RU2488361C1 - Plate for correction of funnel chest deformation - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical equipment and can be applied for correction of funnel chest deformation. Device for correction of funnel chest deformation contains plate from titanium alloy, which has end area with openings for ligature. Plate has additional middle and transit areas. Transit areas, each, are placed between middle area and end area, each end area being 15-60 mm long. Each transit area is 5-40 mm long, with: T₁=1.5-3 T₂, where: T₁ is width of middle area; T₂ is width of each end area. Width of transit areas changes evenly.

EFFECT: invention ensures reduced probability of complications in operations on elimination of funnel chest deformation, connected with perforation of soft tissues due to ensuring congruence of plate shape and chest, in reduction of deviation of plate ends from ribs, on which it rests, as well as reduction of probability of its migration.

3 cl, 2 dwg

Description

The invention relates to medical equipment and can be used to correct the funnel chest deformity.

During surgical correction of the funnel chest deformity, it is necessary to reposition the sternum in the correct position from the point of view of anatomy. In this new position, the sternum should be kept from six months to several years, necessary for the formation of altered bone-cartilaginous structures that provide stabilization of the sternum-rib complex in the correct position. To do this, during the operation, one or more plates are installed, passing behind the sternum and resting their ends on the ribs. So, a known method of stabilization using a metal plate, which is installed after a transverse osteotomy of the sternum and resection of the deformed part of the ribs. The plate is held behind the mobilized sternum and is fixed to the bone parts of the ribs using ligatures. The use of such a plate allows for good fixation of the sterno-costal complex (Geraskin V.I., Rudakov S.S., Vasiliev G.S., Gerberg A.N. “Magnetosurgical correction of the funnel-shaped deformation of the chest.” - M., Medicine, 1986, p. 17-18).

However, to install such a plate, a sufficiently long incision is required when performing sternum osteotomy and rib resection. Its use with a closed method of conducting through two small side incisions without mobilization of the sternum is difficult, because the pressure of the sternum on the plate, in this case, can be quite high and fraught with migration of the plate (tipping over) with the loss of the necessary correction of the sternum.

Closest to the claimed invention is a "Plate for the correction of funnel-shaped deformation of the chest" (RF Patent No. 2361536), which contains at the ends of the holes for fixing on adjacent ribs, and one of the ends of the plate has a T-shape.

The disadvantage of this plate is the difficulty of correcting its shape after installation to the patient. This is due to the fact that, as a rule, the shape of the plate is set before the operation according to the shape of the patient’s chest at the site of the proposed installation. However, after holding and turning the plate in the sternum, considerable force acts on it from the side of the sternum, which the plate must bend to the correct anatomical position. Due to the action of this force, the plate elastically changes its shape, and its ends resting on the ribs partially bend and move away from the ribs. This leads to the fact that the ends of the plate begin to press on the surrounding soft tissue and can perforate them. To avoid this phenomenon, doctors often try to create an excessive bend of the plate before its introduction in the expectation that after a turn under load, the shape of the plate will well match the shape of the chest. However, it is very difficult, and often almost impossible, to determine the effort to bring the sternum to the correct anatomical position for a particular patient. Therefore, to achieve complete congruency of the plate and chest after installation can only be additional deformation of the ends of the plate. However, this is extremely difficult to do since with a decrease in the base of the bend (decrease in the distance between the points of application of the load), the forces applied to the ends of the plate and necessary to change its shape increase. In this regard, the correction of the shape of the plate after its introduction is almost impossible.

The objective of the invention is to provide the possibility of correcting the shape of the plate to correct the funnel-shaped deformation of the chest before and after its installation by reducing the deformation forces of its end parts resting on the ribs, as well as increasing its lateral stability (resistance to rotation of the plate relative to the longitudinal axis).

The technical result consists in reducing the likelihood of complications of operations to eliminate the funnel-shaped deformation of the chest associated with perforation of soft tissues, by ensuring the congruence of the shape of the plate and chest, expressed in reducing the deviation of the ends of the plate from the ribs on which it rests, and also in reducing the likelihood her migration.

The problem is solved due to the fact that the device for correcting the funnel-shaped deformation of the chest contains a titanium alloy plate having end sections with ligature holes, the plate has an additional middle and transition sections, with transition sections each located between the middle section and the terminal section, the length of each end section is 15-60 mm, the length of each transition section is 5-40 mm, and T ₁ = 1,5-3 T ₂ ,

where T ₁ is the thickness of the middle section;

T ₂ is the thickness of each end section,

and the thickness of the transition sections varies uniformly.

In addition, the width of the plate is described by the expression In ₂ = 0.5-0.9V ₁ ,

where B ₁ - the width of the middle section; In ₂ - the width of each end section,

the width of the transition sections varies uniformly.

To fix the device to the ribs, it is additionally equipped with supporting elements for the end sections, each in the form of a strap made with ends having holes for ligatures, and with a middle having a protrusion with a slot for the end part of the plate and with a threaded hole for a screw in communication with the aforementioned a slot, and the slot is made across the bar.

