RU2071732C1 - Device for carrying out compression anastomosis of hollow organs - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has two clamping oval rings 1 manufactured from titanium nickelide and rigidly connected one to another enabling relative opposing movements. Rings 1 are joined with S-shaped ends of titanium nickelide rods 2 crossing each other like X letter and belonging to parallel planes so that their concave end portions oppose each other. Rods 2 are connected with axle 3 at the point of crossing. S-shaped ends of rods 2 are connected with rings 1 on their diametrically opposed surfaces. Rods 2 optionally have heat insulation coating and are manufacturing as double-sided scissors. EFFECT: enhanced effectiveness of operation. 3 cl, 4 dwg

Description

 The invention relates to medicine, namely to surgery for joining hollow organs.

 A device is known (AKA-4 apparatus, Vneshtorgizdat Prospectus, 1990) for creating a compression seamless anastomosis during operations on the digestive tract, consisting of a device handle with a mechanism for setting the stitching gap and fixator, the working part of the apparatus and the squeezing elements.

 The squeezing elements in the form of latex rings with fastening clips are fixed on the working part of the apparatus. To bring the squeezing elements to the site of anastomosis, the apparatus is carried out transrectally (through the anus), or through an additional hole in the digestive tube above or below the site of anastomosis. The ends of the digestive tube to be connected are fixed between the squeezing elements, when the handle is pressed, the edges of the hollow organ are squeezed between the elastic elements and fixed with staples, forming a strong airtight seam. At the same time, excision of the excess tissue and the formation of a central hole using an annular scalpel occurs. The persistent head of the apparatus with cut off excess intestinal walls is removed along with the apparatus.

 When using this design, the following disadvantages arise: a) during transrectal injury of the intestinal mucosa, followed by bleeding from the site of damage and additional infection of the anastomotic site and the abdominal cavity; b) when the device is carried out through an additional hole in the intestinal tube near the anastomosis zone, a manual suture is necessary on this hole, which increases the risk of complications in the postoperative period in the form of insolvency and infection.

 A device is also known (the magazine Implants with shape memory, 1992, N 3, pp. 12-18), made in the form of two hemispheres with a compression element in the form of a spring between them, the ends of which are fixed on the arcs of the hemispheres. A compression spring acting as a drive and made of a nickel-titanium alloy, for example ТН-10, which has the shape memory effect, is cooled, deformed before the anastomosis is applied, and the hemispheres are moved apart by a sufficient distance and placed in the distal and proximal intestinal tract, gaps the intestines are pulled together by pre-applied purse string sutures around the spring. Due to the shape memory effect, upon contact heating, the spring takes its original shape, bringing the hemispheres together, the intestinal walls are tightly clamped between the compression rings of the device’s hemispheres.

 The disadvantages of this design.

 1. During the form restoration of the spring, the alignment of the hemispheres is possible, their contacting surfaces may slip relative to each other in the plane of contact, i.e. the walls of the hollow organ are not compressed.

 2. When fixing the ends of the intestinal tube around the spring between the hemispheres, excess tissue of the edges of the intestine is located between the turns of the spring, which leads to uneven form of restoration of the turns of the spring, ie the force of squeezing the tissues of the intestinal tube decreases, the possibility of bacterial permeability from the intestinal lumen increases, the need for additional sutures from the intestinal wall increases, i.e. thickening of the scar of the anastomosis.

 The closest in technical essence to the claimed object and selected as a prototype, is a device made in the form of a metal clip of titanium nickelide, has two parallel turns in contact along the generatrix (Journal of Implants with shape memory, 1992, N 3, p. 19- 21). Before applying the anastomosis, the device is cooled and its turns are bred to the desired angle. Then the anastomosed organs come together using the seams of the holders, at a distance of 0.5 cm from the line of contact of the organs, two punctures are made through which two cooled and diluted turns of the device are introduced. The role of the drive is played by the part of the turn opposite to the free ends of the separated turns of the device, which is deformed by torsion. Due to the shape memory effect, upon contact heating, the turns of the device take their original shape, squeezing the walls of the anastomosing organs together. The clamped area of the tissue inside the device is dissected to create the initial patency through the anastomosis. On the outer edges of the punctures in the walls of the hollow organs, 3 nodal sutures are superimposed. After 6-9 days, the device independently is rejected into the lumen of the hollow organ and exits naturally, and in its place an anastomosis is formed.

 The disadvantages of this design are as follows.

 1. The design feature implies the mandatory application of a manual suture, and in connection with this, a rough scar will form, which may adversely affect the function of the compression anastomosis as a whole.

 2. Manual sutures increase the infection of the areas of the anastomosis.

 3. The healing part of the anastomosis is secondary.

 4. Dissection of the restrained tissues inside the device with an additional tool can lead to slipping of the squeezed walls from the turns of the device.

 5. The use of this device allows the formation of anastomoses only of the type "side to side".

 The objective of the present invention is to create a device that eliminates the imposition of manual seams on the hole, which prevents the formation of a rough scar in this place, as well as dissection of tissues inside the paper clip with an additional tool.

 This object is achieved in that a device for compression anastomosis of hollow organs, containing two pressure rings of titanium nickelide, rigidly interconnected with the possibility of oncoming movement, characterized in that the rings are interconnected by S-shaped ends of nickelide rods intersecting in the form of an X titanium placed in parallel planes and oriented by end concavities towards each other, while at the intersection the rods are connected by an axis, and the S-shaped ends of the rods are connected with rings on their opposite surfaces, and the rods are in the form of scissors with the possibility of bilateral cross disadvantaged device within the tissue.

