RU152166U1 - RENAL STENT - Google Patents

Abstract

1. Renal stent containing a hollow tube made of an elastic material, having a mainly straight part and associated perforated distal and proximal curved ends, each in the form of a curl of a spiral with one revolution, made with the possibility of straightening and subsequent spontaneous return to its original shape, characterized the fact that the perforated distal and proximal curved ends, each in the form of a curl of a spiral, are located in a plane inclined relative to the mainly rectilinear part of the hollow tube and, in this case, the mainly rectilinear part and the perforated distal and proximal curved ends are conjugated through a radial curved section, part of which is made in the same plane with the curl in such a way that the spiral curl of each end is concentric with respect to the mainly rectilinear part of the stent. 2. The renal stent according to claim 1, characterized in that the perforated distal and proximal bent ends, each in the form of a spiral curl, are located in a plane perpendicular to the generally rectilinear part of the stent.

Description

The utility model relates to medicine, namely, to the construction of stents that can be used in the treatment of various renal pathologies, in particular, by intrauterine stenting of the fetal kidneys with obstructive malformations of the genitourinary system.

There are a wide variety of renal stents that are used in the treatment of various renal pathologies, the most common of which are currently stents with pigtail curls (pigtail - pig tail) in the form of a pig tail at the ends. These stents contain a hollow tube made of an elastic material, having a mostly straight part and the perforated distal and proximal curved ends associated with it, each in the form of a curl of a spiral with one revolution, made with the possibility of straightening and subsequent spontaneous return to its original shape (see, for example published on the Internet site http://www.sibmeds.ru/katalog catalog of SibMed LLC). To date, no stents have been developed for intrauterine stenting of the fetal kidneys. The disadvantages of the known stents include the insufficient reliability of its fixation due to the small area of its support on the surrounding tissues, since the stent is installed in such a way that the curls of the stent spiral are located almost perpendicular to the surrounding tissues (in fact, the curl contacts only a small part). In view of this, there is the possibility of an undesired and accompanied by pain sensation of spontaneous migration of the stent, - expulsion into the amniotic fluid or retraction into the fetal kidney, up to the accidental spontaneous extraction of the stent from the working area.

The proposed utility model is aimed at solving the problem and achieving a technical result, consisting in increasing the reliability of fixation of the stent and, accordingly, reducing the possibility of its unwanted spontaneous migration, as well as in reducing the material consumption of the stent by reducing the size of the curls.

This technical result is achieved by the fact that in the renal stent, containing a hollow tube made of elastic material, having a mainly rectilinear part and perforated distal and proximal curved ends associated with it, each in the form of a curl of a spiral with one revolution, made with the possibility of straightening and subsequent spontaneous return to the original shape, each perforated distal and proximal curved end in the form of a spiral curl is located in a plane inclined relatively mostly straight the linear part of the hollow tube, while the mostly straight part and the perforated distal and proximal curved ends are mated through a radial curved section, part of which is made in the same plane with the curl in such a way that the spiral curl of each end is concentric with respect to the basically rectilinear part of the stent .

In this case, it is preferable that each perforated distal and proximal curved end in the form of a spiral curl is located in a plane perpendicular to the generally rectilinear part of the stent.

The location of each perforated distal and proximal curved end in the form of a spiral curl in a plane inclined relative to the mainly rectilinear part of the hollow tube provides increased stent fixation due to the possibility of support on surrounding tissues, which are usually inclined, generally perpendicularly , to the generally rectilinear part of the stent, with the entire curl area, which is substantially larger than the area of the curl support of the Pigtail system. Moreover, since the curl is supported by its entire area, its dimensions (for example, radius), in order to ensure the reliability of fixation that is identical with the Pigtail system, may be smaller than the size of the Pigtail system curls. The inclination of the plane in which the spiral curl is located can be different, for example, if the stent is installed in surrounding tissues of complex shape or it is physiologically advisable to install the mostly rectilinear part of the hollow tube at an angle to the planes of the curls, but it is mainly preferred in most cases that each perforated distal and proximal curved end in the form of a spiral curl was located in a plane perpendicular to the relatively mostly rectilinear part of the stent.

The conjugation of the mainly rectilinear part and the perforated distal and proximal curved ends through a radial curved section, part of which is made in the same plane with the curl, so that the spiral curl of each is concentric with respect to the mainly rectilinear part of the stent, also increases the reliability of fixation of the stent beyond due to the fact that this provides extensive support of the stent on the surrounding tissue with the whole curl and part of the radial curved section.

The drawing shows the proposed renal stent.

The renal stent includes a hollow tube made of an elastic material that has a mainly straight part 1 and the distal 2 and proximal 3 curved ends associated with it, each in the form of a curl of a spiral with one revolution, made with the possibility of straightening and subsequent spontaneous return to its original shape. The distal 2 and proximal 3 curved ends are provided with a perforation 4. In this case, each perforated distal 2 and proximal 3 curved end in the form of a spiral curl is located in a plane inclined, preferably perpendicular, relatively generally rectilinear part 1 of the hollow tube, and mated to each other through a radial curved section 5, part 6 of which is made in the same plane with the curl, so that the spiral curl of each end is concentric with respect to the mostly rectilinear part of the walls a.

The proposed renal stent is installed intrauterine to the fetus, namely, when installed, it is straightened on the conductor, and the distal end 2 of the stent is inserted into the renal pelvis of the fetus, and the proximal end 3 is placed in the amniotic cavity. After removal of the conductor, the distal 2 and proximal 3 ends twist again and take the form of curls that prevent the stent from falling out of the kidney of the fetus.

The proposed technical solution improves the reliability of fixation of the stent and, accordingly, reduces the possibility of its unwanted spontaneous migration, as well as reduce the free (extrarenal) part of the stent in the amniotic cavity.

Claims (2)

1. Renal stent containing a hollow tube made of an elastic material, having a mainly straight part and associated perforated distal and proximal curved ends, each in the form of a curl of a spiral with one revolution, made with the possibility of straightening and subsequent spontaneous return to its original shape, characterized the fact that the perforated distal and proximal curved ends, each in the form of a curl of a spiral, are located in a plane inclined relative to the mainly rectilinear part of the hollow tube and, in this case, the mainly rectilinear part and the perforated distal and proximal curved ends are conjugated through a radial curved section, part of which is made in the same plane with the curl in such a way that the spiral curl of each end is concentric with respect to the mainly rectilinear part of the stent. 2. A renal stent according to claim 1, characterized in that the perforated distal and proximal bent ends, each in the form of a spiral curl, are located in a plane perpendicular to the generally rectilinear part of the stent.

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