RU179089U1 - SUPPORT FOR EXTERNAL FIXING DEVICE FOR FOOT BONES - Google Patents

Abstract

The utility model relates to medicine, in particular to the field of traumatology and orthopedics, and in particular to the construction of supports for apparatuses for: osteosynthesis of the foot and ankle joint by external transosseous fixation of bones. The support of the external fixation apparatus for the bones of the foot is made metal flat. The support is made by the team, contains two blocks 1 and 2, made with the possibility of changing the length of the block, connected with the possibility of a metered change in the distance between the blocks. The blocks are located symmetrically relative to the longitudinal axis 3 of the support. Each block contains one flat corner strip 4 connected to one flat extension strip 5. The corner bars are located symmetrically and are connected to each other by adjacent ends 6 with the possibility of changing the distance between them. Extension strips are located at the free ends of the 7 corner strips with the possibility of changing the distance between the corner and extension bar. Longitudinal grooves are made at the adjacent ends of all the slats 8. Mounting holes 11 are made in a staggered pattern on the surface of the slats in two rows 11. The adjacent slats are laid one on top of the other and fastened with tightening bolts 9 with nuts 10. The technical result consists in the possibility of adjusting the size of the inner contour of the support , which allows to improve the quality of life of the patient during the period of fixation in the apparatus, to improve the result of treatment of the foot, to facilitate the work of the doctor. 5 cp f-ly, 4 ill.

Description

The field of technology.

The utility model relates to medicine, in particular to the field of traumatology and orthopedics, namely, to the construction of the supports of apparatuses for osteosynthesis of the foot and ankle joint by external transosseous fixation of bones.

The level of technology.

External fixation devices are widely known and used in clinical practice for bone osteosynthesis, in particular in the treatment of fractures of the foot bones, injuries of the ankle joint, fractures of the talus. Various support structures are known in the art.

Known apparatus G.A. Ilizarova for transosseous osteosynthesis (source [1]: SU 1055499). The device for transosseous osteosynthesis contains supports in the form of flat half rings (arcs, ring sectors) and rings with spokes installed on them, interconnected by threaded rods and forming blocks for fixing the proximal and distal bone fragments. Equipped with distractors, articulated: nodes, nodes adjustment and fixing the position of the supports and knitting needles. The supports are made in the form of flat rings and arcs (1/2 of the ring), with through holes evenly spaced in one row, the longitudinal axis of the holes are radially symmetrical to the longitudinal axis of the ring, while the supports in the form of arcs are connected so that they form a ring. The layout for fixing the rear part of the foot in the Ilizarov apparatus [1] contains a basic support on the lower legs and support on the foot. Supports provide stable retention and / or metered movement of one (distal) bone fragment or limb segment relative to another (proximal) bone fragment or limb segment in different planes. In this case, the movement of the distal bone fragment or segment of the limb along the length and axis is performed by tightening the nuts on: a longitudinal threaded rod, and across the width on the transverse one. The support on the foot allows you to firmly fix in the necessary plane the spokes drawn through the bone with a pulling force of 130 kgf or more. The foot support is assembled from half rings, trims, brackets and threaded rods of the installed standard size. Half rings are made with a diameter of 100 to 240 mm from stainless steel or an alloy of titanium.

The prior art method for the treatment of talus fractures (source [2]: V. M. Shigarev, S.Ya. Zyryanov. Our view on the current state of the problem of treatment of talus fractures; Genius of Orthopedics, 1998, No. 2, p. 20 -28.). The method involves the use of the Ilizarov apparatus, carrying out the crossing of spokes through the bones. The knitting needles are fixed on the supports of the apparatus: the base and support of the foot assembled from flat rings and half rings with holes. The supports are interconnected by threaded rods using brackets and nuts.

A known method for the treatment of talus fractures (source [3]: RU 2356511), comprising the use of an Ilizarov apparatus (external fixation apparatus) containing a base ring support, and a foot support made of two half rings connected by threaded rods with brackets and nuts from which hinges are assembled . Through the fragments of the talus, conduct spokes and fix them on the brackets mounted on the support for the foot.

A device for osteosynthesis of the lower leg and foot (source [4]: RU 128983). The device includes support on the legs and support on the foot. The supports contain rings and half rings interconnected by threaded rods and hinged nodes.