 The invention is illustrated by drawings, where in FIG. 1-2 shows the device in a compressed state; in FIG. 3 and 4 in a diluted state.

 A device for compression anastomosis of hollow organs consists of 2 clamping oval rings 1 made of nickel-titanium, interconnected by two rods 2, also made of nickel-titanium, X-shaped lying in parallel planes. In the middle, at the intersection of the rods, they are connected by an axis 3, which ensures the mobility of the oval rings 1, their movement along the longitudinal axis and parallel to each other, i.e. coaxiality of the compressing surfaces during mold restoration is created. The rods 2 at the ends 4 are S-shaped bent and facing concavities 5 in pairs towards each other. The ends of the rods are rigidly fixed on the opposite sides of the 6 oval of each ring and are diametrically oriented along the large diameter of the oval of the ellipse. The rods can be coated with heat-insulating plastic by spraying.

 Due to the fact that during the restoration of the structure due to the effect of the metal with the shape memory, the edges of the anastomosed organ come closer together, the connecting rods act as a drive, bringing together the rings, and double-sided “scissors” that crush the walls of the organ to be stitched together that are restrained inside the device, they select a section, which, depending on the estimated crushing time, can be, for example, round, ellipsoid, etc. The radius of curvature of the rods, which act as drives, is designed so that when breeding rings and the straightening of the curves there is no residual deformation exceeding 30%, which in turn retains the calculated compressive force between the rings.

 The device can be used to anastomose hollow organs, for example, end-to-end colon, common bile duct, and side-to-side bowel. With surgical intervention, for example, on the colon, the device operates as follows.

After resection of the intestinal section, purse string sutures are applied directly under the clamps. The compression device is cooled in a sterile physiological saline solution (+4, +8 ^o C), the pressure or compression ellipsoidal rings are parted at a certain distance and held with a clamp in the center of the intersection of the rods. The bends of the rods are made in the same plane with the previously calculated radius of curvature. The breeding of the rings is carried out after cooling the device by breeding the rods by straightening the S-shaped bends of the latter. In this case, the residual deformation is not more than 30%. The heat-insulating coating of the rods prevents their premature heating, which for a longer time keeps the device in position with the rings apart, which in turn allows the rings to be introduced atraumatically to the ends of the hollow organ. The ends of the intestine are dissected with a scalpel along the clamp, without damaging the purse string suture, the prepared device with ellipsoidal rings is alternately inserted into the gaping ends of the intestine with tying purse string sutures. Then the device is released from the clamp, and under the action of contact heating of the rods, their shape is restored, bends and oval rings appear at the ends, moving towards each other, infringe the walls of the ends of the intestine. After the rings are closed, the restrained intestinal walls inside the device are crossed by crossed scissor rods, restoring patency through the anastomosis. When a choledocho-duodeno anastomosis is applied, anastomosed organs come together with two sutures. 5 mm from the line of contact in the walls of the intestine and common bile duct, punctures are made with a length equal to half the large diameter of the ellipse, with purse string sutures at the edges of the punctures. A manufactured device with rings diluted after cooling is inserted into punctures of anastomosed organs, followed by tying purse string sutures. With subsequent compression and dissection of the walls, which are restrained inside the device by crossed rods, patency through the anastomosis is restored.

 7-9 days after the formation of the scar along the perimeter of the compression, the structure self-detaches.

 Example.

 Patient S., 55 years old, medical history N 1148. Diagnosis: stenotic tumor of the sigmoid colon. The operation was carried out as follows. Laparotomy, bowel resection, end-to-end compression anastomosis. Pirus anus devulsion. Under ETN, median laparostomy. Audit. In the middle section of the S-intestine, a 4x4 cm tumor is palpated, circularly narrowing the lumen to 0.8 cm. The intestine is clamped, moving 20 cm from the tumor in the proximal direction and 15 cm distal. The intestine ends are prepared taking into account blood circulation, bowel resection . The cut surface is treated with 5% tincture of iodine. The edges of the intestine are mobilized taking into account the absence of tension when applying an anastomosis. Under the clamp, purse string sutures were placed on the ends of the intestine. The compression device is cooled in sterile saline, the rings of the device are divorced to a sufficient distance, holding the clamp in place of the intersection of the rods. The ends of the intestine are cut off by a clamp without damaging the purse string suture. The device is alternately inserted into the gaping ends of the intestine, with tightening of purse string sutures. After closing of serous surfaces of the intestine, compression and patency through the anastomosis were monitored. Rare gray-serous sutures around the perimeter of the anastomosis. Suturing a defect in the mesentery. Control of hemostasis. Stitches on the middle wound. Bandage. Pirus anus devulsion.

Claims (3)

 1. A device for compression anastomosis of hollow organs, containing two clamping oval rings of titanium nickelide, rigidly interconnected in the possibility of oncoming movement, characterized in that the rings are interconnected by S-shaped ends of the titanium nickelide rods intersecting in the form of X, placed in parallel planes and oriented by end concavities towards each other, while at the intersection the rods are connected by an axis, and the S-shaped ends of the rods are connected with the rings on their diametrically opposite surfaces.  2. The device according to claim 1, characterized in that the rods are made with a heat-insulating coating.  3. The device according to paragraphs. 1 and 2, characterized in that the rods are made in the form of bilateral scissors.

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