RU105162U1 - DEVICE FOR RESTORING BRAIN FUNCTIONS USING PHYSICAL LOAD - Google Patents

Abstract

 1. Device for restoring brain functions using physical activity, characterized in that it contains a horizontal base on the support, a patient coverage element connected through flexible rods and supporting elements to the load node, fixing the lower limbs, a beam is installed in front of the base for support placement of the load node, the base is equipped with a footrest made in the form of a rounded board, the coverage element is made in the form of a frame structure of interwoven belts, repeating the upper back of the patient, and has a link for connecting to a flexible rod, the flexible rod is made in the form of cables passed through rings installed on the sides of the base, the cables are connected in a ring installed in front of the load node, and the fixing device is made of at least two canvases of elastic material, which are fixed in the slots on one of the sides of the base, and on the opposite side of the base are fixed by a tension mechanism, which is made in the form of mechanical levers and attached to the base . ! 2. The device according to claim 1, characterized in that as a load node a winch with a handle is installed, equipped with a locking device.

Description

The utility model relates to the field of restorative medicine, namely to devices that perform forced physical exertion on the muscles and body of a person, and can be used for rehabilitation purposes to restore impaired brain functions (central nervous system).

Known methods and devices for physiotherapeutic treatment of the central nervous system (1), by creating an artificial electromagnetic pulse to separate groups of human muscles, stimulating the functions of the brain and spinal cord. The disadvantage of such devices is that with this treatment there is no synchronous response of the internal organs and systems of the human body to the applied stimulation (electromagnetic impulses).

A known method and device for creating a physical load of progressive-regressive type on the muscles of a person (2). This device is applicable for muscle training and cannot be used for medicinal purposes.

A device for stretching the spine of a patient (3), creating a forced physical load on the right and left parts of the spine, containing support for sitting and a traction mechanism, including an element of body coverage in the form of axillary rings, each of which is flexible, through supporting blocks, connected with load node. The pelvic fastening element is made in the form of elastic belts, and the load node is made in the form of a drum with a helm.

In this case, the patient rotates the helm by himself, twists the cable onto the drum and spins the spine, individually dosing the force of influence according to the degree of pain.

There is also a known method and device used in sports medicine and for the rehabilitation of the musculoskeletal system (4). This device creates a facilitating force on the patient’s body in a vertical plane with simultaneous force forced action on the lower limbs in a horizontal plane and an electro-stimulating effect on the muscles.

A device for stretching the spine (5) is known, containing two frames, one of which is installed in a horizontal position, a support platform is placed in the frame, in the form of a shield, for placing the patient in a horizontal plane. Frames can change relative position relative to each other.

To apply the load to the spine, there is a means of interaction with the human head (patient coverage element) in the form of a rigid frame made with the possibility of placing on the side and back sides of the lower part of the patient's head. The frame represents two crossbars detachably connected to the rubber core made of any solid material. The ends of each crossbar are connected to the ends of the rods corresponding to them, which are connected to the suspension. The ends of the suspension are connected by a flexible connection through a rod to the shaft of the worm (load) mechanism.

The device’s rod is passed through a block whose axis is fixed to the support. One end of the rod is connected with a rigid frame, and the other with the shaft of the worm gear, which is a loading unit, equipped with a handle and placed on the back of the support • The lower part of the shield is connected to the device for fixing the lower limbs of the patient.

This device allows the treatment and prevention of diseases associated with the musculoskeletal system by stretching all parts of the spine.

The disadvantage of all the above devices with the use of forced physical activity is that they significantly limit the scope of their application relative to other diseases, due to the fact that the load is applied to a specific biomechanical unit (joints, spine, limbs, etc.).

The technical result of the proposed utility model is the creation of a device that provides a forced maximum possible load on the musculoskeletal system and muscles of the entire human body, used to treat and restore brain functions (central nervous system).

