RU202488U1 - SUPPORT OF THE EXTERNAL RETAINER FOR RETAINING THE FRONT FOOT SECTION - Google Patents

Abstract

The utility model relates to medical technology, in particular to devices used in the field of traumatology and orthopedics, namely, to the construction of supports for external fixation devices, for osteosynthesis for the bones of the foot, can be used to eliminate deformities of various origins, replace defects, lengthen, and treat bone fractures , as well as arthrodesis of the joints of the fore and middle sections of the foot. The support of the external fixation apparatus with a variable contour (Fig. 1) for fixing the forefoot is made arcuate, in the form of a sector of a flat ring, with an outer contour radius equal to 98 mm, an inner contour radius, equal to 70 mm, contains two rows of concentrically located holes, the first row contains nine evenly spaced through round holes (1) with a diameter of 7 mm, the second row contains three arcuate grooves (2) 7 mm wide and one round hole (3) with a diameter of 7 mm, executed on the edge of the support, 4 mm thick. The technical result is to expand the ars Enal of arcuate supports, to provide the ability to fix the needles and bone screws and threaded rods on the arcuate support, which allows you to adjust the size of the inner contour to ensure the optimal position of the support relative to the forefoot. 2 c.p. f-ly, 4 dwg.

Description

The field of technology.

The utility model relates to medical technology, in particular to devices used in the field of traumatology and orthopedics, namely, to the construction of supports for external fixation devices, for osteosynthesis for the bones of the foot, can be used to eliminate deformities of various origins, replace defects, lengthen, treat bone fractures, as well as arthrodesis of the joints of the forefoot and midfoot.

State of the art.

кольца, с одним рядом крепежных отверстий. Также используются полукольцевые опоры, выполненные в форме

кольца, при этом для увеличения площади опоры предназначенной для крепления спиц их наращивают с помощью приставных планок, либо внедряют дополнительное соразмерное полукольцо.External fixation devices (AVF) are widely known and are used in clinical practice for osteosynthesis of bones. For fixing the bones of the forefoot in the known external fixation devices, open supports are widely used, made in the form

rings, with one row of mounting holes. Semicircular supports are also used, made in the form

rings, while in order to increase the area of the support intended for fastening the spokes, they are built up with the help of extension strips, or an additional commensurate half-ring is introduced.

The known apparatus of G.A. Ilizarov for transosseous osteosynthesis (copyright certificate SU 1055499). The device contains supports in the form of flat half-rings (arcs, annular sectors) and rings with spokes mounted on them, connected by threaded rods with nuts and forming blocks for fixing the proximal and distal bone fragments. There are sets of parts for G.A. Ilizarov for operations on the foot and lower leg (source: electronic catalog of products of the Federal State Unitary Enterprise "Experimental Plant of the Russian Research Center" VTO "named after Academician G.A. Ilizarov of the Ministry of Health of Russia, posted on the company's website http://www.ozrncvto.ru, in the section “Products” subsections “Instruments and devices for transosseous osteosynthesis according to GA Ilizarov”, “Sets of parts for the Ilizarov apparatus.” Access mode http://www.ozrncvto.ru/blank-sto5i). The apparatus contains supports made in the form of flat half-rings (1/2 rings, 5/8 rings) and / or flat rings with holes, arcs. The supports are made with through holes evenly spaced in one row. From the described parts, the supports of the foot apparatus are assembled with one row of fixing holes and consisting of 2 half rings. At the same time, one half-ring is used to fix the spokes held in the forefoot. Often, to fix the needles on the foot with a large cross, the semi-circular support is built up with the help of extension bars.

