RU2595478C2 - Orthopaedic apparatus - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: invention relates to medical equipment and is intended for bracing children with infantile cerebral paralysis (ICP) followed by deformation of the foots, pathological plants, wandering of an ankle joint contractures, combined with hip joint pathology, and also at a number of locomotor pathologies at the level of distal departments of the lower limbs. Orthopaedic apparatus consists of the sliding bar to the ends of which are connected by means of elastic elements the cages of right and left hip. Sliding bar is composed of two rods made from titanium alloy, connected among themselves by the guidance mechanisms. To the rod by means of fastener connection are attached side sliding bars, lower ends of which are connected by fasteners with lower sliding bar, ends of rods have a sphere made from elastic polymer material. Spheres are installed on the base with through cross-shaped hole and fixed on it be the arc-shaped bracket, attached to the base in screw pair and fastening bolt. Spheres, bases and arc-shaped brackets form units of spatial control. Each base of units of spatial control is connected by means of fastening elements to the posterior calcaneal region of sleeves section of right and left foot. Each sleeve of the foot by means of polymer elastic hinges is connected with the sleeve of the shin. Shin and foot sleeves are made in the form of spatial shape, enveloping shin and foot, and are made of thermoformed composite material.

EFFECT: invention enables to carry out the complex treatment of children, affecting ankle and hip joints, at that the effect of treatment is carried out at the same time both on the ankle and hip joints, taking into account their biomechanical interrelation.

1 cl, 5 dwg

Description

Orthopedic apparatus for ankle joint refers to medical equipment and is intended for orthosis of children with cerebral palsy (cerebral palsy), accompanied by deformation of the feet, pathological settings, unfixed contractures of the ankle joint, combined with pathology of the hip joints, as well as in a number of pathologies of the musculoskeletal system the level of the distal lower extremities.

Known orthopedic apparatus on the lower extremities (RF patent 2388435) allowing the treatment of pathology of the hip joints (prototype).

The apparatus consists of a sliding rod, to the ends of which are attached by means of elastic elements of the sleeve of the right and left thighs.

The musculoskeletal system of the lower extremities is a single interconnected biomechanical system that determines the entire scheme for constructing the lower extremities. As practice shows, the pathology of the hip joints in children with cerebral palsy is combined with the deformation of the feet, while the latter leads to the development of varying degrees of instability of the hip joints.

However, the well-known orthopedic apparatus on the lower limb acts only on the hip joint, which is not enough for a comprehensive rehabilitation of the lower extremities, that is, it has limited indications for use.

In this case, concomitant deformations of the feet are not affected. In the known invention, the extension of the rods is not wide enough. The rods are made of steel, which makes the structure heavier.

A patient with a congenital dislocation of the hip in a known apparatus can move, but this device does not have any effect on the spatial position of the deformed feet, since only the hips are fixed with sleeves.

The known design cannot provide the elimination of the accompanying pathology of the hip joints of the deformations of the feet, requiring spatial regulation of their relative positions.

The technical solution to this problem is to create an orthopedic apparatus that allows simultaneous treatment of combined pathologies at the level of the ankle and hip joints and consists of a sliding rod made in the form of two rods of titanium alloy interconnected by guiding mechanisms, while to the sliding rod by means of fasteners lateral sliding rods are attached, the lower ends of which are connected by fasteners to the lower sliding rod, the ends of of which the spheres are made of elastic polymeric material, while the spheres are mounted on the base with a through cruciform hole and fixed on it by an arc-shaped bracket attached to the base by a screw pair and a fixing bolt, while the spheres, bases, and arc-shaped brackets form spatial regulation nodes, and each base of the spatial regulation nodes is connected via fasteners to the rear calcaneal region of the sleeve section of the right and left foot, and each sleeve with tops by means of polymer elastic hinges, connected to the sleeve of the lower leg, and the sleeve of the lower leg and foot are made in the form of a spatial figure, wrapping the lower leg and foot and made of thermoformed composite material.

The proposed design of the orthopedic apparatus allows complex treatment of children, affecting the ankle and hip joints, while the effect of treatment is carried out simultaneously on the ankle and hip joints, given their biomechanical relationship.

The orthopedic apparatus consists of a lower sliding bar 1, a sliding bar 2 and two lateral sliding rods 3, interconnected by means of fasteners 4, sleeves of the right and left thighs 5 connected by means of elastic elements 6 to the sliding bar 2, sleeves of the right and left shins 7, connected to the sleeves of the feet 8 using elastic polymer hinges 9, and the sleeves of the feet 8 are connected to the nodes of spatial regulation 10, which are connected to the ends of the rods 22 of the lower sliding rod 1. Fastening the orthopedic app rata to the patient by means of textile pile fasteners "Contact" 11 (FIG. 1).