The technical result is achieved by the fact that the device for restoring brain functions using physical activity contains a horizontal base on a support, a patient coverage element connected through flexible rods, supporting elements with a loading unit and a fixing device for the lower extremities, a beam is installed on the device support for placement load node, the base is equipped with a footrest made in the form of a rounded board, the patient coverage element is made in the form of a frame structure made of interwoven strap , repeating the upper back and has a link for connecting with a flexible rod, the flexible rod is made in the form of cables passed through rings installed on the sides of the base, the cables are connected in a ring installed in front of the load node, and the locking device is made of at least two canvases of elastic material, which are fixed in the slots on one of the sides of the base, and on the opposite side of the base are fixed by a tension mechanism, which is made in the form of mechanical levers and attached to the base vanyu.

A winch with a handle equipped with a locking device is installed as a load unit.

A general view of the proposed device is presented in figure 1. In figures 2. and 3. are presented, respectively, the view from the top and the side view of the sitting patient in an initial fixed position. In figures 4. 5. and 6. the support elements and nodes of flexible traction are shown in detail.

The proposed device contains supports 1 in the form of a beam, on which, horizontally, a base 2 is installed with an emphasis for legs 3. In front of the base, perpendicularly, a beam 4 is installed on which a load device 5 is placed. Rings 6 are installed on the sides of the base through which flexible traction 7 - cables connected at one end to the patient coverage element 8. The cables passing through the base rings 6 converge in the ring 9 and are wound on the shaft of the load unit 5. The load unit 5 is made in the form of a winch and is equipped with a locking device. The cables 7, passing through the rings of the base 6 converge in the ring 9 and are wound on the winch shaft. The patient enrollment element 8 is made in the form of a frame structure of interconnected (intertwined) belts and has a link 10 for connecting to the cable 7. Slots 11 are made on one of the sides of the base, in which elastic webs are fixed 12. On the opposite side of the base are installed devices for fixing elastic webs 12, made in the form of mechanical levers 13, attached to the base through the board 14.

The proposed utility model works as follows.

The patient is seated on a horizontal base 2 and legs are fixed using canvases 12 made of elastic material, changing the position of the tension mechanism with the lever 13. Next, a belt structure 8 is placed on the shoulders and back of the patient, tightly covering the upper back. Then, using a winch 5 connected to the cable 7, a load is created on the patient’s body and the patient’s torso is lifted relative to the fixed legs in a vertical position.

Rotating the handle of the winch 5, the doctor pre-pulls the entire cable system, fixing the patient's posture. Further, the doctor, increasing the rotation of the winch handle 5, gradually loads the musculoskeletal system and patient muscles with a static isometric load. At the same time, they simultaneously set the physical load on the muscles of the shoulder-scapular and hip belt, as well as the entire spine. This is repeated repeatedly and gradually, and the load is carried out to the elastic barrier, which contributes to the electro-activation of the brain.

Monitoring the load limit is carried out using sensors installed: on the head (electroencephalography), on the chest (electrocardiography), on the limbs (electroneuromyography and tonometry), etc.

Changing the applied load is carried out using the load block, a control device that is equipped with a program corresponding to the profile of the load change and position sensors, reflecting the patient's condition under the influence of muscle contraction and stretching. Each sensor reading corresponds to a specific power unit load.

Adaptation to any human activity is a complex multi-level process that affects various functional systems of the body (cardiovascular, respiratory, excretory). In physiological terms, adaptation to high muscle load (deep stretching and overstretching) is a systemic response of the body aimed at achieving high fitness and minimizing the physiological price for it (adaptation price).

Research in this area shows that a significant role in the effect of the functions of the brain and spinal cord is exerted by the intensive maximum duration (on the verge of tolerance) load on the patient’s muscles (type of training “to failure”), which leads to systemic activation of the central nervous system .

The created load activates the motion-stretching function, which forms an electrical signal of the central nervous system. Electrical signals are signs of a person’s short-term memory (long-term exercises using tensile exercises, by means of electrochemical conversion, change the metabolism in nerve cells, which is reflected in long-term memory.

Electrochemical conversion is the body's metabolism.

For example, during prolonged training of athletes and people with disabilities, including metabolism (homeostasis and geoneokinesis) and electrical processes in the brain (electrostatics and electrodynamics).

