RU189690U1 - SIMULATOR FOR THE RESTORATION OF SUPPORT AND MOTOR APPARATUS IN CHILDREN WITH A CHILDREN'S CEREBRAL PARALICH - Google Patents

Abstract

The proposed simulator includes a flexible frame in the form of a detachable supporting axillary grip, on the outer surface of which there are fastening elements: in the upper part - to the thrust, in the lower part - to the cuffs for the lower extremities, and at the side ends - to connect the axillary grip into a closed frame for patient's torso with the ability to regulate the internal perimeter of the axillary grip. The cuffs are made in the form of two oppositely directed L-shaped elements with rounded ends and rounded transitions of the vertical part into the horizontal part. Adjustable elements attached to the axillary grip are placed on the outer surface of each cuff in the area of the transition between the vertical and horizontal parts; fasteners for connecting the cuffs are placed on the outer surface of the vertical part of the cuff; fasteners for connecting the cuff are closed at the ends of the outer cuffs loop to support the lower extremities with the ability to control the inner perimeter of a closed loop. The inner surface of each cuff and axillary grip is made in the form of a soft volume lining, the thrust is made in the form of two lines with fastening elements on the ends and in the middle part of the outer surface of each line.

Description

The utility model relates to medical technology and can be used for medical and social rehabilitation of patients with disorders of the musculoskeletal system associated with diseases of the cerebral palsy and other cerebral pathologies, injuries.

Modern medicine can not yet offer a method that would completely cure such a serious disease as cerebral palsy. Therefore, it is very important to help such a child adapt to life as much as possible. All work with children suffering from cerebral palsy is aimed at improving the quality of his life.

Early rehabilitation of a child with cerebral palsy is quite important, both from a psychological and medical point of view. In order for the child to learn to repeat such body movements that correspond to the gestures of a normal person, special devices are used. In this case, the correct choice of devices plays a crucial role in the overall development of such a child. Special attention is paid to devices that help to carry out the sitting, standing and movement of a sick child.

A device is known (RF patent No. 2126666, IPC A61F 5/00, publ. 1998.02.27), which contains a saddle of two flat lines that form the hip loops of the left and right legs, as well as two chest and two backed vertical flat lines, fastened in pairs over the head of the patient, to fix it to the horizontal power bar, the dorsal left vertical flat sling passes through the patient's inguinal area to the right thigh and then into the right breast vertical flat sling, the dorsal right vertical flat sling passes through the inguinal region be a patient on his left thigh and then left breastplate vertical flat strap, forming a saddle with branches crossed loops hips left and right feet, the seat hinge at the intersection rigidly secured together. At the same time, one chest and one dorsal vertical lines are crossed at the side and fastened at the places of their crossing by stop elements, two back vertical lines are interconnected by locking elements at the required height, two chest vertical lines are connected at the required height. The vertical slings connected in pairs are fastened to the ends of the spacer bar of any profile, which, in turn, are rigidly fixed in a stopper element freely installed in the case of the turntable with the possibility of rotation around a horizontal axis. The pinwheel is equipped with a bearing for its rotation around a vertical axis.

The known device allows you to achieve fixation of the patient in an upright position, while removing the load of its own weight from his legs and freeing his hands. In addition, this device allows the patient to freely turn during exercise around his axis in one direction or another, the possibility of free deviation from the vertical axis in any direction.

The disadvantages of this device include the inability to adjust the lines for adjustment to a specific patient or in the process of patient growth. The slings in the process of performing exercises cut into the patient's body and erase the skin in the area of contact with the patient's body. In addition, in this simulator, no correction of the muscles or the position of the patient’s body is provided at all; it is simply a supporting device that can be used to work with relatively “healthy” patients. In severe forms of cerebral palsy, this device is not applicable.