The sliding rod 2, the lower sliding rod 1 and the two lateral sliding rods 3 are each of two rods 13 interconnected by a guiding mechanism 12, which allows the rods to be moved relative to each other, changing the distance between the sleeves of the thigh, foot and lower leg, as well as between a sliding bar, a lower sliding bar and two side sliding bars. The rods of all rods are made of titanium alloy, which ensures the ease of construction of the apparatus.

The guide mechanism 12 consists of a bracket 14, a limiting washer 15, a bolt 16, a nut 17 and a gasket 18 (Fig. 2).

The position of the rods relative to each other is fixed by a bolt 16 and a nut 17. The bracket 14 restricts the movement of the rods and directs their plane-parallel movement relative to each other. To change the distance between the sleeve sleeves, the nut is untwisted, the influence of the restrictive washer on the rod is weakened, the fasteners 4 are untwisted, the rods are moved to a predetermined amount and the new position of the lower sliding rod is fixed by nut 17. In order to ensure the safety of the child and the inability to unscrew the fixing mechanism, a protective cap is made of elastomeric material.

The calf, foot and thigh liners are made of a composite material based on carbon fabric, which facilitates the weight of the apparatus. Composite material intended for the manufacture of shin and foot sleeves is made according to a certain technology and has different stiffness. The different rigidity of the shin and foot sleeves not only facilitates the dressing of the apparatus, but also gives elasticity to the foot sleeve.

To the ends of the rods of the lower sliding rod 1 through the spatial adjustment unit 10 are connected in the heel region of the sleeve of the right and left feet 8.

The spatial control unit consists of: a base 19, with a cross-shaped hole 20, a sphere 21, a rod 22 of the lower sliding rod 1, an arc-shaped bracket 23 connected to the base by means of a screw pair 24, a fixing bolt 25 and holes in the base for rivets 26 (Fig. 3 )

By turning the sphere 21 relative to the arcuate bracket 23 and the base 19, when loosening the bolt 25 and then fixing it, it is possible to set the feet of the legs relative to each other in three-dimensional space. Moreover, the position of the foot relative to the sagittal plane, thanks to the sphere, can be set in the segment from 0 to 45 ° (Fig. 1) in any position of the three-dimensional space, in accordance with the testimony of the orthopedic surgeon.

In FIG. 4 shows the spatial control units 10 in the assembly with a lower sliding rod 1, consisting of two rods 13 and guide mechanisms 12.

In FIG. 5 shows a sphere mounted on a rod.

Due to the original design of the spatial regulation unit, it is possible to install it either on the heel (Fig. 6, a, b), or on the plantar area of the foot sleeves (Fig. 6, c), and the shin and foot sleeves can be made in the form of a single shell form (Fig. 6, g), or detachable using as a connecting orthopedic apparatus depends on the type of disease, the age of the patient and the recommendations of the orthopedic surgeon.

The manufacture of an orthopedic apparatus is carried out in the following sequence.

An orthopedic surgeon examines the patient and determines the pathological settings of the lower extremities (feet and hip joints); gives recommendations to the master-orthosis specialist according to the appearance of the orthopedic apparatus. In the event that it is necessary to make an apparatus with a sleeve of the ankle joint, consisting of two shells - the lower leg and foot, the master takes the casts from the hip, lower leg and foot, and, in accordance with the casts, makes sleeves. At the same time, a spatial control unit is assembled. To do this, during the manufacturing process, the end of the rod is placed in the injection mold and molded onto the end, filling the polymer material, with a sphere; carry out polymerization. Similarly, the second sphere is formed on the rod. Then, two rods with spheres are taken and the free ends of the rods are installed in the guiding mechanism: they unscrew the nut 17, remove the gasket 18 and the limit washer 15. The right and left free ends of the rods 13 are installed in the bracket 14, put the limit washer and gasket on the bolt. The rods are moved relative to each other by the required amount, determined by the orthopedic surgeon, and secured with a nut 17. The calf shafts are connected to the stop sleeves with polymer hinges 9. Next, the bases of the spatial regulation unit 19 are attached to the heel of the stop sleeves 19. Then, the sphere, with the adjusted bar, is installed on the cross-shaped holes 20 of the base of the spatial regulation unit 19. An arc-shaped bracket 23 is attached to the base with a screw pair 24. The sphere is pressed against the base by an arc-shaped bracket and the position of the fixing bolt 25 is fixed (preliminary). After this, in accordance with the recommendations of the orthopedic surgeon, the foot sleeves are installed and the sphere is finally fixed with the fixing bolt 25.

