RU178266U1 - Magnetic simulator for classes on the restoration of spatial memory in patients of a neurological clinic by storing the spatial orientation of the figures - Google Patents

Abstract

The utility model “Magnetic simulator for classes in restoring spatial memory in patients of a neurological clinic by storing the spatial orientation of figures” relates to medicine in the section of neurology and neuropsychology and can be used in neurorehabilitation departments of neurological and neurosurgical clinics when conducting classes to restore spatial memory in patients with a neurological Clinics with organic brain damage. A useful model contains plastic a square box-shaped case (1) with a side size of 110-130 mm, a height of 10-20 mm, inside of which a metal plate (2) 0.5-1 mm thick made of metal with magnetic properties is rigidly fixed on the bottom surface, the shape and the size of which corresponds to the shape and size of the bottom of the case (1), and on the surface of the metal plate (2) a work plate (3) made of light-colored plastic is 2-3 mm thick, the shape and size of which correspond to the shape and size of the metal plate (3) ), while on the surface of the working the plates (3) are marked in the form of horizontal, vertical and diagonal lines (4) of dark color, at the intersections of which there are nine holes with a diameter of 8-12 mm, in which magnetic figures are mounted rotatably (5). The declared “magnetic simulator” allows to carry out classes on the restoration of impaired spatial memory by storing the spatial orientation of figures with a wide contingent of patients in a neurological clinic, including patients with hand tremors, impaired fine motor skills, and t The same applies to bedridden patients. An important value of the “magnetic simulator” lies in the fact that its use introduces an element of novelty in the process of rehabilitation exercises with patients, turning them into a psychological training that is fascinating and interesting for patients.

Description

This useful model relates to medicine in the section of neurology and neuropsychology and can be used in neurorehabilitation departments of neurological and neurosurgical clinics when conducting classes to restore impaired spatial memory in patients of a neurological clinic by storing the spatial orientation of the figures.

Spatial memory is one of the types of memory aimed at remembering the spatial location of objects, people, physical stimuli (National Psychological Encyclopedia, Spatial memory, found on 01/05/18 on the Internet at http://vocabulary.ru/termin/prostranstvennaja-pamjat .html).

Like other types of human memory, spatial memory is impaired in various neurological diseases associated primarily with damage to the tertiary parietal-temporal-occipital departments of the cerebral cortex.

One of the effective methods of restoring spatial memory in patients of a neurological clinic is a method based on storing the spatial orientation of the figures. This method consists in the fact that a group of identical figures with different spatial orientations, for example, multidirectional arrows, is presented to the patient for memorization and subsequent reproduction.

To implement this method in practical work with patients at a neurological clinic, various printing simulators and devices are used.

So, a simulator is known in which on the upper part of the printed sheet is an image of twenty horizontally or vertically oriented segments with two points at the ends. The student needs to memorize the spatial orientation of these segments for a minute, and then draw these segments from memory in accordance with their spatial orientation at the bottom of the simulator's printed sheet (Angels Navarro, Memory does not change. Tasks and puzzles for the development of intelligence and memory - M. : Mann, Ivanov and Ferber, 2017 .-- p. 60).

The disadvantages of this simulator when using it for classes to restore impaired spatial memory in patients of a neurological clinic by storing the spatial orientation of the figures are:

a) the presence of only two options for the spatial orientation of the figures of this simulator, which are located in a vertical or horizontal position;

b) the difficulty of performing graphic actions for patients in a neurological clinic with the presence of hand tremors and impaired fine motor skills;

c) the working material of this simulator can be used only once, since after drawing the segments on the paper sheet there is a trace from the writing instrument;

d) insufficient amount of working material contained in this printing simulator for conducting long courses to restore impaired spatial memory;

d) the need for a solid horizontal surface to perform graphical actions;

f) low interest in classes with materials of printing simulators in a number of patients in a neurological clinic due to the monotony of working with them.