However, the known layouts of the Ilizarov apparatus for the treatment of bone fractures, taking into account compliance with the size of the limb, require the manufacture and use of many standard sizes of supports, 11 standard sizes of rings and half rings are made. The Ilizarov apparatus does not contain adjustable supports (rings and half rings). The internal size of the support (size of the internal contour) is not adjustable when using the device on the foot. There are a number of inconveniences when using standard universal supports of the Ilizarov apparatus on the foot. Assembling a foot support from several half-rings connected by straps, brackets and / or threaded rods requires additional time and effort. In addition, a foot support assembled from a plurality of spaced apart members loses its rigidity compared to a flat or monolithic support. The presence of additional attachment strips, brackets, leads to a heavier device and, as a result, leads to discomfort for the patient for the entire period of treatment. There is one row of fixing holes in the supports of the device, therefore, difficulties arise in fixing the spokes and installing articulated joints when connecting the foot support with the base of the device on the lower leg, which affects the convenience of the doctor's work when correcting individual components of the foot deformity in such a device. With the growth of edema, non-adjustable supports rest against soft tissues. The support puts pressure on soft tissues and creates unpleasant sensations for the patient, creates constant inconvenience, which worsens the patient's quality of life and the functional result of the treatment.

In external fixation devices from Orthofix, Smith & nephew there are supports designed to fix the entire foot, which do not have the ability to change the inner contour.

Thus, there are disadvantages when using the known foot supports. In particular, a significant drawback is the inability to change the size of the support for fixing the forefoot, adjusting it personally for the patient and adjusting it during treatment depending on changes in the volume of soft tissues. Given the presence of one row of mounting holes, difficulties arise in fixing the spokes and installing articulated joints with the base of the device on the lower leg, which affects the convenience of the doctor's work when correcting individual components of the foot deformity in such a device.

Known support for the external fixation device for the bones of the foot (patent RU 179089), made of metal, containing fastening holes. The support is prefabricated, contains two blocks made with the possibility of changing the length of the block, connected with the possibility of dosed change in the distance between the blocks, the blocks are arranged symmetrically relative to the longitudinal axis of the support, each block contains one flat corner strip connected to one flat extension strip, the corner bars are located symmetrically and connected to each other by adjacent ends with the possibility of changing the distance between them, extension strips are located at the free ends of the corner strips with the possibility of changing the distance between the corner and extension strip, longitudinal grooves are made at the adjacent ends of all strips, fastening strips are made on the surface of the strips in two rows holes, adjacent strips are superimposed on one another and fastened with tightening bolts and nuts.

The support has a rectilinear angular shape and is not adapted for fixing the bones of the forefoot, the arch of the foot from above. Resizing is carried out linearly in width and length, but it is not possible to change the circumference of the circumference, because the support is not ring-shaped, the geometric shape does not allow covering the arch and forefoot from above.

Thus, the problem arises in ensuring the possibility of adapting the size and shape of the support for the forefoot to a specific clinical situation. The support should allow adapting the dimensions of the internal contour of the support under the foot of the operated patient, freely fixing the needles and rods drawn through various sections, the arch of the foot, establish articulated joints, repositioning units, taking into account the existing deformations, without losing the rigidity of the structure and ensuring the minimum mass and volume of metal structures ...

The technical problem to be solved by the utility model is the selection of the optimal geometric parameters, shape and size of the arcuate support, to improve the result of foot treatment, facilitate the doctor's work and the patient's convenience.

The support was developed in the development of methods for active suppression of inflammatory processes in patients with purulent lesions of the musculoskeletal system in conditions of using the method of transosseous osteosynthesis.

The technical result consists in expanding the arsenal of arcuate supports, designed to ensure the possibility of fixing the spokes and bone screws and threaded rods on the arcuate support, which allows adjusting the size of the inner contour to ensure the optimal support position relative to the forefoot.

The technical result is achieved by the fact that the support of the external fixation apparatus for fixing the forefoot is made arcuate, in the form of a flat ring sector, with an outer contour radius of 98 mm, an inner contour radius of 70 mm, contains two concentrically located rows of holes, the first row contains nine evenly spaced through round holes with a diameter of 7 mm, the second row contains three arcuate grooves with a width of 7 mm and one round hole with a diameter of 7 mm made on the edge of the support, 4 mm thick.

The support is adapted for use with the Ilizarov apparatus.

The utility model is illustrated with graphic materials:

FIG. 1 - support, general view;

FIG. 2 - support, mounted with a similar arcuate support of the apparatus, forms an adjustable contour;

FIG. 3 - two supports, mounted with a similar arcuate support of the apparatus, forms an adjustable contour with increased coverage;

FIG. 4 - support, mounted in an external fixation device.

Implementation of the utility model.

