RU2794817C1 - Atlas correction method and device for its implementation - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: vibration-point massage and reflexotherapy. Method for correcting rotatory subluxation of the atlas includes complex diagnostics and subsequent elimination of spasm of the muscles of the atlanto-occipital zone by means of vibration-point massage, which is performed symmetrically on paired suboccipital muscles in the following sequence: posterior rectus minor, posterior major, inferior oblique muscle of the head, superior oblique head muscle, on one side and in the same manner on the other side, using a massage device with a pressure exposure of 3 to 5 seconds. Device for correction of rotatory subluxation of the atlas consists of a cylindrical metal body, an electric motor with a planetary gear, a pusher, a control unit and a power supply unit, a carriage on which a massage finger is fixed. The nozzle of the massage finger is equipped with an operating rounded end with a radius of 3 to 7.5 millimeters. The stem of the massage finger and two side guides block the rotation of the massage finger around its axis. The pusher has a wavy surface with symmetrical tops and troughs in the axial section. The weight of the device is from 1200 to 1500 grams.

EFFECT: detection of violations of biomechanics in the craniovertebral region, improvement of blood supply to the upper part of the spinal cord, cerebellum and posterior part of the brain, improvement of blood flow through the vertebral arteries, achievement of correct paired symmetrical control of the suboccipital muscles, normalization of mobility in the atlanto-occipital and atlanto-axial joints and elimination of hyperaffermation of proprioceptive sensitivity, which contributes to the formation of new motor programs without a limiting factor in the form of long-term spasmodic suboccipital muscles.

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Description

Technical field

SUBSTANCE: invention relates to medicine, mainly to vibratory acupressure, reflexology, and can be used to treat patients with atlas rotational subluxation.

Vibration-point massage is known as a method of reflex restorative therapy with a decrease in the reflex excitability of muscles that are in a spastic state to simultaneously strengthen paretic muscles, improve blood circulation and metabolic processes, and restore impaired motor functions. Acupressure of paretic extensors, stimulating their function, simultaneously causes relaxation of the antagonist-extensors, which are in a state of hypertonicity and reflex contractures. Stimulation of the paretic muscles with the help of acupressure of a certain strength and duration ensures the development of conditioned reflexes in the patient and leads to the restoration of the correct reciprocal (mutually regulating) relationships of the antagonist muscles.

State of the art

There is a method of therapeutic massage described in the book by L.A. Kunichev "Therapeutic massage", (L., "Medicine", 1980, pp. 154, 155), used for the treatment of osteochondrosis, including the impact on the paravertebral zones of all spinal segments from the underlying to the overlying. To do this, massage the interspinous spaces and spinous processes from the underlying vertebrae to the overlying ones and selective massage of pain zones and points in the interspinous and intercostal spaces, while the impact on the paravertebral zones is performed using stroking, rubbing and kneading techniques, etc. However, this method is not effective enough, since the selective massage of pain zones and points reflexively causes the appearance of new pain zones.

The patent literature contains information about several methods of treating individual manifestations or consequences of craniovertebral dysfunction.

A known method for the treatment of cervical osteochondrosis with concomitant vertebral artery syndrome, including manual therapy according to the patent for the invention RU 2150929, priority date 07.04.1997, IPC A61H 1/00 (2000.01). This method consists in detecting deviations in the position of the spinous processes of the vertebrae at the level of C1-C3, C5-C7, making an impact on the displaced spinous processes aimed at restoring the position of the vertebrae, and the impact is carried out from the caudal to the cranial direction. The disadvantage of this technique is that it can be traumatic for patients.

Known patent for inventions RU 2005456, priority date 25.02.1993, IPC A61H 23/00 (1990.01), which describes a method for the treatment of osteochondrosis, which is carried out as follows. The patient's spine is palpated in a sitting or standing position, the presence of spasm (hypertonicity) in the paravertebral muscles, local defense (LD) is detected. Further, depending on the location of the LD detected during palpation, the head is fixed (the LD is installed in the cervical spine) or the spine segment (in the remaining parts of the spine) proximal to the muscle with the LD. Then jerky tractions are simultaneously carried out in the cranial direction and pressure in the sagittal plane on the LD. The disadvantage of the known method is that the method involves intense single-stage jerky traction of the body, which can lead to complications, damage to the musculoskeletal system, as well as to displacement of the vertebrae.

