RU2308300C2 - Tip for surgical aspirator - Google Patents

Abstract

FIELD: surgical instrument.

SUBSTANCE: tip comprises hollow metallic housing and aspiration tube. The aspiration tube is mounted inside the housing and made in block with the connecting pipe for hose of the aspirator. The hollow housing receives the detachable head and has circular slots in its face. The opposite end of the housing is provided with a rectangular opening. The aspiration tube is mounted for permitting reciprocation and is provided with circular projections at its operation end. The projections are positioned for permitting entering the slots. The spring is interposed between the detachable head and aspiration tube. The end of the aspiration tube opposite to the operation end is provided with the threaded side opening for the bolt. The bolt is set through the window made for movement of the aspiration tube.

EFFECT: improved structure.

2 cl, 4 dwg

Description

The claimed technical solution relates to medical equipment, in particular to surgical instruments, and is intended for aspiration of biological fluids, in particular blood and urine, from an operating wound.

When performing surgical interventions, there always arises the need for aspiration from a wound of biological fluids, in particular blood and urine, from an operating wound. Aspiration is carried out by means of an aspirator. The aspirator consists of a container where biological fluid is taken; a device that creates a vacuum in said container; a tip, through which the surgeon directly takes the biological fluid from the surgical wound; a connecting tube that connects the container to the tip. The device creates a vacuum in the container, and therefore in the connecting tube and tip, which leads to the evacuation of biological fluid into the container through the tip and connecting pipe. In this case, the biggest problem is clogging of the tip holes with blood clots, freely lying tissue elements (scraps of necrotic tissue, elements of subcutaneous fat, fibrin flakes, etc.), as well as suction of various organs and anatomical structures to the aspirator holes).

The known aspirator of Kemerovo Yu.T. and Forisyuk L.N. [Kemerovsky Yu.T., Forisyuk L.N. Intestinal and peritoneal irrigators for the evacuation of stagnant intestinal contents and purulent exudate with ileus and diffuse peritonitis // Clinical Surgery. - 1969. - No. 6. - S.82-85], which consists of a collapsible metal head, a metal handle, a pumping system and an electric suction pump connected with rubber tubes. The head of the device consists of a cover and an external (suction) tube, which are screwed onto the expanded distal part of the internal (irrigation) tube. To supply oxygen and liquid from the head reservoir, in the cap and at the base of the expanded part of the inner tube, there are, respectively, holes with a diameter of 1 mm In the distal part of the outer tube there are holes with a diameter of 4 mm, sucking the contents of the intestine. The direction of fluid and gas flow outside and inside the suction tube prevents clogging of the suction holes and the suction of the intestinal wall, the handle consists of a main (suction) tube and an additional (irrigation) tube sealed to it. The distal part of this tube is located inside, the proximal part is outside the main one. On the outer circumference of the handle there are two locking rings and a small compression protrusion. The proximal end of the outer tube of the head and the distal end of the main tube of the handle are connected with a rubber (suction) intestinal probe 1.5 m long. There is a second thin (irrigation) rubber tube in its lumen connecting the proximal end of the inner tube of the head and the distal end of the additional handle tube. The delivery system consists of an oxygen cylinder with a reducer, a safety valve and an additional pressure gauge, and two communicating vessels-reservoirs such as Bobrov's cans, with a capacity of 3 l each. They are connected by injection rubber tubes with an oxygen cylinder and the outer end of the additional handle tube. In this case, the distal end of the discharge tube passes through both locking rings of the handle. Oxygen is supplied from the cylinder by pressure (200 mmHg) through the tube, first to the vessel-reservoirs, and then when the tube’s lumen is closed by means of a clamp and into the head tank from the vessel through the tubes and the head’s inner tube; with a blocked tube, liquid enters from the vessel through the tubes into the head reservoir in the same way. When pressing on the tube in the area of the compression protrusion or applying a clamp to its proximal section, the flow of oxygen and liquid from the injection system stops. After the liquid has been used up in the vessel, the position of the pressure tubes of the vessel is changed and the liquid in it is used. The vessel for refilling is turned off, for this purpose injection tubes are removed, which are immediately connected to ensure a continuous supply of oxygen. Intestinal contents, oxygen and flushing fluid enter the electric suction tank through the outer tube of the head, a rubber probe, the main tube of the handle and the suction rubber tube at negative pressure. The metal peritoneal irrigo-aspirator consists of a removable head and handle with suction and discharge tubes, which are connected to the previously described suction and discharge systems. The supply of oxygen under a pressure of 300 mm RT.article with aspiration at a pressure of 0.2 atm eliminates tissue suction. A disadvantage of the known aspirator is the design complexity.

