RU2216297C2 - Vacuum splint - Google Patents

Abstract

FIELD: medical equipment; applicable in rehabilitation of patients with disturbances of locomotor function of lower extremities. SUBSTANCE: splint consists of airtight flexible chamber of polymer material and provided with check valve. Chamber accommodates insert made from textile material with chamber shape and size. Insert has several vertical sections filled with granules from foamed polystyrene. Chamber is placed inside case from textile material with one-sided polymer coating. Fastened to case are fixing straps. Technical result of invention consists in provision of walking of patient with disturbances of locomotor function of lower extremities due to transfer of weight load onto splint with rarefaction created in its chamber. EFFECT: higher quality of treatment. 2 dwg

Description

 The invention relates to medical equipment, specifically to a vacuum-frame orthopedic support tires, which can be used in the rehabilitation treatment of patients with disorders of the musculoskeletal function of the lower extremities of various etiologies.

 Various universal orthopedic devices are known, the basis of which is a metal or polyethylene carcass, consisting of tires pivotally connected to each other in places corresponding to the location of the joint, and leather or plastic sleeves, sometimes a longet [1].

 The disadvantage of such devices is their cumbersomeness and difficulty in putting on and, as a result, the reluctance of patients to use them.

 In hospitals, plaster casts are often used, which are bandaged to the lower extremities. Their disadvantage is the relatively large weight and the difficulty in installing and adjusting the foot relative to the lower leg.

 Vacuum transport tires are known with an integrated support for the foot, with integrated reduction mechanics. These tires fix the limbs, without pressure provide optimal stabilization of the damaged limb [2, 3].

 However, the well-known transport vacuum tires are used only as an immobilizing agent and are intended to provide emergency trauma care at the stage of medical evacuation of victims to a medical institution.

 Closest to the proposed device is a fixing device, including an airtight flexible bag made of nylon fabric coated with urethane, filled with a large number of light polystyrene balls of the same diameter exceeding 5 mm and equipped with a self-closing valve in contact with the cavity from which the air is pumped out. Tapes are attached to the edges of the pouch to maintain the pouch in a position wrapped around the limb before and after air evacuation. The locking device is designed to limit the movement of body parts or limbs. Balls move freely in a bag and can accumulate in those places where support is most needed. When air is pumped out of the pouch, the balls are compressed by a compressible pouch and deformed, tightly fitting the limb to support and limit its movement. The bag takes on a certain shape in which it tightly surrounds the supported part of the body. After using the bag, air is again let into it through the valve. This allows the balls to move freely around the pouch. The bag folds and can be removed from the limb after unfastening (untying) the ribbons [4] - prototype.

 However, the known fixing device can only be used as an immobilizing agent and cannot be used as an orthopedic support tire in the rehabilitation treatment of patients with impaired musculoskeletal function of the lower extremities.

 The objective of the invention is to improve the quality of rehabilitation treatment of patients with impaired musculoskeletal function of the lower extremities.

 The problem is solved in that in a vacuum-frame tire, consisting of a sealed flexible chamber made of a polymeric material containing granules of expanded polystyrene as filler, equipped with a self-closing valve and fixing tapes to secure it around the limb, according to the invention, the expanded polystyrene granules are placed in vertical sections of the liner inside the camera and made of textile material in the shape and size of the camera, the camera is located inside the textile cover of material with a single-sided polymer coating, which has a sling on textile fasteners, the fixing tapes are fixed on the cover, the tire further comprises a foot traction system, including a holder attached to the cover with straps and buckles with a movable link and a stirrup made of a sling with an inserted elastic tape and connected with a holder with straps and carabiners, while the tire has a recess in the groin area.

 The traction system is designed to reliably fix the position of the foot relative to the lower leg, which is carried out by adjusting the length of the belts using buckles with a movable link.

 The liner of textile material, divided by a line into several vertical sections filled with granules of expanded polystyrene, provides a rigid carcass tire when creating a vacuum in the tire chamber using a vacuum pump.

 The cover serves to protect the camera from mechanical damage and has a swing on textile fasteners to put the cover on the camera.

 A non-return valve is mounted in the chamber, which ensures its connection to the vacuum pump and preservation of vacuum inside the chamber after pumping air, and a bayonet lock is placed on the cover to open the non-return valve and air to enter the tire chamber.