There is also known a method for the treatment of chronic vertebrobasilar insufficiency, including a course of reflex-corrective therapy by manual squeezing and kneading with fingers on the radicular and reflex zones in the cervical spine in combination with a course of breathing exercises, with a course of yoga exercises, with taking hot baths at a temperature of 41- 43°C and in compliance with a vegetable diet, according to the patent for the invention RLJ 2066169, priority date 23.05.1994, IPC A61H 23/00 (1995.01). Manual therapy techniques cause relaxation of the spasmodic muscles of the cervical spine, which reflexively restores the blood supply to the roots. Breathing exercises and taking hot baths improve the condition of the brain vessels, and following a plant-based diet leads to a decrease in intoxication and causes positive metabolic changes in the body, favorably affecting the patient's overall well-being. However, when using the known method, it is not possible to eliminate or significantly reduce degenerative processes in the muscles and tendon-ligament formations, especially at the level of the craniovertebral region. The method is characterized by complexity and laboriousness, because depending on the severity of clinical disorders, it provides for 15 to 32 procedures with a frequency of 2 times a week, and at the first stage requires hospitalization in a neurological hospital. In addition, manual exposure can cause vascular complications and aggravate the clinical picture.

Also known is a patent for an invention under RU 2571234, priority date 12/26/2014, IPC A61N 23/00 (2006.01), A61B 6/00 (2006.01), A61K 31/245 (2006.01), A61K 31/714 (2006.01), A61R 21 /00 (2006.01) for a method for the treatment of chronic spondylogenic syndrome of vertebrobasilar insufficiency, including X-ray diagnostics, determination of the nature of chronic injuries of the craniovertebral region and their degenerative complications. Further, in accordance with the known method, a palpatory examination of the superficial and deep muscles of the craniovertebral region and the neck as a whole, as well as accessible palpation points of attachment of muscles, capsules of the atlantoaxial joints, is carried out, areas requiring therapeutic exposure are identified, and a series of intramuscular therapeutic injections are made into the region of the cervical of the spine with a 0.25% solution of novocaine and vitamin B12 into trigger points throughout the neck and craniovertebral region. After the second session of injection therapy, the cervical spine is stretched using a traction collar. The disadvantage of this method is a multi-stage, invasive technique that does not eliminate the root cause of the disease.

Closest to the claimed method in terms of essential features is a method for the treatment of osteochondrosis of the cervical spine, including the detection of neck muscle hypertonicity and its subsequent elimination by pressure on the muscles in the sagittal plane, head fixation and distraction of the ligamentous-muscular apparatus of the neck, patent for invention RU 2243758 , priority date 06.02.2003, IPC А61Н 1/00 (2000.01). adopted as a prototype.

The known method is carried out as follows. They clasp the patient's head from behind with one hand, turn it 10-15 ° to the side and fix it until the superficial and middle muscles of the neck relax, press the thumb in the sagittal plane on the occipital-vertebral muscles, as well as on the muscles located between the transverse processes C1-C7, until the patient relaxes. After that, a similar effect is carried out on similar muscles of the other side. Further, the patient's head is fixed with one hand for the mastoid processes, and with the other for his shoulders, and the traction of the muscular-ligamentous apparatus of the neck is carried out by forced rotation in different directions and bending of the head. After that, the patient's shoulders are alternately fixed while simultaneously alternately bending the head in the frontal plane until an angle of 30° is formed with the shoulder girdle. Then, with the palm of the hand, the head is fixed with one hand for the mastoid processes, and with the other hand for the lower jaw, and with the forearm, the hands rest against the back of the patient to create a leverage and make forced turns of the head to the shoulder girdle, while the angle of rotation at the beginning of classes is 10-15 ° , then it is increased, reaching 90 ° for a cycle of classes.