Known aspirator Gataulina N.G. and Baykova B.A. [Gataullin N.G., Baykov B.A. Aspirator for evacuation of intestinal contents // Surgery. - 1972. - No. 2. - S.140-142], consisting of a rigid shaped tip and a two-channel rubber probe. The tip consists of a metal shaped body of a cylindrical shape with two diametrically opposite indented necks at the head for the convenience of moving the tip through the intestines, pipes for attaching the probe. The nozzle is a continuation of the internal suction tube, another nozzle communicates with the suction space of the tip body. In the case of the tip there is a central hole on the head side, three rows of cylindrical holes on the forming surface for suctioning the contents of the intestine. A two-channel rubber probe of an elliptical cross section with a length of 150 cm with suction and suction channels has at the distal end of the suction channel for 50 cm 16-20 cylindrical holes arranged in two rows in a checkerboard pattern. The suction channel with its proximal end is connected to the hose of the electric suction pump, and the suction channel is connected to the hose from the fluid reservoir, mounted on a tripod at a height of 1 m above the operating table level, using a three-way valve. When the electric suction pump is operating, the corresponding position of the tee ensures free air flow through the suction channel to the aspirator tip.

Known surgical aspirator model OH-10 [TU 64-1-2941-91], equipped with a replaceable tip, consisting of a hollow metal body with an olive-shaped rounded working end and circularly located holes made up to half the length of the body and the suction tube placed inside the body, made at the same time with a fitting under the suction hose. The specified device is selected as a prototype.

The main disadvantage of the prototype device is the inability to carry out a continuous aspiration process due to obstruction of the holes through which blood enters the aspiration channel with blood clots, scraps of necrotic tissue, etc., which have to be removed mechanically, removing the tip from the cavity and removing the hollow body, interrupting aspiration process.

The invention solves the problem of ensuring the continuous operation of the aspirator during the evacuation of blood, pus and other biological fluids from the body cavities by ensuring the cleaning of the holes of the aspirator tip without removing it from the cavity.

The problem is solved in that the hollow body of the aspirator tip at the end of the working end is provided with circularly located slots and has a thread on the inner surface for the head, and on the opposite side is equipped with a fitting for connecting to the hose; the suction tube placed inside the hollow body is made movable with the possibility of reciprocating motion and is provided at the working end with circularly located protrusions that move in the slots of the hollow body; the tip is equipped with a removable head, fixed to the end of the working end of the hollow body by means of a threaded connection, and, in addition, a spring is freely installed between the removable head and the movable suction tube; at the same time, a side hole with a thread for a bolt is made on the suction tube from the side opposite the working end, opposite which a window is made on the hollow body, through which a bolt is inserted into the hole of the suction tube and fixes it to the suction tube by means of a thread. In this case, the protrusions located on the suction tube are made with a bevel at an angle of 45 ° to the tube axis, and the removable head is provided with a spike on the inside.

The novelty of the device lies in the fact that the device ensures the continuity of the aspiration process and eliminates the need to remove the aspirator tip from the cavity for cleaning holes in case of obturation with biological material.

The essential features of the invention that affect the solution of the problem is the use of a combined mechanism for cleaning the tip of the aspirator, which includes elements of repulsion, dissection and pushing. In this case, the repulsion of the clots, as well as the sucked walls of the organs is carried out due to the presence of protrusions, beveled at an angle of 45 °, which eliminates damage to the walls of healthy organs. The dissection of the clumps that have fallen into the channel is carried out by compressing the spring, between the turns of which the clot is crushed. Pushing the dissected clots into the cavity of the suction tube is carried out by means of a spike of the removable head, onto which the dissected clot is strung while moving the suction tube.

Thus, the set of features of the device allows to ensure uninterrupted operation of the aspirator and to exclude injury to healthy organs when they are sucked to the slots of the aspirator tip.

