RU2149597C1 - Osteosynthesis apparatus - Google Patents

Abstract

FIELD: medicine, in particular, traumatology and orthopedics. SUBSTANCE: apparatus has at least two supporting units of similar closed geometry which are aligned one with respect to the other and provided with spokes. Centers of openings in each spoke are arranged in single line. Spokes of supporting units are connected through rods. Supporting units are made in the form of regular polygon having at least six faces whose length is calculated from formula presented in Specification. Openings are made in each face, with number and distance between centers of openings being calculated from formula presented in Specification. Apparatus is further provided with member for connecting supporting units of different sizes. Apparatus of such construction provides optimum curing time for different types of bone fractures by providing optimum biomechanical modes. EFFECT: simplified telescopic construction, increased efficiency by controlled rigidity of apparatus and enhanced reliability in operation. 3 dwg

Description

 The invention relates to medicine, specifically to traumatology and orthopedics.

An external orthopedic fixing apparatus is known, comprising a pair of hexagonal washers connected in parallel to one another by means of a pair of adjustable extended elements, each located basically normal to the plane of the washer, so that the distance between the washers can vary. Each washer is provided on the side that is not connected with an adjustable elongated element, an opening passing transversely through the washer for mounting fixing rods passing between opposite sides of the washers (A.S. 1706588, MKI ⁵ : A 61 B 17/56).

 Since the washers are the same size, installing them on limbs with a variable diameter requires additional adjustment, in addition, the multi-element washers cannot provide an adequate biomechanical regime, therefore, the described apparatus cannot be used for some types of fractures.

An osteosynthesis apparatus is also known, comprising at least two support knots with spokes made in the form of geometrically similar closed loops placed coaxially, the centers of the holes in each element are located along lines with an angle between them of more than 60 ^o and less than 180 ^o , and connecting rods connected crossing elements of different supporting nodes (P. 2039533, MKI ⁵ : A 61 B 17/56).

 However, the described apparatus for osteosynthesis, despite the fact that it has support nodes of different diameters, can also not be used for some types of fracture in the shape of the limb when mounting support nodes of three elements and does not allow to obtain optimal healing time.

 The aim of the invention is to eliminate the disadvantages of the prototype, namely the optimal healing time for all types of fractures due to the telescopicity (alignment) of the apparatus, the creation of optimal biomechanical modes, adjustable stiffness.

 This goal is achieved in that the apparatus for osteosynthesis, comprising at least two support nodes with spokes, made in the form of geometrically similar closed loops placed coaxially, the centers of the holes in each element are located along the lines, and the connecting rods are connected by crossing elements of different supporting nodes; moreover, geometrically similar closed loops are made in the form of a regular polygon having at least six faces, the length of which is calculated according to the formula, and the apparatus further comprises a connecting element for attaching support nodes of different sizes.

 Distinctive features of the claimed device is that geometrically similar closed loops are made in the form of a regular polygon having at least six faces, the length of which is calculated by the formula, holes are located along each face, the number and distances between the centers of which are calculated by the formula, and the apparatus additionally contains a connecting element for mounting support nodes of different sizes.

 The distinguishing features described are significant because they allow to obtain a previously unknown positive effect, namely the optimal healing time for all types of fractures due to the creation of optimal biomechanical regimes, telescopic apparatus, adjustable stiffness. In view of the foregoing, the claimed invention should be considered to meet the criterion of "significant differences".

 The proposed device is shown in the drawings.

 FIG. 1 - apparatus for osteosynthesis in axonometry.

 FIG. 2 - an element of the support node according to the invention with holes and a connecting element for attaching support nodes of different sizes.

 FIG. 3 - apparatus for osteosynthesis according to the invention in assembled form for treatment, superimposed on the fracture site.

 As an example, we offer an embodiment of the apparatus for osteosynthesis (Fig. 1), containing four support nodes 1-4, made in the form of regular polygons, having eight faces 5-12, rigidly interconnected by connecting rods 13 and fixed by nuts 14.

