RU8236U1 - DEVICE FOR FORMING COMPRESSION BILIODIGEST ANASTOMOSES - Google Patents

Abstract

1. Device for the formation of compression biliodigestive anastomoses, consisting of a magnetic element made in the form of a parallelepiped, covered with a sealed shell, equipped with ears, characterized in that the shell of the magnetic element is additionally equipped with two ears located on the upper wide part of the device. A device for forming compression biliodigestive anastomoses, consisting of a magnetic element coated with a sealed shell, equipped with ears, characterized in that the magnetic element has the shape of a half cylinder, and the shell on the upper rounded surface has two ears, along the side surface of the magnetic element there is a spring rigidly fixed in the distal end of the through channel, the outer end of which has a groove. 3. A device for forming compression biliodigestive anastomoses, consisting of a magnetic element made in the form of a parallelepiped covered with a sealed shell, characterized in that in the central part of the magnetic element along its longitudinal axis there is a through channel in which a spring is rigidly fixed, the outer end of which has a groove. 4. A device for forming compression biliodigestive anastomoses, consisting of a magnetic element made in the form of a parallelepiped covered with a sealed shell, characterized in that a spring is fixed on the side surface of the magnetic element along its longitudinal axis, the outer end of which has a groove.

Description

DEVICE FOR FORMING COMPRESSION BILIODIGEST ANASTOMOSES

The utility model relates to medicine, intended for the treatment of obstructive jaundice with an occlusion level not higher than the mouth of the cystic duct.

Known surgical methods for creating biliodigestive anastomosis, widely used in clinical practice, as they allow the formation of an anastomosis of sufficient clearance (taking into account its scarring) for adequate bile outflow. A feature of the surgical treatment of patients with obstructive jaundice of tumor etiology is that it is performed against the background of liver failure and tumor intoxication, which undoubtedly increases the risk of postoperative complications and mortality in this category of patients. It is impossible not to mention other problems of the surgical method, namely: the possibility of the development of anastomositis due to the presence of foreign bodies (seams, clips) and biological permeability along the threads from the side of the lumen of the connected organs and, accordingly, the maintenance of productive inflammation.

Overcoming these problems in the surgical treatment of malignant biliary obstruction is associated with the use of precision operating techniques in experimental and clinical conditions, the use of a mechanical suture, and the application of seamless

compression anastomoses, both with the help of devices (AKA-2, fragmented rings - Valtrac), and with the help of power elements (permanent magnets, devices with a shape memory effect) (1, 2, 3, 4). However, for the implantation of such compression

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surgical devices also require laparotomy with the opening of the connected organs. Moreover, their delivery to the implantation zone and comparison is carried out manually or on a thread fixed in the body of the magnetic element (5, 6, 7).

The delivery of a pair of magnetic elements is carried out under X-ray endoscopic control into the lumen of the connected organs, on the one hand, by percutaneous transhepatic access to the lumen of the bile duct on the thread, conducted through a guiding catheter (duct magnetic element) and, on the other hand, through the oropharynx, esophagus, stomach into the lumen the duodenum (intestinal magnetic element) under the control of a fiberscope (8).

Known choledochiap (ductal) magnetic element, made in the form of a parallelepiped, covered with a sealed shell, with an eyelet of the same material in one of the ends of the magnetic element (8).

The disadvantage of this element is that the distal end of the magnetic element at the time of insertion into the fistula is not fixed relative to the axis of the conductor, thereby creating certain difficulties in conducting it to the implantation zone, up to trauma to the walls of the fistula with possible hemobilia.

Known intestinal magnetic element made in the form of a parallelepiped, but with a greater width on the compared surface than the choledochial magnetic element, which prevents the migration of a pair of magnets into the lumen of the biliary tract after the formation of the anastomosis, covered with an airtight membrane, with an eyelet from the same material in one of the ends magnetic element (8).

The disadvantage of this element is that at the time of introduction of the fibroscope-magnet complex, the field of view is limited by a protruding catheter with an attached intestinal element, which creates certain technical difficulties in the delivery and comparison of the magnet, the presence of a catheter with an intestinal magnet fixing thread in the nasal passage for the period of formation compression anastomosis creates a number of inconveniences for the patient, up to the danger of involuntary displacement of the magnet when the catheter is pulled from the outside. This, in turn, is dangerous from the point of view of the insolvency of the anastomosis.