The closest to the proposed is a simulator for patients with cerebral palsy (RF patent for utility model No. 46430, IPC А61Н 3/00, publ. 10.07.2005), which includes a patient suspension with the ability to change its length, a support element and a fixture suspension. The suspension is made in the form of a vertically oriented design, the lower part of which is a flexible frame for the lower part of the patient’s body with a bandage for the lower back, equipped with four elastic lower rods connecting the bandage with the knee joints. The cuffs of the joints are connected by eight elastic rods with foot bands made in the form of horizontal supporting elements, and the lower back band is equipped with two closed oval rods attached to the side portions of the lower back band and downward and inward of the frame. The upper part of the structure is equipped with a triangular element, the edges of the lower side of which are connected to the lateral parts of the lower back bandage by means of four flexible diverging angles. The upper corner of the triangular element through a hinge assembly is connected with a flexible barn, equipped with a device for changing its length. Flexible thrust, in turn, is connected to a supporting element for moving the patient with the help of a mount, in addition, the upper part of the suspension is equipped with a measuring device that records the change in the influence of body weight on the supporting-motive apparatus of the patient during its movement on the simulator.

A flexible frame for the lower part of the body, together with closed oval rods, ensures the maintenance of the patient's body in the correct position.

The disadvantages include the uncomfortable use, due to the implementation of oval rods, as in the RF patent 2126666, in the form of lines. The lines are adjusted only according to the height of the suspension of the device itself, for adjustment to a specific patient or during patient growth, the lines are not regulated. In addition, this simulator is also not applicable when working with patients with severe forms of cerebral palsy.

The task (technical result) of the proposed utility model is the creation of a simulator free from the disadvantages described above.

The set is solved by the fact that the simulator for the recovery of the musculoskeletal system in children with cerebral palsy includes a flexible frame for the patient's body, a cuff for the lower extremities, cravings, equipped with a device for changing its length, and an attachment unit. According to the proposed utility model, the flexible frame for the patient's body is made in the form of a detachable supporting axillary grip, on the outer surface of which the fastening elements are placed: in the upper part - to the thrust, in the lower part - to the cuffs for the lower extremities, and on the lateral ends - to connect the axillary grip in a closed frame for the body of the patient with the ability to regulate the inner perimeter of the axillary grip. The inner surface of the axillary grip is made in the form of a soft volumetric lining, the cuffs for the lower extremities are made in the form of two oppositely directed L-shaped elements with rounded ends and rounded transitions of the vertical part into the horizontal part. Adjustable elements attached to the axillary grip are placed on the outer surface of each cuff in the area of the transition between the vertical and horizontal parts; fasteners for connecting the cuffs are placed on the outer surface of the vertical part of the cuff; fasteners for connecting the cuff are closed at the ends of the outer cuffs loop to support the lower extremities with the ability to control the inner perimeter of a closed loop. The inner surface of each cuff is made in the form of a soft volumetric lining, the thrust is made in the form of two lines with fastening elements on the ends and in the middle part of the outer surface of each line.

Soft volumetric pads on the inner surfaces of the axillary grip and cuffs for the lower extremities ensure a comfortable fixation of the patient's body in the correct position, eliminating the likelihood of erasing the skin at the point of contact of the simulator with the patient's body. The L-shaped cuff after connection into a closed loop provides pressure on the adductors during the workout, which allows eliminating cross legs in patients with severe cerebral palsy, accompanied by hyperkinesis.

The proposed set of features provides the ability to control the simulator depending on the anatomical features of the patient, the severity of cerebral palsy, even just the type of exercises that will be performed.

The utility model is illustrated by photographs, where in FIG. 1 and 2 presents a general view of the proposed simulator from the outside, respectively, with fastened and unfastened upper rods; in fig. 3 - the same on the inside; Fig 4, 5 - a general view of the simulator with cuffs forming a closed loop, connected to each other and with the axillary grip, respectively, front view and rear view; in fig. 6, 7, respectively, cuff for the lower extremities and axillary grip; in fig. 8 - thrust; in fig. 9 is a photograph of an example of the use of the inventive simulator.