 The connecting rods 13, nuts 14 are located in the corresponding holes 15 on the faces 5-12 of the support nodes 1-4. One of the faces 5-12 of the support nodes 1-4 contains a connecting element 16 for mounting the support nodes 1-4 of different sizes (Fig. 2). A connecting element for mounting support nodes of different sizes can similarly be used in Ilizarov and other devices. The supporting nodes 1-4 have spokes 17 penetrating into the bone and soft tissue of the limb 18 to be treated (Fig. 3).

The length of the face of a regular polygon is calculated by the following formula:
c = 2Rtg180 ^o / n,
where c is the length of the face of a regular polygon;
R is the radius of the described circle;
n is the number of faces.

For example, for a regular octahedron: c = 2Rtg180 ^o / 8 = 0.765 R.

The number of holes located along each face, as well as the distance between the centers of these holes is calculated as follows:
C ₀ - the distance between the centers of the corner holes of the face of a regular polygon,
C ₁ = C _0/2 - the distance between the centers of the angular and central holes of the face of a regular polygon,
and so on, depending on the required number of holes.

 The proposed apparatus for osteosynthesis is assembled, observing the principle of coaxiality, i.e., in a quasi (conditionally) telescopic mode, adjusting the stiffness depending on the type of fracture. Such an assembly is possible due to the calculated lengths of the faces, the number of holes in the faces and the distance between the centers of the calculated number of holes, as well as the presence of a connecting element for attaching support nodes of different sizes.

 The described embodiment of the apparatus for osteosynthesis of four support nodes, which are a regular octahedron, may contain two or any other number of such support nodes, or may have support nodes in the form of a hexagon, a duohedral and any other number of faces, ensuring the correct location and fixation of the bone at the site of her fracture.

 The apparatus for osteosynthesis is used as follows.

 In case of bone fractures after reposition of the fragments, two crossed needles 17 are carried through the bone metaphyses, then support nodes 1-4 are mounted from faces 5-12. During assembly, the distance from the soft tissues to the inner surface of the corresponding regular polyhedron is 1.5-2 cm. The support nodes 1-4 have dimensions corresponding to the limb segment, near which this support node is installed. Spokes 17 are attached to the support nodes 1-4. The support nodes 1-4 are connected to one another by three or more connecting rods 13, as a result of which the support nodes 1-4 are aligned (i.e. in telescopic mode), and the connecting rods 13 in parallel. The whole system of support nodes 1-4, connecting rods 13 and spokes 17 is rigid and does not change dimensions, and therefore, stiffness, during the treatment period.

The advantages of the claimed device is as follows:
- adjustable stiffness when assembling the apparatus according to the shape of the limb allows the apparatus to be used to treat almost all types of fractures;
- the apparatus is assembled from the same faces, which facilitates its installation on the limbs, making the corners of the face recognition points;
- due to the telescoping (alignment) of the apparatus, the creation of optimal biomechanical treatment regimes for fractures, it is most effective for complex types of injuries;
- the presence of an additional connecting element for mounting support nodes of different sizes makes it possible to use the devices in a quasi (conditionally) telescopic mode with any shape of the limb, as well as not only in the claimed device, but also in Ilizarov and others.

 The device was used to treat 119 patients with various types of arm and leg fractures.

Claims (1)

 An osteosynthesis apparatus comprising at least two support nodes with spokes made in the form of geometrically similar closed loops placed coaxially, the centers of the holes in each element are located on the line, and the connecting rods are connected by crossing elements of different support nodes, characterized in that they are geometrically similar closed contours are made in the form of a regular polygon having at least six faces, the length of which is calculated according to the formula, along each face there are holes, number and size the distance between the centers of which is calculated according to the formula, and the apparatus further comprises a connecting element for attaching support nodes of different sizes.

Images