The proposed shape of the plate (figure 1) is due to the fact that when located in the patient’s body, its ends rest on the ribs, and the middle part “pushes” the deformed sternum into the correct anatomical position. To ensure the “pushing” action, the plate must have sufficient rigidity, and therefore it is made of titanium alloys of type VT6, VT20, VT23, which have high strength (σ _0.2 ≥800 MPa), relatively thick (from 2 to 5 mm) . The ends of the plate rest on one or two ribs, which corresponds to a distance of 15 to 60 mm, depending on the angle at which the plate fits to the ribs. The load on the ends of the plate is sharply reduced at the point of contact of the first rib. Therefore, the rigidity of the ends of the plate does not play a significant role. They provide fixation of the plate, prevent its migration along the ribs and tipping over. Therefore, the ends of the plate can be thinned to a value that does not lead to tissue injury during longitudinal displacements of the plate. It is advisable to limit the thickness of the ends of the plate to a value of 1.5-3 times less than the thickness of its middle part.

The transition from thick to thin parts of the plate should be performed smoothly over 5-40 mm. This is necessary so that when the ends of the plate are bent, there is no excessive localization of deformation at the transition point and an increase in the risk of plate destruction. Thinning of the ends of the plate makes it possible to reduce the bending force or its base by as many times as the ends of the plate are thinner than its main middle part.

To fix the plate to the ribs, it is proposed to use supporting elements (stabilizers) made of titanium alloys listed above, in which a U-shaped protrusion with a slot is located on a bar with holes at the ends for fastening to the ribs using a ligature. The height and width of the slot correspond to intermediate values of the corresponding geometric parameters of the middle and end parts of the plate. As a result of this, the end parts of the plate freely enter the slot, but are stuck in the transitional part. Due to the fact that the slot is larger than the size of the end part of the plastid, the latter can, within certain limits, rotate at an angle to the axis of the stabilizer bar. This provides greater freedom of mounting the stabilizer to the ribs when the longitudinal axis of the plate does not coincide with the axis of the ribs. To ensure that the stabilizer is fixed relative to the plate, the protrusion of the first has a threaded hole through which the screw presses the end of the plate in the slot to the bar.

Figure 1 shows the projection and General view of the plate to correct the funnel-shaped deformation of the chest. The plate has a middle part (1) of thickness T ₁ and width B ₁ and end parts (2) with T ₂ and B _2, respectively. Between the middle and end sections are transitional sections (3), in which the thickness and width of the plate smoothly change.

Figure 2 shows the projection and General view of the support element (stabilizer), including the bar (4) and the protrusion (5) with a slot (6). In the middle part of the protrusion there is a threaded hole (7) perpendicular to the slot. Through this hole, the end part of the plate (2) inserted into the slot (6) against the strip (4) can be pressed with a screw.

Example

Patient M., aged 19, was admitted with a funnel chest deformity of the 2nd degree. Before the operation, a plate 320 mm long, 3.5 mm thick with end sections thinned up to 2 mm, 20 mm long and transition sections 30 mm each, made of VT6 titanium alloy, was previously bent according to the anatomically correct shape of the chest at the maximum defect. During the operation, through small incisions in the axillary regions, the plate was bent posteriorly between the ribs into the chest cavity and its end was led out symmetrically between the ribs on the other hand. After that, the plate was turned along the axis through 180 ° by bending forward. She exerted a force on the sternum, displacing it to the correct (specified by the preliminary bending of the plate) anatomical position. Due to the load on the middle part of the plate, its ends resting on the ribs deflected anteriorly by about 5-7 mm and prevented wound closure. Using a slight displacement of the plate along the axis in one or the other direction, the ends of the plate were slightly removed from the wound and deformed to the desired shape by bending using pliers (it is possible to use a special tool). Thus, the best congruency of the plate and chest was ensured. The ends of the plate fit snugly against the ribs. In order to avoid possible migration of the plate or its overturning from one (and, if necessary, from two) end of the plate, a stabilizer made of titanium alloy VT20 was installed by introducing its U-shaped cut at the end of the plate. The stabilizer bars were oriented so as to lean on two ribs as fully as possible, and were drawn to them by the ligature. After that, the screw in the upper part of the groove was twisted to fix the plate to the bar. The wound was sutured. Migration or tipping of the plate, as well as perforation of soft tissues in the postoperative period were not observed.

Thus, the technical result and the task set in the invention are achieved — the possibility of additional deformation of the ends of the plate during the operation, which ensures their good fit to the ribs, is shown, the probability of migration or tipping of the plate in the postoperative period is reduced.

Claims (3)

1. A device for correcting a funnel-shaped deformation of the chest, containing a plate of titanium alloy having end sections with holes for ligature, characterized in that the plate has an additional middle and transition sections, and transition sections, each located between the middle section and the end section, the length of each end section is 15-60 mm, the length of each transition section is 5-40 mm, and T ₁ = 1.5-3 T ₂ ,
where T ₁ is the thickness of the middle section;
T ₂ - the thickness of each end section,
and the thickness of the transition sections varies uniformly. 2. The device according to claim 1, characterized in that In ₂ = 0.5-0.9 B ₁ ,
where B ₁ - the width of the middle section;
In ₂ - the width of each end section,
the width of the transition sections varies uniformly. 3. The device according to any one of claims 1 and 2, characterized in that it is additionally equipped with supporting elements for the end sections, each in the form of a strap made with ends having holes for the ligature, and with a middle having a protrusion with a slot for the end part plate and with a threaded hole for a screw in communication with said slot, and the slot is made across the strap.

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