Ring supports provide rigidity of the apparatus [1; 2; 3; 4], and stable fixation of bone fragments fixed in it. However, the known layout of the Ilizarov apparatus [1; 2; 3; 4] for the treatment of bone fractures, taking into account the size of the limbs, they require the manufacture and use of many sizes of supports, 11 sizes of rings and half rings are made. Ilizarov apparatus [1; 2; 3; 4] does not contain adjustable size supports (rings and half rings). The internal size of the support (the size of the inner contour) when using the device on the foot is not adjustable. When using standard universal supports of the Ilizarov apparatus [1; 2; 3; 4] on the foot there are a number of inconveniences. Assembling a foot support of several half rings connected by trims, brackets and / or threaded rods requires additional time and effort. In addition, a foot support assembled from a plurality of spaced apart elements loses its rigidity in comparison with a flat or monolithic support. The presence of additional side strips and / or half rings, brackets, leads to a heavier apparatus and, as a result, leads to patient discomfort for the entire treatment period. In the supports of the apparatus [1; 2; 3; 4] one row of mounting holes, therefore, difficulties arise in fixing the spokes and installing articulated joints when connecting the foot support to the base of the apparatus on the lower leg, which affects the convenience of the doctor when correcting individual components of the foot deformation in such an apparatus. Unregulated supports with the growth of edema abut against soft tissues. Reliance presses on soft tissues and creates an unpleasant sensation for the patient, creates constant inconvenience, which worsens the quality of life of the patient and the functional result of treatment.

A known method of osteosynthesis by the apparatus of ortho-suv with deformations of the middle part of the foot (source [5]: RU 2489106). The apparatus contains support on the lower legs and support for the foot connected by striations. The foot support is made of semi-rings connected with striations with attachments. At the level of the distal metadiaphysis of the lower leg, transosseous elements (knitting needles, screw rods) are carried out and an annular support is fixed to them. Transosseous elements are passed through the calcaneus and the foot support is fixed to them, comprising 2/3 or 3/4 of the ring. Two cantilever consoles are fixed to the proximal surface of the support fixing the calcaneus in the frontal plane; a half ring is fixed to the lower surface of the same support. Transosseous elements are passed through the metatarsal bones and the support constituting 2/3 or 3/4 of the ring is fixed to them and a support of 2/3 or 3/4 of the ring is attached to it and distal from it using threaded rods. Supports connect: striations. Strata is attached to the console consoles of supports.

However, the supports of the apparatus for the foot [5] in accordance with the size of the limbs require the manufacture and use of many sizes of half rings (arcs). The apparatus [5] does not contain adjustable size supports (rings, arcs). The internal size of the support when using the device on the foot is not adjustable. Assembling the foot support from half rings connected by striations and strips and / or threaded rods requires additional labor. In addition, the support for the foot assembled from many elements loses in rigidity. The presence of additional side strips and / or half rings leads to a heavier apparatus and, as a result, leads to patient discomfort for the entire treatment period. In the supports of the apparatus [5] there is one row of fixing holes, therefore, difficulties arise in fixing the spokes and installing articulated joints when connecting the foot support to the base of the apparatus on the lower leg, which affects the convenience of the doctor when correcting individual components of the foot deformation in such an apparatus. The course of any purulent-inflammatory process is always associated with an increase in soft tissue edema. Moreover, under conditions of transosseous osteosynthesis on unregulated supports, an increase in edema leads to the eruption of soft tissues, the formation of pressure sores in places of interaction with the supports of the external fixation apparatus, which, as a result, only aggravates the course of the purulent-inflammatory process. To eliminate such serious complications, surgeons are often forced to resort to dismantling and re-installing the supports of the external fixation apparatus [5], which interferes with the timely solution of orthopedic problems. It should be noted that due to the anatomical features, the presence of edema on the foot can be associated not only with an exacerbation of the purulent-inflammatory process, but also with vascular compression associated with increased deformation and / or displacement of bone fragments. Under these conditions, increasing the internal contour of the support of the apparatus [5] at the same time as eliminating deformation and maintaining the rigidity of fixation of bone fragments of the foot becomes a priority issue. Unregulated supports with the growth of edema abut against soft tissues. Moreover, the apparatus [5] is difficult to control, requires the use of a personal computer.