Also known is a simulator in which four rows of spatially oriented figures are located on the printed sheet, which are curly arrows that differ in direction: left, right, up, down. The student needs to memorize them for one and a half minutes, and then reproduce them from memory on a separate sheet of paper (Angels Navarro, Memory does not change. Tasks and puzzles for the development of intelligence and memory, - M .: Mann, Ivanov and Ferber, 2017. - p. 102).

The disadvantages of this simulator when using it for classes to restore impaired spatial memory in patients of a neurological clinic by storing the spatial orientation of the figures are:

a) the presence of only four options for the spatial orientation of the figures of this simulator, differing in the spatial position of the arrow: top-bottom, left-right;

b) difficulties in completing tasks for drawing figures for patients at a neurological clinic with tremor in the hands and impaired fine motor skills;

c) insufficient amount of working material contained in this printing simulator for conducting long courses to restore spatial memory;

d) the need for a solid horizontal surface to perform graphical actions;

e) low interest in classes with materials of printing simulators in a number of patients in a neurological clinic due to the monotony of working with them.

Also known from the existing level of technology is “A simulator device for training to restore impaired spatial memory in patients of a neurological clinic” (Patent RU 168971 U1, published 02.28.2017).

Structurally, this device consists of a plastic box-shaped case with a height of 20-30 mm and a size of 100 × 100 to 200 × 200 mm, inside which an LED backlight is installed, and on top of the case there is a transparent and matte plate fixed between which there is an internal cavity into which the workers are placed cards on which various images are applied, for example, arrows pointing in different directions. Hidden from the patient, thanks to the matte plate, the images of the arrows become visible after the LED backlight is turned on for a certain time. The patient needs to remember the location and direction of the arrows, and after turning off the LED backlight, apply them with a memory marker on the matte plate.

The disadvantages of this device when used for classes to restore impaired spatial memory in patients with a neurological clinic by storing the spatial orientation of the figures are:

a) difficulties in performing graphic actions for patients with tremor of the hands or impaired fine motor skills;

b) the inconvenience of exercising with this device for bedridden patients due to the difficulty of holding devices in their hand, the dimensions of which can be 200 × 200 mm;

c) the technical complexity of the device, which includes electronic components (LEDs, timers, dimmer, etc.).

In order to overcome the above drawbacks, a “Magnetic simulator for classes on the restoration of spatial memory in patients of a neurological clinic by the method of storing the spatial orientation of the figures” (hereinafter referred to as “magnetic simulator”) was developed.

The tasks to be solved by the claimed technical solution are:

a) providing the opportunity to practice with a "magnetic simulator" for patients in a neurological clinic with the presence of hand tremors and impaired fine motor skills;

b) the availability of classes for bedridden patients due to the compact size of the "magnetic simulator", which makes it easy to hold it in your hand;

c) the simplicity of the design of the "magnetic simulator", providing the possibility of its widespread implementation in the practice of working with patients.

The technical result of the claimed utility model is to expand the functionality of the "Device simulator for classes on the restoration of impaired spatial memory in patients of a neurological clinic," provided by the structural elements of the inventive "magnetic simulator", allowing classes on the restoration of impaired spatial memory by storing spatial orientation figures with a wide contingent of patients in a neurological clinic, including patients with m tremor of hands, impaired fine motor skills, as well as bedridden patients.

This technical result is achieved due to the fact that the “magnetic simulator” contains a square box-shaped square body made of plastic, with a side size of 110-130 mm, a height of 10-20 mm, inside of which a metal plate made of metal with magnetic properties is rigidly fixed to the bottom surface 0.5-1 mm thick, the shape and size of which correspond to the shape and size of the bottom of the case, and on the surface of the metal plate a work plate made of light-colored plastic is 2-3 mm thick, the shape and the size of which corresponds to the shape and size of the metal plate, while on the surface of the working plate there is a marking in the form of horizontal, vertical and diagonal lines of dark color, at the intersections of which there are nine holes with a diameter of 8-12 mm, in which magnetic figures are mounted for rotation.

In a preferred embodiment of the “magnetic simulator”, the thickness of the bottom of the body is 2-3 mm, the wall thickness is 2-4 mm.

