RU193319U1 - ORTHESIS FOR IMMOBILIZATION OF THE Ankle - Google Patents

Abstract

An orthosis for immobilization of the ankle is intended for local immobilization of bones and connective tissues of the human ankle. The device is made of a low-temperature thermoplastic material based on polycaprolactone with a surface coating of foamed polyurethane, characterized in that its cut is a trapezoidal figure, the sides of which are concave inward, the upper base is concave inward, the corners between the sides and the lower base are concave inward, having perforation on the entire plane, and the sides of the cut of the orthosis along the entire length are equipped with a zipper. The device provides the possibility of local immobilization of the human ankle. Features of the materials of the device provides a small weight and small volume. The device can stretch to the size necessary for the patient. The device accurately follows the contour of the surface on which it is applied. Perforation over the entire surface of the cut device provides constant ventilation of the immobilized area, which allows you to maintain the necessary level of hygiene. The plasticity of the materials of the device allows you to safely simulate the device after installing it on the limb of the patient. The device can be removed and worn back at any time. The materials of the device are non-contrast in x-rays, which allows you to shoot in x-rays without removing the device from the patient. As can be seen from the text of the abstract, it includes all the essential features of the utility model formula .; as well as additional information regarding the scope and achieved technical effect.

Description

The technical field to which the utility model belongs.

The present utility model relates to the field of medicine, namely to orthopedic devices for non-surgical treatment of the musculoskeletal system.

state of the art

Currently, there is an urgent need in the domestic market for patient-friendly and functional orthopedic devices for long-term immobilization or direct pressure for the treatment of broken or deformed bones and other injuries of limbs made of modern universal materials and, in particular, such devices designed for local immobilization of bones and connective tissues of the human ankle.

The prior art apparatus for the ankle joint, which is a frame with a movable joint and a screw rod, which allows you to fix the foot in the ankle joint at various angles, simulate it on the extremities, orthoses of the polyvik with straps, fastened foot support with interchangeable heels (RU 2140230 C1 , published on 10.27.1999).

The main disadvantage of this apparatus is the inability to ensure, through its use, immobilization of the ankle joint to the extent necessary for orthopedic and traumatological purposes in the treatment of human bone fractures.

The apparatus also provides a system of methods of fixation in the form of straps, which, firstly, does not provide the necessary degree of reliable fixation of the device on the limbs of the patient and, secondly, is inconvenient for the patient due to the possible pinching of blood vessels.

Closest to the claimed technical solution is the classic way of immobilizing a person’s limbs by applying circular (implying the immobilization of the entire limb) or longitudinal (implying local immobilization) plaster dressings, which includes applying plaster mass or strips of softened gypsum to the injured limb with fixation by bandaging. Hardened gypsum forms a rigid dressing that prevents movement in the injured limb and ensures its immobilization (SB Korolev, NB Tochilina, SP. Vvedensky. Plaster technique in the outpatient practice of a traumatologist. Publishing House PIMU. Nizhny Novgorod: 2006).

The disadvantages of this method is the need for re-applying the plaster cast after each removal due to the chemical properties of the gypsum, which do not allow changing its shape after hardening. Also, the plaster cast does not allow the shooting of the injured limb in x-rays due to the high contrast of the plaster in x-rays. Traditional gypsum dressings also do not provide the necessary level of hygiene in a closed area, since this method involves the patient wearing a gypsum dressing for several days without airing and disinfecting the immobilized area with continuous secretion of the human skin surface. One of the significant disadvantages of this method is the large weight and volume of the plaster cast, which causes significant inconvenience to the patient.

disclosure of the essence of a utility model

The objective of the claimed utility model is to expand the functionality of orthopedic devices for prolonged immobilization or direct pressure to treat broken or deformed bones and other injuries of the lower limbs of a person while reducing their cost and complexity of the processes of their manufacture and installation on the injured limb of the patient. In particular, on the area of the human ankle.

This problem is solved due to the fact that the claimed device - an orthosis for immobilization of the ankle - is made of a low-temperature thermoplastic material based on polycaprolactone with a surface coating of foamed polyurethane, characterized in that its cut is a trapezoidal figure, the sides of which are concave inward, the upper base concave inward, the angles between the sides and the lower base are concave inward, having perforation along its entire plane, with the sides of the cut orte over the entire length equipped with a zipper.

The technical result provided by the given set of features is the possibility of local immobilization of the human ankle. Features of the chemical composition of the materials from which the device is made provide a small weight of the device and its small volume, which is convenient for the patient during everyday wear outside the hospital. At the same time, the device is manufactured in four sizes - three sizes intended for adult patients, and one - for children - and due to the plasticity of the materials can be stretched to the size necessary for the patient. High strength and functionality of the device is ensured by stretching the cut of the orthosis to 15 percent of its original size. The plasticity of the materials also makes it possible to simulate the cut of the orthosis when placing it on the patient's limbs, as a result of which the device accurately repeats the contour of the surface on which it is applied. Perforation over the entire surface of the cut device provides constant ventilation of the immobilized area, which allows you to maintain the necessary level of hygiene. Also, the plasticity of the materials of the device allows you to safely simulate the device after installing it on the limb of the patient through local temperature exposure. Fixing devices allow you to remove and put on the device for the purpose of conducting physiotherapeutic measures or hygienic treatment without compromising its design at any time. The materials of the device are non-contrast in x-rays, which allows you to shoot the injured limb of the patient in x-rays without removing the device from the patient.

brief description of the drawings

The essence of the utility model is illustrated in the drawing (Fig. 1), which shows:

1. The main part (surface) of the orthosis;

2. The upper side of the cut of the orthosis;

3. The lower side of the cut of the orthosis;

4. Concave corners at the bottom of the orthosis;

5. A fastener "lightning";

6. The sides of the cut orthosis.

utility model implementation

The device operates as follows. The patient is placed in a supine position, the damaged limb of the patient is placed on a solid, stable surface. After which the device is heated to a state of softening and plasticity of its materials. The device can be heated by exposure to hot water ("water bath") at temperatures up to 70 ° C, by exposure to hot steam at temperatures up to 90 ° C, by exposure to heated air at temperatures up to 150 ° C, by using a thermostatic table. A device heated to a state of plasticity is superimposed on the injured limb of the patient. After placing the device on the patient, its edges are fastened by fastening the zipper. The orthosis cools and takes on a firm shape directly on the patient. Stiffening, the device takes the necessary shape of the limb of the patient. The solidification and solidification time of the device is from three to five minutes. The solidification process of the device can be accelerated by applying a cooling spray, exposure to chilled water, a stream of chilled air, or using ice. After hardening, the device for local orthopedic and traumatological purposes provides local immobilization of the ankle of the patient.

Claims (1)

An orthosis for local immobilization of the ankle made of a low-temperature thermoplastic material based on polycaprolactone with a surface coating of foamed polyurethane, characterized in that its cut is a trapezoidal figure, the sides of which are concave inward, the upper base is concave inward, the angles between the sides and the lower base concave inward, having perforation along the entire plane, and the sides of the cut of the orthosis along the entire length are equipped with a zipper.

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