The objective of the utility model is to reduce the invasiveness of the intervention and its complications, creating convenience of delivery and accurate mapping of magnetic elements in the implantation zone.

The problem is achieved in that the magnetic elements are equipped with rigidly fixed ears or springs.

In FIG. 1 shows a 1st embodiment of a device for implanting a ductal magnetic element through an external biliary fistula.

The device consists of a magnetic element 1, made in the form of a parallelepiped of magnetized material in an elastic shell 2 of a polymer material, hermetically covering the element, on the upper wide plane of the magnetic element along the longitudinal axis and in one of its ends 3 ears are rigidly fixed (Za, 36, Sv) made of shell material.

In FIG. 2 shows the process of implanting this device into the lumen of the bile duct.

On the free (proximal) end of the angiographic conductor 6, previously inserted through the formed bile fistula 7 into the lumen of the bile duct, a magnetic element 1 is inserted through the ears Za and 36, the thread 4 is fixed in the ear Sv and passed through the lumen of the pusher catheter (radiopaque hollow tube) 5 pull with one hand on themselves, fixing the magnetic

element 1 to the distal end of the catheter 5, and with the other hand - in the opposite direction push the magnetic element 1 through the end of the catheter through the external biliary fistula 7 into the lumen of the common bile duct along the angiographic conductor 6, as on a monorail. Under fluoroscopic control, the magnetic element is carried out to the implantation zone in the lumen of the bile duct, and then, loosening the tension of the thread 4, create conditions for free attraction to another magnetic element located in the anastomosed intestine. After installing the magnetic element 1, the angiographic conductor 6 is removed, removing it from the ears 3 and 36 of the elastic sheath 2. The catheter 5 is fixed to the skin, while the tension of the thread 4 holding the magnetic element is not required. The pusher catheter 5 with lateral perforations at the distal end for the period of formation of the anastomosis serves as an external decompression drainage.

In FIG. 3 shows a 2nd embodiment of a device for implanting a ductal magnetic element through an external biliary fistula.

The device consists of a magnetic element 1 made of a magnetized material in the form of a half cylinder, an elastic shell 2 of polymer material, hermetically covering the magnetic element, on the rounded surface of the half cylinder along the longitudinal axis two ears For and 36 of shell material are rigidly fixed. Along the lateral surface of the magnetic element 1, in the elastic shell 2 there is a through channel 4, in the distal end of which the spring 5 is rigidly fixed, the free end of the spring 5 has a groove 5a.

In FIG. 4 shows the process of implanting this device into the lumen of the bile duct.

nickname 6, previously inserted through the formed bile fistula into the lumen of the bile duct, through the ears Za and 36, a magnetic element 1 is inserted, springs 5 and 7 through the grooves 5a and 7a constituting the clutch lock, connected by a conductor 8, a catheter (X-ray contrast hollow tube) 9 is pulled over both springs and the clutch lock to the end against the end face of the magnetic element 1 and, moving it along the angiographic conductor 6, as a monorail into the lumen of the bile duct, is delivered to the implantation zone under fluoroscopic control. The angiographic conductor b is led out through the ears of Za and 36 of the magnetic element 1 after matching it with the intestinal magnetic element and left in the lumen of the bile duct, the catheter 9 is pushed to itself until the clutch lock is released, then the conductor 8 is pulled back from the spring 5 and grooves 5a and Ta, eliminating the clutch lock.

In FIG. 5 shows a 3rd embodiment of a device for implanting a duct-magnetic element through an external biliary fistula.

The device consists of a magnetic element 1 made of magnetized material in the form of a parallelepiped, an elastic shell 2 of polymer material, hermetically covering the magnetic element 1. In the central part of the magnetic element 1 along its longitudinal axis there is a through channel 3, in which the spring 4 is rigidly fixed in the proximal part of which there is a groove 4a.

In FIG. 6 shows the process of implanting this device into the lumen of the bile duct.

