RU2628460C2 - Method for transposition of lower-polar aberrated kidney vessel in case of hydronephrosis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: transposition of the lower polar aberrated kidney vessel during hydronephrosis is performed by a flap from the parietal peritoneum of the abdominal cavity lateral canal. A flap on the feeding leg is directed under the aberrated lower-polar vessel and the vessel is moves upwards by pulling from the ureterocutaneous segment. The stretched flap is fixed by the fibrous capsule of the kidney to its front surface.

EFFECT: method allows to exclude microcirculation disorders in the kidney capsule and cortical layer, as well as massive cicatricial process in the perirenal space.

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Description

The invention relates to medicine, specifically to urology and is intended for surgical treatment of hydronephrotic transformation of the renal pelvis.

The blood supply to the kidney is provided by the renal artery, which, as a rule, is divided into the posterior and anterior branches of the segmental arteries before entering the kidney. Both in turn branch in the renal tissue into arteries of the final type. But there are cases when segmental arteries begin directly from the aorta, and then from 1 to 2-3 or more vessels go to the kidney. Multiple arteries can supply 20-50% of the renal parenchyma, so their ligation is steadily leading to malnutrition of the corresponding organ segment. The presence of both single and multiple renal arteries in humans is the result of intrauterine growth retardation. In urology, the lower clinical aberrant (Lat. Aberrantis - deviating) vessel, which occurs in 70.8% of cases, begins close to the main renal artery, then goes further, curving, corresponding to the periphery of the renal pelvis, intersecting and compressing the pelvis-ureter segment, is of greatest clinical importance in urology. being the cause of its stenosis - 18-25% of cases (1).

A known method of fibromuscular transposition of the lower polar functioning vessels of the kidney (2), including the displacement of the lower polar vessels in the horizontal plane backward by holding between them and the ureteropelvic segment of the muscle flap on the feeding leg, cut from the large lumbar muscle, the free end of the muscle flap fits in its original place muscle and sutured with catgut. The lower-polar vessel, laid in this way, is located in the muscle sleeve - muscle tissue is located between it and the pelvis. However, this method also has a number of significant disadvantages. With mechanical damage to the striated muscle tissue, which is the large lumbar muscle, a degenerative degeneration process develops with its spread beyond the direct action of the altering agent, the so-called Tsenker necrosis [Zenker, 1864]. As a result of this, muscle fibers lose structural stability and merge into a homogeneous dense scar tissue (3). These subsequent cicatricial changes in the muscle flap create additional conditions for obstructing the outflow of urine from the pelvis, can narrow the aberrate lower polar artery located between them and interrupt the blood supply to the corresponding segment of the kidney.

Closest to the claimed invention is a method for the treatment of hydronephrosis with additional lower polar vessels, including mobilization, fixation of blood vessels to the fibrous capsule, while a flap is cut out of the fibrous capsule, one end of which is fixed to the kidney, the second is cut off and brought under the mobilized vessels that move proximal to the pelvis ureteral anastomosis, the free end of the flap is fixed with a clip to a fixed area of the flap. (four). This method is adopted as a prototype.

The disadvantages of this method are: cutting out a flap of a kidney fibrous capsule with an area of 8 cm ² leads to a violation of the vascular and nervous anastomoses of the capsule with the cortex of the kidney, which are actively involved in the regulation of intrarenal pressure (5). Dense adhesions form between the decapsulated portion of the kidney and the tissues surrounding the kidney, which grow into the kidney and compress the cortical layer of the kidney (6). The fibrous capsule of the kidney has minimal mechanical strength, which is subject to individual and age-related fluctuations (7), which makes it possible to rupture even with slight mechanical stress (8).

The problem to which the invention is directed, is to create a method of transposition of a peritoneal flap on the leg of a lower-polar aberrate vessel from the pelvic-ureteric segment of the kidney with hydronephrosis.

The problem is achieved due to the proposed method of transposition of the lower-polar aberrate vessel of the kidney with hydronephrosis, including the displacement of the lower-polar aberrate vessel upward from the place where it enters the kidney with the maximum distance from the pelvis-renal segment and its fixation using the peritoneal flap, while mobilizing the front surface of the kidney , pelvis, pelvis-ureteric segment and aberrate lower polar vessel, form a flap on the feeding leg from the parietal peritoneum the first channel of the abdominal cavity, the flap is carried out under an aberrate lower polar vessel and in a tense state is fixed to the fibrous capsule of the kidney on the front surface of the kidney.

In the inventive method, in comparison with the prototype, the displacement of the lower polar aberrate vessel of the kidney is performed by a flap of the parietal peritoneum, cut from the lateral canal of the abdominal cavity. This allows to exclude microcirculation disorders in the capsule and cortical layer of the kidney, as well as a massive scar process in the perinephric space due to the lack of regional decapsulation of the kidney.

In urological clinical practice, the use of the peritoneum to close the wounds of the kidney, fixation of the kidney with nephroptosis is known. In the proposed method of transposition of an aberrate lower polar vessel, the peritoneal flap is used for the first time.