A classic example of metabolic changes during training (type of training to failure) is a change in the amount of hemoglobin in red blood cells. The norm of human red blood cells is 110-120 g / l, and for trained athletes after a long training session, 150-160 g / l. Training increases the level or concentration of hemoglobin (protein). This is a sign of stamina. Static endurance is formed through activation, which is the basic mechanism for a person to adapt to the load.

The training regimen (increase in load time, weight gain, muscle strain, increase in range of motion, etc.) restores lost or unformed functions in a sick person or a disabled person.

The proposed device creates the necessary dosage stretching. The main tensile reflex causes the generation of signals (electrical impulses) in the skeletal muscles of the patient. Stretching the skeletal muscles causes an increase in the electrical amplitude of the signals, the higher the amplitude of the muscle stretch, the higher the amplitude of the signal.

The ascending nerve fibers (afferent attack) impulses enter the brain (central nervous system) of the patient. Three groups of human cells, nerve, endocrine, and muscle, can generate electrical signals. The induced excitation of the bioelectrical activity of the brain leads to the activation of compensatory-adaptive reactions and regeneration (protective reaction) and the restoration of the patient's unformed or lost functions (motor defects, mental defects, speech defects). The recovery of brain functions unformed or lost as a result of an illness (movement, behavior, speech) occurs as a result of activation of the brain's electrical processes (excitation and inhibition). These electrical processes (reflex arc) form new structural relationships between neurons (brain cells), which manifest themselves in a change in the neuroplasticity and regeneration of the cells themselves.

The use of this device allows you to reliably place and apply physical stress to the patient's body to achieve the desired effect and result.

The proposed device was created in accordance with the scientific discovery “The Phenomenon of the Restoration of the Structural and Functional Organization of the Human Brain” according to the diploma No. 339 of May 23, 2007 and issued to Sergey Yurievich Myshlyaev.

Developing the concept of a long training process as a rehabilitation process, the author of the discovery, Sergey Yuryevich Myshlyaev, analyzed the great scientific experience gained by researchers in the field of adaptation of the body to repeated loads and applied it to the rehabilitation system of patients with already existing stable pathological functional systems.

Based on our own observations and treatment courses using the proposed device, we obtained results confirming that the successful restoration of lost functions is due to a system of activation of the electrical activity of the brain, leading to the stimulation of inflammatory and reparative processes in the nervous tissue and the management of regeneration.

Information sources:

1. Russian patent for the invention No. 2222362 "Method for the treatment of brain lesions", cl. A61N 1/32, publ. 01/27/2004.

2. Russian patent for the invention No. 2240163 "Method and device for creating a progressive-regressive type of physical activity in a device for training muscles", cl. A61B 21/068, publ. 10/20/2004.

3. Rossi's patent for utility model No. 62805 "Device for spinal traction in patients with osteochondrosis of the spine", KL. A61P 5/01, publ. 05/10/2007.

4. Russian patent for the invention No. 2276600 "Method for the rehabilitation of patients with pathology of the musculoskeletal system", cl. A61H 1/00, publ. 01/10/2006.

5 Russian patent for utility model No. 56180 "Device for spinal traction", cl. A61H 1/02, publ. 09/10/2006.

Claims (2)

1. A device for restoring brain functions using physical activity, characterized in that it contains a horizontal base on the support, a patient coverage element connected through flexible rods and supporting elements to the load node, fixing the lower limbs, a beam is installed in front of the base for support placement of the load node, the base is equipped with an emphasis for legs, made in the form of a rounded board, the coverage element is made in the form of a frame structure of interwoven belts, repeating the upper back of the patient, and has a link for connecting to a flexible rod, the flexible rod is made in the form of cables passed through rings installed on the sides of the base, the cables are connected in a ring installed in front of the load node, and the fixing device is made of at least two canvases of elastic material, which are fixed in the slots on one of the sides of the base, and on the opposite side of the base are fixed by a tension mechanism, which is made in the form of mechanical levers and attached to the base . 2. The device according to claim 1, characterized in that a load winch with a handle equipped with a locking device is installed as a load unit.