on the chamfer closest to the valve mechanism there are 4 holes opposite each other, the section of the additional tube opposite the valve mechanism opens on the chamfer far from the valve mechanism nozzles, in the lumen of the additional tube there is a clock stone with a through hole, on the opposite nozzle the end of the additional tube has a valve mechanism, adjustable yuschy fluid supply hose and coupled to the pump. 2. The device according to claim 1, characterized in that the device is made of metal. 3. The device according to claim 1, characterized in that the device is made of plastic.