A specific example of the proposed method is illustrated in the diagram (Fig. 1).

The pelvis 1, pelvis-ureteric segment 2 and aberrant lower polar vessel 3 are mobilized. A flap on the supply leg 4 is cut from the lateral canal of the abdominal cavity from the parietal peritoneum. The free end of the peritoneal flap 4 is carried out under the aberrant lower polar vessel 3, which is moved upward from the pelvis-ureteric segment 2. In a tense state, the flap is fixed to the fibrous capsule of the kidney with 5 sutures. The application of the proposed method in urology allows you to have a positive effect on eliminating an external obstacle in the form of an arterial vessel on the pelvis-ureteric segment without crossing the vessel and the threat of impaired blood supply to the kidney parenchyma.

An example (illustrated by photographs: Fig. 2-5). Patient Sh. 54 years old, was admitted to the department with a diagnosis of Right-sided hydronephrosis, renal colic. After performing multispiral computed tomography, the presence of an aberrate vessel was detected in the region of the pelvis-ureteric segment of the right kidney (Fig. 2, indicated by an arrow) with the development of hydronephrosis (Fig. 3, indicated by an arrow). Surgical treatment performed. After a right-side intermuscular lumbotomy, the anterior surface of the kidney and the anterior surface of the pelvis with the pelvis-ureteric segment were mobilized, and the presence of a lower-polar aberrate arterial vessel lying on the segment was established. The pelvis is hydronephrotic altered. An aberrate vessel was mobilized to increase mobility from the place of flow into the kidney and from the edge of the pelvis by 2 cm. From the lateral canal of the abdominal cavity, 2 cm higher from the antimesenteric edge of the colon, a flap was cut from the parietal peritoneum with a length of 8 cm and a width of 1.5 cm. The base of the flap is in the area of the diaphragm. The abdominal wound is sutured. Provisional holders were placed on the free end of the peritoneal flap. The flap was held under an aberrate vessel and, under tension, was fixed with sutures to the fibrous capsule of the kidney on the front surface in the region of the upper pole. The aberrate vessel is displaced by a flap from the pelvis-ureteric segment by 1.5 cm in the upper direction and was located on the front surface of the pelvis. The postoperative period was uneventful. At further observation after 2 years, multispiral computed tomography was performed. On the radiograph in the arterial phase near the aberrate vessel (Fig. 4, indicated by an arrow), the radius of curvature is changed to a larger one when it is in the transposed upper position. On the x-ray in the excretory phase there is a filling of the pelvis-ureter segment with a contrast agent with a decrease in the degree of dilatation of the pyelocaliceal complex (Fig. 5, indicated by an arrow).

According to the proposed method, surgical treatment was carried out in 6 patients with good clinical results.

This method is recommended for the surgical treatment of hydronephrosis caused by an aberrate lower polar vessel.

INFORMATION SOURCES

1. The coachman. Surgery of hydronephrosis and ureterohydronephrosis / I. Kucher. - Prague: State Publishing House of Medical Literature, 1963. - 221 p.

2. Vein V.V. Transposition of the lower polar vessels of the kidney with hydronephrosis / V.V. Vein, P.S. Chernenko // Materials of the Fourth Congress of Urologists of the Ukrainian SSR (September 4-6, 1985) / Congress of Urologists of the Ukrainian SSR. - Kiev, 1985 .-- S. 222-223.

3. Studitsky A.N. Experimental muscle surgery / A.N. Studitsky. - M .: Medicine, 1959. - 338 p.

4. RF patent No. 2233126, priority 05.05.2003, Mcl. A61B 17/00. Adopted for the prototype.

5. Kupriyanov VV On the value of the blood and lymphatic channels of the fibrous capsule of the kidney / B.V. Kupriyanov // Experimental surgery and anesthesiology. - 1965. - No. 3. - S. 48-51.

6. Volkova P.A. The fate of a fixed kidney / P.A. Volkova // Scientific notes of the Leningrad Medical Institute. - 1959. - T. 3. - S. 359-364.

7. Kuznetsov N.N. Microscopic structure and age-related changes in the capsule of a human kidney / N.N. Kuznetsov, B.P. Khvatov // Urology. - 1939. - No. 4. - S. 17-22.

8. Chukhrienko D.P. Nephroptosis / D.P. Chukhrienko, A.V. Cradle. - Kiev: "Health", 1969. - S. 113.

Claims (1)

The method of transposition of the lower polar aberrate vessel of the kidney with hydronephrosis, including the displacement of the lower polar aberrate vessel up from the place of its flow into the kidney with the maximum distance from the pelvis-ureteric segment and fixing it with a peritoneal flap, characterized in that they mobilize the front surface of the kidney, pelvis and pelvis of a lower polar vessel, a flap is formed on the feeding leg from the parietal peritoneum of the lateral canal of the abdominal cavity, the flap is carried out under an aberrate lower polar the vessel, by pulling it, move the vessel up from the pelvis-ureteric segment and, in tension, the flap is fixed to the fibrous capsule of the kidney on the front surface of the kidney.

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