 The recess in the upper part of the tire allows you to take into account the anatomical and topographic features of the surface of the support for the thigh covered by the tire, and create a reliable support for the lower limb.

 The proposed vacuum-frame tire is an orthopedic support tire and is intended to provide technical assistance when moving a patient with a violation of the musculoskeletal system by transferring the supporting load to the tire when creating a vacuum in its chamber.

 The invention is illustrated by drawings. Figure 1 shows the design of the proposed tire. The tire consists of a sealed flexible chamber made of polymer material 1, a liner of textile material with vertical sections 2 filled with granules of expanded polystyrene 3. Chamber 1 is located inside the cover 4. Fixing tapes are fixed on the cover 5. The check valve 6 is mounted on the cover, on the cover a bayonet lock is placed 7. The foot traction system includes a holder 8 attached to the case with straps 9 and buckles with a movable link 10 and a stirrup 11 connected to the holder with straps and carabiners (12. There is a recess in the upper part of the tire e 13. Figure 2 shows the position of the tire on the lower limb.

 Description of work with a vacuum-frame orthopedic support tire.

 Tires are put on the legs of the patient, in a horizontal position, in turn.

 Previously, shoes are put on the patient.

 The tire is placed under the patient’s leg, and, if necessary, the granules are distributed over the surface of the vertical sections of the tire liner to create a comfortable product thickness in a certain area, for example, groin. The tire is wrapped around the leg and its position is fixed by textile fasteners (belts). The recess of the top of the tire is located in the groin. The holder of the tie-in system must be strictly in the middle of the leg and pass through the knee. The clasp should be located on the side.

 A vacuum pump is connected to the non-return valve and air is slightly pumped out of the tire chamber to form a slight stiffness of the tire. The fasteners are unfastened and a tighter fit of the tire along the leg is carried out and, if necessary, an additional distribution of granules. Then air is again pumped out of the tire chamber until a rigid skeleton is formed. If necessary, you can once again re-fit the tire along the leg for a more tight fit with its legs.

 Stirrup with elastic band up is put on shoes and with the help of belts and buckles the position of the foot is regulated to the right and to the left, flexion and extension.

 After this, the patient with the help of the arena rises to his feet and, resting his hands on the arena, begins to move forward, while leaning on a rigid tire. At the same time, you can tighten the belts of the traction system on the go, adjusting the position of the foot for ease of movement.

The use of the proposed orthopedic supporting vacuum-frame tire provides the following advantages:
1. Lightness of tires, ease of putting on and fitting on the leg, convenience and ease of regulation of the foot relative to the lower leg, aesthetic appearance contribute to the patient’s desire to use a set of tires, including it in the plan of daily treatment measures.

 2. The patient can stand or move independently, using the arena, walkers or crutches, relying on tires, for from 30 minutes to 2 hours.

 3. The patient can independently or with the help of the arena, walkers or crutches stand or move, relying on tires, at a distance of 50 to 200 m.

 4. Reusable.

 5. The ability to quickly put on or take off tires.

 Tests of the orthopedic supporting vacuum-frame tire confirmed its high efficiency during rehabilitation treatment of patients with impaired musculoskeletal function of the lower extremities (test report is attached).

 The proposed tire is supposed to be used in the neurological departments of hospitals and in the process of independent rehabilitation treatment.

Sources of information
1. Patent 2088273, Russia, MKI ⁶ A 61 N 1/36, A 61 V 5/103, A 61 F 2/60, 1997

2. Patent 19708945, Germany, MKI ⁶ A 61 F 5/058, 1998

3. Patent 4239064, Germany, MKI ⁶ A 61 F 5/04, 1994

4. Patent 4657003, USA, MKI ⁶ A 61 F 5/04, 1987, Prototype.

Claims (1)

 Vacuum tire containing a sealed flexible chamber made of a polymeric material filled with granules of expanded polystyrene, equipped with a check valve, and fixing tapes mounted on the cover, characterized in that the granules of expanded polystyrene are placed in the vertical sections of the liner located inside the chamber made of textile material in the shape and size of the camera, the camera is located inside the cover of textile material with a one-sided polymer coating, a holder with straps and lugs with a movable link and a stirrup connected to the holder by belts and carabiners, while the tire has a groove in the upper part in the groin area.

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