RU2285456C2 - Method for surgical treatment of nephroptosis - Google Patents

Abstract

FIELD: medicine, operative urology.

SUBSTANCE: one should fulfill lumbotomic access towards a kidney in X intercostal area. While preparing the kidney for fixation it is necessary to carry out decapsulation of certain part of the upper renal pole followed by covering the part of this pole with a proportional plate out of porous titanium nickelide. Then the kidney should be fixed in normal position due to moving and pressing it towards diaphragm with the part of the upper pole covered with the plate out of porous titanium nickelide. The suggested innovation enables to decrease traumatism of surgical interference and simplify the technique conducted.

EFFECT: higher efficiency of therapy.

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Description

The invention relates to medicine, namely to the technique of operative urology.

Pathological mobility of the kidneys leads, as a rule, to their omission, kink of the ureters and blood vessels of the kidney, impaired outflow of urine with dangerous consequences for health. The task of surgical correction of the position of the kidneys (nephropexy) is reduced to reposition of the kidney, fixing it with an anatomical and physiological correspondence as close to normal as possible. A variety of fixation techniques gave rise to a multiplicity (about 300) of nephropexy methods, and the history of their proposal marks periods of private success and grievous failure.

A known method of surgical treatment of nephroptosis is the operation of Rivoir [Pytel A.Ya., Lopatkin N.A. About the operation of Rivoir and its modifications as the most physiological methods of nephropexy. // Urology and Nephrology. 1965. No4. C.3-7].

The operation includes lumbotomic (from the lumbar side) access to the kidney and supracapsular (on the recommendation of O.A. Adyldaev) fixation of the kidney returned to normal position with a flap of the split large lumbar muscle. The method is widespread due to the relatively high solvency results. Its disadvantage is the need for a wide (up to 15 cm section length) exposure of the retroperitoneal space. In this case, the muscles of the peritoneum-lumbar region intersect, disrupting the innervation, blood and lymph circulation of the muscles of the lateral abdomen. The consequence is a long rehabilitation period and a high probability of postoperative complications (hernias, atony of the peritoneal wall, etc.).

To reduce invasiveness, modern laparoscopic techniques and appropriate methods of surgery are used. A known method of nephropexy [V.N. Stepanov, Z.A. Kadyrov "Atlas of laparoscopic operations in urology". Ed. Miklosh, M., 2001. P.116-120], during which 4 cuts are made on the peritoneal wall to install trocars, the peritoneum is cut up to a length of 10 cm, ventilating the kidney using a telemonitor and endoscopic instruments. To expand the operating volume and facilitate manipulation in the abdominal space create pneumoperitoneum by insufflation of carbon dioxide. The mobility of the kidney is limited by fixing it with a flap of the large lumbar muscle.

The operation is used, despite significant disadvantages: the method is technically complicated in terms of composition and scrupulous correctness of the surgeon's actions, which prevents damage to blood vessels, spleen, liver, the kidney itself and other tissues. Gas insufflation poses a threat of gas embolism and mediastinal emphysema. Surgical equipment and supplies are expensive. The duration of the operation is great - from 70 minutes to 2.5 hours.

Known methods of nephropexy based on fixing the kidney for its capsule to the ribs [S.P. Fedorov] [Atlas of operations on the organs of the genitourinary system. A.P. Chukhrienko, A.V. Lyulko. M .: Medicine. 1972. S. 39]. These methods are technically complex and non-physiological, since they are unilaterally aimed at eliminating disturbed topographic-anatomical relationships. The kidney loses physiological respiratory mobility, which is normally due to its attachment to the fascia of the diaphragm. The need for respiratory mobility of the kidney for normal blood supply and passage of urine is currently considered proven.

A known method of surgical treatment of nephroptosis, taking into account and eliminating this drawback [T.L. Tomusyak. Anatomical and physiological substantiation of diaphragmatic fascial fixation of a pathologically displaced kidney. // Surgery. Number 4. 1979. S. 94]. It includes lumbotomy access to the kidney below the XII rib, preparing the kidney for fixation, reposition and fixation of the kidney. Preparation of a kidney for fixation consists in its mobilization in all departments except the upper pole, a thorough revision, and elimination of the revealed pathology. After hydraulic preparation with novocaine, on the costal edge of the diaphragm, a fascial flap on the leg oriented with a long size to the kidney is cut out and isolated. The kidney maximally displaced to the diaphragm is fixed by stitching the fascial flap to its fibrous capsule. Thus, the fixed kidney makes an excursion within 2-3 cm in a coordinated and synchronous manner with the diaphragm. An experimental study and examples of clinical application show a good efficiency of the method.

The disadvantages of the method are the complexity of surgical operations and high invasiveness due to wide surgical access. The greatest similarity of the specified analogue is selected as a prototype of the invention.