In a preferred embodiment of the “magnetic simulator”, the marking lines have a thickness of 0.5-1 mm and can be solid or dashed.

In a preferred embodiment of the “magnetic simulator”, the magnetic figures may be in the form of a rhombus or a rectangle.

The essence of the utility model "Magnetic simulator for classes on the restoration of spatial memory in patients of a neurological clinic by storing the spatial orientation of the figures" is illustrated by the drawings, which depict:

In FIG. 1 is a view of a “magnetic simulator” without magnetic figures;

In FIG. 2 - "magnetic simulator" with the same oriented magnetic figures;

In FIG. 3 - an example of a work card intended for use in the classroom with a "magnetic simulator";

In FIG. 4 - "magnetic simulator" with magnetic figures located in accordance with the task of the work card.

The proposed "magnetic simulator" is a square box-shaped case made of plastic (1), with a side size of 110-130 mm, a height of 10-20 mm, a bottom thickness of 2-3 mm, a wall thickness of 2-4 mm (see Fig. 1 )

Inside the body (1) on the bottom surface is rigidly fixed (for example, by means of an adhesive joint) a metal plate (2) made of metal with magnetic properties (for example steel) 0.5-1 mm thick, the shape and size of which correspond to the shape and size of the bottom housing (1).

On the surface of the metal plate (2) is fixedly fixed (for example, by means of adhesive bonding) a light-colored plastic work plate (3) 2-3 mm thick, the shape and size of which correspond to the shape and size of the metal plate (3).

On the surface of the working plate (3), markings are made in the form of horizontal, vertical and diagonal lines (4) of a dark color (see Fig. 1) at the intersections of which 9 (nine) holes are made, with a diameter of 8-12 mm, located in 3 (three ) rows of 3 (three) holes in each row, which are designed to install magnetic shapes (5) in them, held in the holes due to magnetic forces (see Fig. 2).

The distance between the marking lines (4) is determined locally, based on the dimensions of the working plate (3) and the magnetic figures used (5).

Marking lines (4) have a thickness of 0.5-1 mm and can be solid or dashed.

Inside the housing (1), in the holes of the working plate (3), 9 (nine) magnetic figures (5) are rotatably mounted which can be used as:

a) finished magnets for blackboards, having the shape of a rhombus or rectangle,

b) magnetic figures specially made to work with the device.

As finished magnetic figures in the work with the device, for example, “Elegance” magnets with a diamond shape can be used (Labyrinth.ru, Stationery, Magnets set of 6 pieces “Elegance”, 30 mm (658006-02), found 05.01.2018 on the Internet at https: // www. labirint.ru/office/302443/).

Each magnet "Elegance" is made of plastic in the form of a rhombus, size 30 × 22 mm, the upper part of which has a thickness of 3 mm, and in the lower part there is a protrusion of a round shape with a diameter of 12 mm and a height of 4 mm, inside of which there is a magnet.

Magnetic figures specially made to work with the “magnetic simulator” must have a similar design, the upper part of which is made in the form of a geometric figure (rhombus or rectangle), and the lower part is in the form of a protrusion of a round shape with a magnet, by means of which the magnetic figure can be rotated in holes on the working plate (3).

In case the top surface of each magnetic figure has a uniform color, the options for its spatial orientation are determined by four positions that the magnetic figure can occupy in accordance with four marking lines (3): vertical position, horizontal position and two diagonal positions.

To increase the spatial orientation of the magnetic figures (5), half of the upper surface of each magnetic figure (5) is painted in a different color (see Fig. 2), due to which the number of spatial orientation variants of the magnetic figures (5) doubles and reaches 8 ( eight).

Thus, due to the use of magnetic figures (5), recorded due to magnetic forces on the surface of the working plate (3) of the “magnetic simulator”, classes to restore spatial memory can be carried out with patients in a neurological clinic with tremor of hands and impaired fine motor skills, and thanks to compact the size of the "magnetic simulator" classes can be conducted with bedridden patients.