The sliding bar 2 is set in size, in accordance with the recommendations of the orthopedic surgeon, in the same way as the lower sliding bar. At the ends of the rods of the sliding rod 2, elastic elements 6 are installed, to which the sleeves of the right and left thighs are attached 5. Then, similarly to the lower sliding rod, the sizes of the lateral sliding rods are installed and, via fasteners 4, they are attached to the lower sliding rod 1 and the sliding rod 2 .

The device is worn on the patient in the following sequence: first, they put the sleeves on the left and right thighs and fasten them with “Contact” textile fasteners. Then the patient’s legs are placed in the shin and foot sleeves, the latter are set in the necessary medical condition, and fixed with “Contact” textile fasteners. Due to the fact that the sleeves of the lower leg and foot are made of composite material having different stiffness, dressing the device does not cause difficulties. When walking, movements in the ankle joints are possible, which facilitates the movement of the patient in the apparatus.

The essence of the invention lies in the fact that the position of the foot relative to the sagittal plane, due to the functioning of the spatial regulation nodes, can be set in a segment from 0 to 45 ° in any position of three-dimensional space, depending on the type of pathological installation of the foot and in accordance with the appointment of an orthopedic surgeon.

The design of the spatial control unit allows you to install it, either on the back calcaneal, or on the plantar area of the sleeves of the feet.

In the process of treatment, there is a need to change the position of the feet relative to each other and the distance between the thigh sleeves and the foot sleeves, which is carried out, in the proposed invention, using the spatial regulation unit (changing the position of the sphere with an unbent arcuate bracket) and the design of the guiding mechanisms along which the rods rods can be moved in parallel with respect to each other, as well as due to fasteners. The parameters of the lower leg and thigh sleeve are regulated by textile pile fasteners and by molding their configuration with a technical hot air gun.

Thus, the design of the proposed orthopedic apparatus allows not only not to change the orthopedic apparatus for the entire long period of treatment, but also to simultaneously correct the pathological position of the hip and ankle joints, given their biomechanical relationship.

Orthopedic apparatus is intended for the treatment of patients both in statics, for example, in a lying or sitting position, and in dynamics, when walking.

An orthosis of 10 children aged 2 to 4 years with lesions of the lower extremities was performed - the equinus and flat-valgus installation of the feet in combination with unilateral and bilateral lesions of the hip joints. The results of the orthosis of all patients are positive. An improvement in walking pattern was observed after a month. In children, normalization of the biomechanical characteristics of the step was noted, directional mobility of the foot was formed in the sagittal plane when walking. There was an improvement in the movements and stability of the hip joints. Orthosis of the proposed device allowed to reduce the duration of the treatment process by 20%.

The claimed invention has the following advantages:

- an orthopedic apparatus has been created that allows children to be treated for various pathologies of the ankle joints characterized by supination, adduction and equinus of the foot, as well as when the foot sags in combination with pathologies of the hip joint requiring spatial regulation of the position of the feet;

- the original design of the spatial adjustment unit was invented, including a sphere made of elastic elastic polymer material, a base and an arcuate bracket that allows the lower extremities to take in any three-dimensional space any position in the volume segment from 0 to 45 °, depending on the doctor's prescription;

- the construction of the orthopedic apparatus is facilitated by the manufacture of sleeves using a composite material based on carbon fibers and fabrics, the manufacture of hinges and spheres from an elastic elastic polymeric material, as well as rod rods from a titanium alloy;

- the design of a guide mechanism for the movement of the rods relative to each other;

- an orthopedic apparatus has been created, the design of which allows one product to be used for the entire long period of treatment;

- a universal orthopedic apparatus was created, since the spatial regulation unit can be installed on the foot sleeve of various sizes, both on the back calcaneal and on the plantar area of the foot sleeve, depending on the appointment of the orthopedic surgeon;

- increased social effect and reduced budget costs by reducing the duration of the patient treatment process by 20%.

Claims (1)

Orthopedic apparatus, consisting of a sliding rod, to the ends of which are attached by means of elastic elements of the sleeve of the right and left thigh, characterized in that the sliding rod is made in the form of two rods of titanium alloy, interconnected by guiding mechanisms, while to the rod by means of a fastener connected lateral sliding rods, the lower ends of which are connected by fasteners to the lower sliding rod, the ends of the rods of which have spheres of elastic polymeric material, the spheres are mounted on the base with a through cross-shaped hole and fixed on it by an arcuate bracket attached to the base by a screw pair and a fixing bolt, while the spheres, bases and arcuate brackets form spatial control units, with each base of the spatial control units connected to the rear by means of fasteners the heel region of the sleeve section of the right and left foot, and each sleeve of the foot by means of polymer elastic joints connected to the sleeve tibia, the leg and foot sleeve are made as a spatial figure, shin and foot wraps, and made of thermoformable composite.

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