плоского кольца, с одним рядом крепежных отверстий. В частности известна внешняя система фиксации TrueLok (TrueLok Ring Fixation System, источник [6]: каталог компании Smith-Nephew, интернет сайт http://www.smith-nephew.com, режим доступа: http://web.orthofix.com/Products/Pages/TrueLok-Ring-Fixation-System-Lower.aspx?catid=21). Система [6] содержит базовую опору на голени, выполненную в виде двух плоских колец оснащенных крепежными отверстиями и соединенных резьбовыми стержнями и опору для стопы, выполненную в виде двух полуколец, оснащенных один рядом крепежных отверстий и соединенных дистракторами (стратами). Дистракторы установлены на кронштейнах.To fix the bones of the back of the foot in the known external fixation devices (Ortosuv, Taylor, Orthofix, Sidekick Freedom, TrueLok Ring Fixation System), open foot supports made in the form of

flat ring, with one row of mounting holes. In particular, the external TrueLok fixation system is known (TrueLok Ring Fixation System, source [6]: Smith-Nephew catalog, website http://www.smith-nephew.com, access mode: http://web.orthofix.com /Products/Pages/TrueLok-Ring-Fixation-System-Lower.aspx?catid=21). The system [6] contains a basic support on the lower legs, made in the form of two flat rings equipped with mounting holes and connected by threaded rods and a foot support made in the form of two half rings, equipped with one row of mounting holes and connected by distractors (strata). The distractors are mounted on brackets.

In the apparatus [6], the foot support is made by a team of half rings. At the same time, to increase the number of holes for fixing the spokes, the half rings are increased with the help of accessory strips with holes, or an additional commensurate half ring is introduced. The foot support does not have the ability to resize the inner contour. The apparatus [6] contains a number of half rings of various sizes for assembling the support of a suitable size for a particular patient, while the size of the supports changes discretely with a step of 10 mm and there is no possibility of precise adjustment. If at the initial stage of treatment such a support can have a sufficient clearance with soft tissues, then during the treatment it can be exhausted. When the edema grows, the unregulated supports abut against the soft tissues and must be removed and replaced, since the support presses on the soft tissues and creates unpleasant sensations for the patient, creates a constant inconvenience, which worsens the patient's quality of life and the functional result of the treatment.

Known apparatus for the foot SIDEKICK ™ FREEDOM ™ (source [7]: Wright catalog, website http://www.wright.com, access mode: http://www.wmtemedia.com/ProductFiles/Files/PDFs/014505_EN_LR_LE .pdf). The apparatus [7] contains a basic support on the lower leg, made in the form of two flat rings equipped with mounting holes and connected by threaded rods and a foot support made of a monolithic U-shaped plate equipped with two rows of mounting holes. The design is made of aluminum and stainless steel.

The support for the apparatus foot [7] is made monolithic and does not allow regulating the size of its inner contour. Supports perform various sizes in 10 mm increments. Monolithic supports are characterized by the following disadvantages. It is difficult to choose the necessary support, the doctor has to put the support with a "margin", which increases the bulkiness of the apparatus. There is no adjustment of the size of the inner contour for a specific patient and during treatment, it is required to have a set of supports of different sizes. The course of the purulent-inflammatory process is associated with edema and an increase in the volume of soft tissues. Under these conditions, increasing the size of the inner contour of the support simultaneously with the removal of deformation and maintaining the rigidity of fixation of bone fragments of the foot becomes a priority issue. Unregulated monolithic supports with edema growth abut against soft tissues. Reliance presses on soft tissues and creates an unpleasant sensation for the patient, creates constant inconvenience, which worsens the quality of life of the patient and the functional result of treatment.

Thus, when using supports for the foot assembled from standard elements of a fixed size [1; 2; 3; four; 5; 6; 7] there are disadvantages. In particular, a significant drawback is the lack of the ability to change the size of the support, adjust it personally for the patient and adjust during treatment, depending on changes in the volume of soft tissues.

The essence of the technical solution.