The “magnetic simulator” package includes a printed manual consisting of 20-30 work cards (6) (see Fig. 3), each of which on the front and back contains a task for memorization, which is an image (7) of magnetic figures on work plate. Moreover, images (7) of magnetic figures have different spatial orientations.

Due to the square shape of the card (6), it can be located in front of the patient in four different positions, as a result of which the volume of exercises with each card (6) increases four times, which is important for long-term recovery courses of impaired spatial memory.

For storage and transportation of the “magnetic simulator” a cover made of their fabric material is used (not shown in the figures).

The "Magnetic simulator for classes on the restoration of spatial memory in patients of a neurological clinic by storing the spatial orientation of the figures" works as follows:

Before the start of the lesson, the patient selects one of the work cards (6) and within 15-20 seconds remembers the spatial orientation of the images (7) of the magnetic figures contained on it (see Fig. 3), after which he closes the work card used (6) with a blank sheet paper.

Next, the patient should try to reproduce from memory the spatial orientation of the images (7) of the magnetic figures on the card (6) by turning each of the real magnetic figures (5) of the "magnetic simulator" at a similar angle (see Fig. 4) in accordance with the ones applied to the working plate (3) by lines (4).

If the patient is experiencing difficulties, he can briefly lift a sheet of paper covering the work card (6), thus receiving a hint.

The degree of complexity of the tasks performed by the patient to restore spatial memory by storing the spatial orientation of the figures is determined by the following:

a) the time interval during which the patient memorizes the spatial orientation of the images (7) of the magnetic figures on the working card (6);

b) the number of images (7) of the magnetic figures on the working card (6) the spatial orientation of which the patient must remember and reproduce.

The simplest is to remember the spatial orientation of one row of images (7) of magnetic figures, the number of which is 3 (three) pieces;

It is more difficult to remember the spatial orientation of two rows of images (7) of magnetic figures, the total number of which is 6 (six) pieces;

The most difficult is to remember the spatial orientation of all images (7) of magnetic figures, the total number of which is 9 (nine) pieces.

Along with the use of a "magnetic simulator" when restoring impaired spatial memory in patients of a neurological clinic, it can be widely used in the following cases:

a) when conducting classes on preventive training of spatial memory in patients with a neurological clinic;

b) when conducting correctional and developmental classes with children with impaired spatial memory;

c) during neurocognitive trainings with people of advanced and senile age;

d) as an exciting game for training spatial memory in healthy children and adults.

Thus, the “magnetic simulator” allows classes to restore impaired spatial memory by storing the spatial orientation of figures with a wide contingent of patients in a neurological clinic, including patients with hand tremors, impaired fine motor skills, and bedridden patients.

The importance of the “magnetic simulator” lies in the fact that its use introduces an element of novelty into the process of rehabilitation classes with patients, turning them into a psychological training that is fascinating and interesting for patients.

Claims (4)

1. A magnetic simulator for classes to restore spatial memory in patients of a neurological clinic by storing the spatial orientation of the figures, characterized in that it contains a square box-shaped body made of plastic, with a side size of 110-130 mm, a height of 10-20 mm, inside of which the bottom surface of the bottom is rigidly fixed made of metal with magnetic properties of a metal plate with a thickness of 0.5-1 mm, the shape and size of which correspond to the shape and size of the bottom of the body, and on the surface metallic 2-3 mm thick work plate made of light-colored plastic, the shape and size of which corresponds to the shape and size of the metal plate, with markings in the form of horizontal, vertical and diagonal lines of dark color, at the intersections of which made nine holes with a diameter of 8-12 mm, in which magnetic figures are mounted with the possibility of rotation. 2. The magnetic simulator according to claim 1, characterized in that the thickness of the bottom of the body is 2-3 mm, the wall thickness is 2-4 mm. 3. The magnetic simulator according to claim 1, characterized in that the marking lines have a thickness of 0.5-1 mm and can be solid or dotted. 4. The magnetic simulator according to claim 1, characterized in that the magnetic figures can be in the form of a rhombus or a rectangle.

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