The support for fixing the forefoot in the Ilizarov apparatus is an external semi-circular support that provides stable retention and / or and dosed movement of one (distal) bone fragment or limb segment relative to another (proximal) bone fragment or limb segment in different planes.

The support of the external fixation apparatus with a variable contour for fixing the forefoot is made arcuate, in the form of a flat ring sector (Fig. 1; 2; 3), with a radius of the outer contour equal to 98 mm (Fig. 1), the radius of the inner contour equal to 70 mm ( Fig. 1), contains two concentrically located rows of holes, the first row contains nine evenly spaced through circular holes 1 (Fig. 1; 2; 3) with a diameter of 7 mm, the second row contains three arcuate grooves 2 (Fig. 1; 2; 3 ) 7 mm wide and one round hole 3 (Fig. 1; 2; 3) with a diameter of 7 mm execution on the edge of the support. Support thickness 4 mm. The support is made of 20 XI3 stainless steel but it should be noted that the titanium alloy will significantly lighten the weight of the support.

Use of the utility model.

The support can be used in the elimination of deformities of various origins, replacement of defects, lengthening, treatment of bone fractures, as well as arthrodesis of the joints of the forefoot and midfoot.

The support is assembled on the foot, mounted in the external fixation device 4 (Fig. 4) using threaded rods 5 and nuts 6 (Fig. 3; 4), or bolts 7 and nuts 6 (Fig. 2), which are placed in the grooves 2 with taking into account the existing deformations, defects and shortening, which allows you to easily solve the assigned clinical tasks. Bone screws 8 and pins 9 are fixed with fasteners in holes 1 or grooves 2. The dimensions of the support are optimal for the Ilizarov apparatus and the patient's extremities. The presence of three grooves allows you to change the internal contour of the support, cover the front and middle sections of the foot and fix the bones. In this case, the movement of the distal bone fragment or segment of the limb along the length and axis is performed by twisting the nuts on the longitudinal threaded rod of the apparatus, and in width - on the transverse threaded rod of the apparatus. The support allows you to firmly fix in the required plane the needles drawn through the bone, with a pulling force of 130 kgf or more. The support facilitates the installation of the Ilizarov apparatus and subsequent manipulations with it. The support allows you to adapt the dimensions of the inner contour to the foot of the operated patient, freely fix the needles passed through different parts of the foot and install articulated joints, repositioning nodes, taking into account the existing deformations, without losing the rigidity of the structure.

Holes 1, 3 and grooves 2 provide the ability to fix the spokes 9 and bone screws 8 and threaded rods 5 and bolts 6 on an arcuate support that allows you to adjust the size of the inner contour to ensure an optimal support position relative to the forefoot using three grooves 2.

In osteosynthesis, or for emergency immobilization, using an AVF, wires 6 or rods of screws 7 are inserted into the bone, which are fixed to the supports of the AVF. The supports are connected to each other with threaded rods 5 or bolts 7 with nuts 6 (Fig. 7). In order to change the size of the inner contour, the support is moved by the grooves 3 on the threaded rods 5 or bolts 7, loosening the nuts 6, having achieved the required position, the nuts 6 are tightened with a wrench, ensuring a rigid connection. In holes 1, threaded rods 5, fasteners, bolts 6, brackets, etc. are installed. The presence of through holes 1 allows you to fix with bolts (spoke bolts) a spoke passed through the bone in a taut (with a force of up to 130 kg).

Supports can be assembled in various configurations (Fig. 2; 3; 4) depending on the clinical tasks to be solved and the individual characteristics of the patient.

The support can be made from known materials by machining on modern industrial equipment, and used as intended.

Claims (3)

1. The support of the external fixation apparatus for fixing the forefoot, characterized by the fact that it is made arcuate, in the form of a flat ring sector, with an outer contour radius of 98 mm, an inner contour radius of 70 mm, contains two concentrically located rows of holes, the first the row contains nine evenly spaced through round holes with a diameter of 7 mm, the second row contains three arcuate grooves with a width of 7 mm and one round hole with a diameter of 7 mm, made on the edge of the support, 4 mm thick. 2. The support according to claim 1, characterized in that it is made of titanium alloy of the VT6 grade. 3. The support according to claim. 1, characterized in that it is made of steel alloy grade 20X13.

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