The magnetic element 1 is strung onto an angiographic guide conductor 6 previously introduced through the fistula through the spring 4, the grooves 4a and 5a and the spring 5. Then, using the grooves 4a and 5a, a clutch lock is made, the catheter 7 (radiopaque hollow tube) is pulled over both springs and the clutch lock until it stops at the end of the magnetic element 1. The end of the catheter 7 push the magnetic element 1 through the conductor 6 into the lumen of the bile duct under fluoroscopic control. Having reached the implantation site, the conductor 6 is removed, the catheter 7 is pulled back, releasing the clutch lock of the grooves 4a and 5a, and the clutch lock is eliminated. Released from fixation, the magnetic element 1 is compared with an intestinal magnet inserted into the corresponding section of the intestine anastomosed with the bile duct.

In FIG. 7 shows an embodiment of a device for implanting an intestinal magnetic element when performing hepaticoenteroanastomosis.

The device consists of a magnetic element 1 made of magnetized material, in the form of a parallelepiped, an elastic shell 2 of polymer material, hermetically covering the magnetic element 1, a spring 3 is rigidly fixed on the side surface of the magnetic element along its longitudinal axis, its free end has a groove Za.

In FIG. 8 shows the process of implanting this device into the intestinal lumen, for example, when performing hepaticoenteroanastomosis.

The rod-guide 5 is inserted through the spring 4, the clutch lock of the grooves 4a and 3a into the spring 3 of the magnetic element 1. An X-ray catheter 6, put on top of the spring 4, the clutch of 4a and 3a and the free end of the spring 3 is held against the end of the magnetic element 1 In this case, the proximal ends of the conductor and the radiopaque catheter 6 are fixed relative to each other, creating a single rigidly fixed complex, which, under fluoroscopic control, is introduced through the enterotomy

the hole of an isolated section of the small intestine intended for anastomosis and is brought to the implantation site of the intestinal magnetic element. After comparing it with the duct magnetic element, the radiopaque catheter 6 is fed back, the clutch lock of the grooves 4a and 3a is opened, the conductor 5 is pulled back and the magnetic element 1 is released from locking.

1. Kanshin N.N., Umarov A.U., Maksimov Yu.M. The method of mechanical compression opening of the lumen of hollow organs. Surgery, 1985, N 12, pp. 105-107.

2.Ziganshin R.V., Gunther V.A., Ginovker A.G. et al. Compression anastomoses in gastrointestinal surgery performed using an alloy device with shape memory. Surgery, 1990, N 8, pp. 115-120.

3.A.S. USSR N 1195984, IPC5 A 61 B 17/11, 1985

4. Gullichsen R., Havia T. and Yrjana J. Uhreg1epse with the Biofragmentable Ring in Intestinal Surgery. 10 World Congress of Gastroenterology. Los Angeles, 1994, Abstr. 3019P.

5. Kanshin H.H., Yakovlev S.I. Biliodigestive anastomosis using magnetic elements. Abstracts of the 7th All-Russian Conference of Surgeons Actual issues of abdominal surgery, Leningrad, 1989, p. 206.

6.Sore C. Evaluation of compression cholecystogastric and cholecystojejunal anastomoses in swine after peroral and surgical introduction of magnets. JVIR, 1995, 6, 546-552.

7.A.c. USSR N 1284523, IPC A 61 B 17/11, 1987.

8.Savelyev B.C., Avaliani M.V., Kapranov S.A. and others. Endoscopic biliodigestive anastomoses using magnetic elements. Surgery, 1993, N 3, pp. 3-8.

Claims (4)

1. A device for forming compression biliodigestive anastomoses, consisting of a magnetic element made in the form of a parallelepiped, covered with a sealed shell, equipped with ears, characterized in that the shell of the magnetic element is additionally equipped with two ears located on the upper wide part of the device.  2. Device for forming compression biliodigestive anastomoses, consisting of a magnetic element coated with a sealed shell, equipped with ears, characterized in that the magnetic element has the shape of a half cylinder, and the shell on the upper rounded surface has two ears, a spring is located along the side surface of the magnetic element, rigidly fixed at the distal end of the through channel, the outer end of which has a groove.  3. A device for forming compression biliodigestive anastomoses, consisting of a magnetic element made in the form of a parallelepiped covered with a sealed shell, characterized in that in the central part of the magnetic element along its longitudinal axis there is a through channel in which a spring is rigidly fixed, the outer end of which has groove. 4. Device for forming compression biliodigestive anastomoses, consisting of a magnetic element made in the form of a parallelepiped covered with a sealed shell, characterized in that a spring is fixed on the side surface of the magnetic element along its longitudinal axis, the outer end of which has a groove.