The simulator for the restoration of the musculoskeletal system in children with cerebral palsy includes a flexible frame for the patient's body in the form of a detachable supporting axillary grip 1, on the outer surface of which fastening elements are placed: in the upper part 2 - to the thrust 3, in the lower part 4, 5 - to cuffs 6 for the lower extremities, and at the lateral ends 7 - to connect the axillary grip 1 into a closed frame for the patient's body with the possibility of adjusting the inner perimeter of the axillary grip 1. Inner surface axillary grip 1 is made in the form of a soft volumetric lining. The cuff 6 for the lower extremities are made in the form of two oppositely directed L-shaped elements with rounded ends and rounded transitions of the vertical part into the horizontal part. On the outer surface of each cuff 6 in the area of the transition of the vertical part 8 into the horizontal 9 placed adjustable length fastening elements 10 to the axillary grip 1, on the outer surface of the vertical part 8 cuff 6 posted fastening elements 11 for connecting the cuffs 6 to each other, on the ends of the outer surface cuff 6, fastening elements 12, 13 are placed for connecting the cuff 6 into a closed loop to support the lower limbs with the possibility of adjusting the internal perimeter of the closed loop. The inner surface 14 of each cuff 6 is made in the form of a soft volumetric lining, the thrust 3 is made in the form of two lines with fasteners 15 at the ends and 16 in the middle part of the outer surface of each line.

The proposed simulator works as follows.

The L-shaped cuffs 6 are attached to the axillary grip 1 as shown in FIG. 1, 2, 3, 4 and 5. For this purpose, fastening elements 10 on cuffs 6 are connected with fastening elements 4 on axillary arm 1. Traction 3 is attached to axillary arm 1. For this purpose fastening elements 15 on each end of rod 3 are connected to fasteners 2 on the axillary grip 1. Position the device with the inner surface upward and place the patient on it so that the axillary grip 1 and the cuff 6 are located respectively in the axillary and inguinal areas of the patient's body. Formed from cuffs 6 closed loops around each lower limb of the patient. For this, the cuff 6 covers the lower limb of the patient and connects the fastening elements 12 and 13. Thus, each L-shaped cuff 6 covers the corresponding lower limb of the patient, putting pressure on the adductor muscles, which allows to eliminate the crosses of the lower extremities caused by hyperkinesis and set the patient anatomically correct position. For an even more convenient connection, a fixing elastic 17 can be additionally placed on the outer horizontal part of the cuff 6, through which the fastening element 12 is passed before its connection with the fastening element 13. Then the axillary grip 1 covers the patient's body in the axillary region and connects the axillary grip into a closed frame . To do this, connect the fastening elements 7. Fasteners 16 in the middle of the pillars 3 are connected, if necessary, with any guide device, for example, with a strap. It is also possible to simply hold the 3 in the hands of the coach, conducting rehabilitation activities with the patient, without using guide devices. Set the vertical position of the patient's body and begin to conduct rehabilitation activities.

To ensure the implementation of rehabilitation measures with maintaining the patient's body in a horizontal position, additional fastening elements can be placed: 18 in the middle part of the vertical portion of the L-shaped cuff 3 and 19 on the axillary grip 1.

In this case, the thrust 3 is connected to the axillary grip 1 and the cuffs 6. For this, the fastening elements 15-19, 15-18 are connected in pairs. All other actions are carried out in the same way as in the case of the vertical location of the patient. Only now the thrust 3 will be placed in the axillary and inguinal areas of the patient and, accordingly, when raising the thrusts 3 the patient's body will be given a horizontal position.

Claims (1)

Simulator for the restoration of the musculoskeletal system in children with cerebral palsy, including a flexible frame for the patient’s torso, cuffs for the lower extremities and cravings, equipped with a device for changing its length and an attachment unit, characterized in that the flexible frame for the patient’s torso is in the form detachable supporting axillary grip, on the outer surface of which the fastening elements are placed: in the upper part - to the thrust, in the lower part - to the cuffs for the lower extremities, and on the side ends - for joining the axillary grip into a closed frame for the patient's body with the ability to control the inner perimeter of the axillary grip; the inner surface of the axillary grip is made in the form of a soft volumetric lining, the cuffs for the lower extremities are made in the form of two oppositely directed L-shaped elements with rounded ends and rounded transitions of the vertical part in the horizontal part, on the outer surface of each cuff in the transition area of the vertical part in the horizontal one elements of fastening to the axillary grip adjustable in length, on the outer surface of the vertical part of the cuff there are fastening elements for joint cuffs between themselves, on the ends of the outer surface of the cuffs are mounted fasteners for connecting the cuff into a closed loop to support the lower extremities with the ability to regulate the inner perimeter of the closed loop, the inner surface of each cuff is made in the form of a soft volume lining, thrust is made in the form of two lines with elements mounting on the ends and in the middle part of the outer surface of each line.

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