The technical problem, the solution of which the utility model is aimed at, is the possibility of changing the support size c. the process of selecting and operating the support, without dismantling and replacing it, improving the quality of life of the patient during fixation in the apparatus, improving the result of treatment of the foot, facilitating the work of the doctor.

The technical result consists in providing the ability to adjust the size of the inner contour of the support.

The technical result is achieved by the fact that the support of the external fixation apparatus for the bones of the foot (hereinafter referred to as the support) is made metal flat and contains fixing holes. It differs in that the team is made, it contains two blocks, made with the possibility of changing the length of the block, connected with the possibility of a metered change in the distance between the blocks. The blocks are located symmetrically relative to the longitudinal axis of the support. Each block contains one flat corner strip connected to one flat extension strip. Corner strips are located symmetrically and are 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 bar. At adjacent ends of all planks, longitudinal grooves are made. On the surface of the planks in two rows, stitch holes are made in a checkerboard pattern. Adjacent slats are superimposed one on top of the other and fastened with long bolts with nuts.

The above essence ensures the achievement of the claimed technical result.

It is envisaged that the support can be made of VT6 titanium alloy, aluminum alloy or stainless steel. Preferably, the roughness Ra of the outer surfaces of the corner and extension bars is in the range of 0.25 to 0.42 μm, the thickness of the bars is in the range of 4 to 8 mm, the diameter of the holes is in the range of 6 to 8 mm, the width of the bars is in the range of 15 to 30 mm. The support of the external fixation apparatus for the bones of the foot is preferably made of titanium alloy VT6 or aluminum alloy and has an anodic oxide coating. Corner and extension strips at the interface can be made with a cutout or with a bend, to ensure that the plane of the strips is at the same level.

The support of the external fixation apparatus for the bones of the foot, developed on the basis of the purulent osteology clinic of the Ilizarov Center in the city of Kurgan, eliminates the disadvantages of the analogues and solves the tasks set for the doctor thanks to the movable connection of its parts, with the possibility of their rigid mutual mounting. Blocks made with the possibility of changing their length, allow you to adjust the length of the support. Since the blocks are interconnected with the possibility of a metered change in the distance between the blocks, this allows you to adjust the width of the support. It provides adjustment of the length and width of the contour of the support, to adapt the entire support to the operated foot. Thus, it is possible to individually select the dimensions of the inner contour of the support for the size of the limb of the patient. The size blocks are adapted with standard sizes of rings and half rings of the Ilizarov apparatus, which allows you to freely connect the blocks to the supports assembled from the rings and / or half rings of the set, parts of the Ilizarov apparatus and fasten the spokes through the bones of the foot in the tensioned position.

The utility model is illustrated by graphic materials:

FIG. 1 - support, general view (lap joint option);

FIG. 2 - support, top view, the smallest outline size;

FIG. 3 - support, top view, the largest contour size;

FIG. 4 - support, general view, (option for connecting the slats with a recess).

Implementation of a utility model.

The support is made of a flat metal titanium alloy VT 6 coated with an anodic oxide layer of red color. Contains two blocks 1 and 2 (Fig. 1; 2; 3; 4). Blocks 1 and 2 are located symmetrically relative to the longitudinal axis 3 (Fig. 1; 2; 3; 4) of the support. Block 1 and block 2 contains one flat angular strip 4 (Fig. 1; 2; 3; 4) connected to one flat extension bar 5 (Fig. 1; 2; 3; 4). Corner strips 4 are made with two shelves located at an angle of 90 degrees, while the angle is beveled. Corner strips 4 are located symmetrically and are connected to each other by adjacent ends 6 (Fig. 1; 2; 3; 4) with the possibility of changing the distance between them. Extension strips 5 are located at the free ends 7 (Fig. 1; 2; 3; 4) of the corner strips 4 with the possibility of changing the distance between the corner 4 and the extension stripe 5. At the adjacent ends 6 of all the strips, longitudinal grooves 8 are made (Fig. 1; 2 ; 3; 4) 7 mm wide and 35 mm long. The strips 4,5 are superimposed one on top of the other and fastened with long bolts 9 (Fig. 1; 2; 3; 4) with nuts 10 (Fig. 1; 2; 3; 4). The grooves 8 of two adjacent strips 4 and / or 5 are aligned. The tightening bolts are located in the grooves 8. The head of the bolt 9 is hexagonal (with a cap key) and contains a hexagonal recess (with a hex key). Two bolts 9 are located in the longitudinal grooves 8 at the junction of the two strips 4 and / or 5. On the surface of the strips 4 and 5 in two rows in a staggered pattern made mounting holes 11 (Fig. 1; 2; 3; 4), diameter 7 mm, the pitch between the holes in the row is 12 mm, the distance between the rows is 8 mm, the offset between the holes in the rows is 6 mm. The thickness of the strips 4 and 5 is 5 mm. The width of the strips 4 and 5 is 20 mm. The length of the grooves 8 is 35 mm. The length of blocks 1 and 2 (support length) is adjustable in the range from 230 mm to 260 mm. The distance between blocks 1 and 2 (support width) is adjustable in the range of 130 to 160 mm. Corner strips 4 and extension strips 5 at the junction can be superimposed on each other (Fig. 1.). At the junction of the strips 4 and 5, recesses can be made over the entire width of the strip (Fig. 4).