The technical result of the proposed method is to reduce trauma, simplifying the actions of the surgeon.

The specified technical result is achieved by the fact that in the method of surgical treatment of nephroptosis, including lumbotomy access to the kidney, preparation of the kidney for fixation, installation in a normal position and fixation of the kidney to the diaphragm, wound closure, lumbotomy access is carried out in the X intercostal space, include in the preparation of the kidney for fixation decapsulation of the portion of the upper pole of the kidney, which is covered with a plate of porous titanium nickelide commensurate with it, fixes the kidney in a normal position by moving and pressing it to the diaphragm the upper pole covered with a plate of porous titanium nickelide.

The dominant feature that ensures the attainability of the technical result is the fixation of the kidney to the diaphragm by means of a plate of porous titanium nickelide. The adhesion of soft tissues and porous titanium nickelide is due to the forces of intermolecular interaction at the interface of two media under capillary conditions. The current effect is detected experimentally. Laboratory studies on a purebred dog showed that the adhesion strength at the pole of the kidney is sufficient to reliably maintain (maintain) the kidney in its normal position. The amplitude of the respiratory excursion of the diaphragm, which has become the supporting element of the suspension of the kidney, corresponds to its natural mobility.

Decapsulation of the kidney surface area in the upper pole region is due to the same reason - an increase in adhesion strength. It has been experimentally proven that the kidney parenchyma is not inhibited from close contact with bioinert material, such as titanium nickelide.

Granulation tissue adjacent to the surface of the porous implant contains a large number of fibroblasts, capillaries, neoplasms, infiltrated by lymphocytes, single leukocytes, plasma cells, macrophages. Vessels and capillaries, including newly formed, are full-blooded.

The surgeon's steps to install and fix the kidney are extremely simplified and are reduced to installing the plate on the decapsulated area and simultaneously pressing the kidney to the diaphragm. The inviolability of the remaining paranephral tissues and the psoas major muscle means less trauma compared to the prototype operation.

The difference in access location is due to the involvement of the upper portion of the kidney projected onto the lumbar surface of the body in the X intercostal space and the reduction in the required volume of the surgical field.

The clinical use of the method is illustrated by photographs and a diagram in which:

Figure 1. Access to the operated kidney in the X intercostal space.

Figure 2. The application of a porous nickelide titanium plate to a naked kidney.

Figure 3. Scheme of the operation.

As a concrete example, confirming the attainability of the technical result, it seems that the method is implemented during surgical correction of kidney mobility in the urology department of the Novosibirsk Regional Clinical Hospital.

Example:

Patient B., 34 years old, was admitted to the hospital with complaints of periodic dull pain in the right lumbar region, aggravated by physical activity over the past 14 years. The examination established a diagnosis of nephroptosis on the right of the second degree. In the standing position, the kidney shifts down by 14 cm, while in the upper third of the ureter an S-shaped inflection is formed (Fig. 3). The patient underwent nephropexy surgery according to the proposed method.

The method is as follows.

Open access to the kidney was carried out in the X intercostal space of the lumbar region in the position of the patient on the operating table on the left side (figure 1). Exit access directly to the upper pole of the kidney. The upper pole is decapsulated over an area of about 6 cm ² . A plate of porous titanium nickelide with dimensions and shape corresponding to this section is laid on the exposed area (Fig. 2). Plate thickness 0.6 mm. Pore size 10 ÷ 1000 microns. At one moment, the kidney with the plate is pressed against the diaphragm and is thereby fixed (Fig. 3).

The wound is sutured in layers and tightly with the final intradermal suture. The belly is bandaged for the next 3-5 days. Postoperative monitoring of blood pressure and T-body content was carried out. In the first two days, non-narcotic analgesics were used. Antibacterial therapy was not carried out. The sutures were removed on the 7th day and the patient was discharged for home and outpatient recovery. On a survey urography, lying and standing, a kidney mobility of up to 2 cm was revealed, which is a natural norm. Renal blood flow and urodynamics are normalized, i.e. basic functional indicators of the kidney. The pain disappeared.

Statistics of similar operations carried out by the indicated method indicate a high (up to 98%) their viability, preservation of functions, restoration of the anatomical height and physiological mobility of the kidneys.

The methodical refinement of the operation, moderate professional exactingness and the availability of technical means meet the criteria of the invention of "industrial applicability".

Claims (1)

A method of surgical treatment of nephroptosis, including lumbotomic access to the kidney, preparing the kidney for fixation, placing it in a normal position and fixing the kidney to the diaphragm, closing the wound, characterized in that the lumbotomic access is carried out in the X intercostal space, in the preparation of the kidney for fixation include decapsulation of the upper pole the kidneys, which are covered with a porous titanium nickelide plate commensurate with it, fix the kidney in a normal position by moving and pressing it to the diaphragm with a portion of the upper pole covered with a square a porous TiNi.

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