The device (see Figs. 1-4) consists of a hollow body 1, inside which an aspiration tube 2, a spring 3, and a removable head 4 are placed. The hollow body 1 is provided with four slots 5 circularly spaced at equal distance from each other from the end of the working end 5 and on the inner surface has a thread 6 under the head 4, and on the opposite side is equipped with a fitting 7 for connection with the suction hose. In addition, a window 8 is made on the hollow body 1. The suction tube 2, placed inside the hollow body 1, is movable, with the possibility of reciprocating motion, and is provided on the working end with protrusions 9 arranged circularly at an equal distance from each other, respectively slots 5 of the hollow body. The outer diameter of the suction tube is equal to the inner diameter of the hollow body, which eliminates the possibility of side play. The protrusions 9 of the suction tube are made with a bevel at an angle of 45 ° to the axis of the tube. On the suction tube from the side opposite the working end, respectively, of the window 8 of the hollow body 1, a side hole 10 is made with a thread for a bolt 11, which acts as a mechanism for moving the suction tube inside the hollow body. The spring 3 is freely placed between the suction tube 2 and the removable head 4, which is fixed to the hollow body 1 by means of a thread. The removable head 4 has an olive-shaped rounding on the outside. On the inner side of the removable head 4 there is a spike 12.

The device is used as follows. The collection of the device is carried out in the following sequence. The suction tube 2 is inserted inside the hollow body 1 so that the protrusions 9 of the suction tube 2 fit into the slots 5 of the hollow body 1, the side opening 10 of the suction tube 2 must be opposite the window 8 of the hollow body 1. The bolt 11 is inserted through the window 8 of the hollow body 1 and fixed in the side hole 10 of the suction tube 2 by means of a threaded connection. Using a bolt 11, the suction tube 2 is moved as far as possible inside the hollow body to the side opposite to the working end, then the spring 3 is placed inside the hollow body 1, after which the end of the hollow body 1 is closed with the removable head 4, which is fixed to the hollow body 1 by means of a threaded connection . On the fitting 7 put on the suction hose. The device is ready to go.

The device operates as follows. The tip is inserted into the cavity containing the blood, and its aspiration begins. Spring 3 pushes the suction tube 2 to the side opposite to the working end. In this case, between the end of the protrusions 9 of the suction tube 2 and the end of the removable head 4 there remains an open space through which blood passes between the turns of the spring 3 into the channel of the suction tube 2 and then is removed. When blood clots clog slots 5 through which blood is evacuated, the surgeon moves the suction tube 2 inside the hollow body 1 using a bolt 11. In this case, the protrusions 9 on the working end of the suction tube 2, moving inside the slots 5 of the hollow body 1, push some of the blood clots out which is facilitated by the shape of the protrusions slanted at an angle of 45 ° 9. Those blood clots that have fallen into the body are cut by a spring 3, which is compressed by the surgeon's suction tube 2 and then pushed inside channel of the suction tube 2 by means of a removable pin 12 of the head 4. Then the surgeon releases the bolt 11. In this case the suction tube 2 attached to it a bolt 11 returns to its original position, opening the slit 5 for further aspiration of blood. Thus, the aspiration process is carried out continuously, without removing the tip from the cavity for cleaning it from clots. Thus, due to design features, the aspirator tip allows for uninterrupted operation of the aspirator, preventing obstruction of the holes, and thereby helps to reduce the total time of surgery.

Claims (3)

1. The tip of the surgical suction device, comprising a hollow metal body and an aspiration tube located inside the body, made integrally with a fitting for the suction hose, characterized in that the hollow body is equipped with a removable head mounted on the internal thread and has slots circularly located at the end, while on the opposite a rectangular window is made at the end of the casing, and the suction tube is mounted with the possibility of reciprocating motion and is equipped with circularly located on the working end protrusions arranged so as to enter the slots, wherein between the removable head and a spring of the suction tube, and on the suction tube on the opposite side of the working end is disposed lateral threaded hole for fastening a bolt inserted through a window made to move the suction tube. 2. The tip according to claim 1, characterized in that the protrusions are made with a bevel at an angle of 45 ° to the axis of the suction tube. 3. The tip according to claims 1 and 2, characterized in that the removable head is provided with a spike located on the inside.

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