Use of utility model.

The support is mounted on a damaged limb. In the bone of the foot spokes are carried. Gather support. For this, blocks 1 and 2 are assembled alternately, which are formed by fastening one corner 4 and one extension bar 5, the strips 4 and 5 are superimposed and fastened with two bolts 9 with nut 10, tightening the nut 10 by hand. Blocks 1 and 2 are connected to each other, for this the ends of the corner supports 4 are laid on top of each other and fastened with two bolts 9 with nuts 10, tightening the nut 10 by hand. To adjust the length of the support, the extension strips 5 are moved relative to the corner strips 4, while the grooves 8 of the strips 4 and 5 are displaced, the bolts 9 are moved in the grooves 8. To adjust the width of the support, the adjacent corner strips 4 of blocks 1 and 2 are moved, while the grooves 8 of the strips 4 are displaced, the bolts 9 move in the grooves 8. Moving the straps 4 and 5 relative to each other, adjust the size of the internal contour of the support, adjusting it to the size of the limb of the patient. Having achieved the required length and width of the support, tighten the nuts 10 with a wrench or hexagon, providing a rigid connection of the support elements. Then the fasteners (bolts spoke fixators) the ends of the spokes are fixed to the support. In the mounting holes 11, threaded distraction rods of the external fixation apparatus (Ilizarov apparatus) are installed and connected to the base support, on the shins, while the parts (M6 bolts, M6 nuts, brackets, etc.) of the Ilizarov apparatus kit are used for connection. Thus, a rigid external support for the foot is obtained, which is included in the design of the Ilizarov apparatus and adjusted to the size of the limb of a particular patient.

The device can be made on modern industrial equipment from well-known materials and used for its intended purpose in specialized trauma departments of medical institutions.

Claims (6)

1. The support of the external fixation apparatus for the bones of the foot, made of metal, containing mounting holes, characterized in that the assembly is made, contains two blocks made with the possibility of changing the length of the block, connected with the possibility of a metered change in the distance between the blocks, the blocks are located symmetrically with respect to the longitudinal axis supports, each block contains one flat corner strip connected to one flat extension strip, the corner stripes are located symmetrically and are connected to each other by an adjacent ends with the possibility of changing the distance between them, extension strips are located on the free ends of the corner strips with the possibility of changing the distance between the angular and extension strips, longitudinal grooves are made at the adjacent ends of the strips, fixing holes are made on the surface of the strips in two rows, adjacent strips are superimposed on one the other and fastened with long bolts with nuts. 2. The support according to claim 1, characterized in that it is made of VT6 titanium alloy. 3. Support under item 1, characterized in that it is made of aluminum alloy. 4. Support under item 1, characterized in that it is made of stainless steel. 5. Support according to claim 1, characterized in that the roughness Ra of the outer surfaces of the angular and extension strips is in the range from 0.25 to 0.42 μm, the thickness of the strips is in the range from 4 to 8 mm, the diameter of the holes is in the range from 6 to 8 mm, the width of the strips is in the range from 15 to 30 mm. 6. Support according to claims 2 and 3, characterized in that it has an anodic oxide coating and recesses at the adjacent ends of the strips.

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