The reasons preventing the achievement of the claimed technical results of this method include the following:

• the focus of the technique on the prevention of complications in the form of damage to the musculoskeletal system, as well as displacement of the vertebrae, which does not allow to eliminate the cause at the level of the central nervous system;

• when diagnosing and selecting areas of influence, the author is guided by the definition of muscle hypertonicity by detecting active, painful trigger points, while not taking into account the possibility of painless latent trigger points, asymmetry in the tone of paired suboccipital muscles, the presence of functional blocks C0-C1, C1-C2;

• the criterion for achieving muscle relaxation is only a decrease in the intensity of pain during exposure to painful trigger points, the change in muscle density and its response during relaxation is not taken into account and is not monitored;

• the impact is made on all the occipital-vertebral muscles, as well as on the muscles located between the transverse processes of C1-C7, sequentially on all of the above muscles on the one hand, then on the other, followed by forced turns of the head and traction. This can lead to an increase in the tone of the muscle group and an increase in the imbalance of muscle control;

• exposure is carried out with the thumb, which does not provide sufficient duration and impact, as it requires prolonged and intense pressure on the trigger point with the thumb, which is physically difficult for the doctor, given the number of impact points;

• this method requires multiple repetitions and long-term complex therapy, is not effective enough to eliminate the difference in the tone of the paired suboccipital muscles;

• the achieved improvement in blood circulation is based on the fact that at the moment of exposure the patient receives a strong pain impulse. However, in this case, specific reactions of the body to pain come into force and the most important of them is increased blood circulation in the area that received the pain stimulus due to the reaction of the autonomic nervous system . Therefore, when using the known technique, a technical result in the form of improved blood circulation through the vertebral arteries with a long-term positive effect cannot be achieved.

Disclosure of invention

The claimed invention is aimed at solving the problem of treating craniovertebral dysfunction.

The use in clinical practice of the proposed method allows to achieve several technical (therapeutic) results:

• detection of violations of biomechanics in the craniovertebral region due to preliminary diagnostic procedures preceding the treatment session;

• improvement of blood supply to the upper part of the spinal cord, cerebellum and posterior part of the brain, improvement of blood flow through the vertebral arteries due to the elimination of different asymmetric tone of the paired suboccipital muscles and compression on the vertebral arteries;

• achievement of correct paired symmetrical control of the suboccipital muscles, normalization of mobility in the atlanto-occipital and atlanto-axial joints and elimination of hyperaffermation of proprioceptive sensitivity, which contributes to the formation of new motor programs without a limiting factor in the form of long-term spasmodic suboccipital muscles, due to the vibration-point effect on the suboccipital muscles in a certain sequence until reflex relaxation.

These technical (therapeutic) results in the implementation of the invention are achieved due to the fact that, just as in the known method, the state of hypertonicity of the neck muscles is detected, followed by its elimination by acting on the muscles in the sagittal plane perpendicular to the muscles.

The peculiarity of the proposed method lies in the fact that a comprehensive diagnosis of craniovertebral dysfunction is carried out in the following sequence.

• assessment of the symmetry of the location of the transverse processes of the atlas relative to the mastoid processes of the temporal bone;

• assessment of changes in the position of the transverse processes of the atlas in relation to the mastoid processes of the temporal bone during movement (rotation, flexion, extension, lateroflexion);

• assessment of simultaneity and smoothness of movements, sufficient volume, absence of additional movements in neighboring regions;

• identification of tension and muscle soreness by palpation of the body of the muscle, the patient's reaction (pain, tension), muscle spasm, the formation of painful seals in tense muscles, active and latent trigger points;

• assessment of range of motion, comparative diagnosis of head rotation in different directions;

• detection of back muscle tension (widespread or local);

• assessment of the volume and symmetry of movement, the presence of feedback from the patient about sensations in the muscles of the lower extremities and the lumbosacral spine;

• assessment of the uniformity of the length of the lower limbs.

After carrying out diagnostic procedures and assessing the state of the work of the joints of the craniovertebral region and the tone of the suboccipital muscles, the spasm of the suboccipital muscles is eliminated by means of reflex relaxation, achieved by vibration-point impact on the paired suboccipital muscles in the following sequence: the small posterior rectus muscle of the head, the large posterior muscle of the head, the lower oblique muscle of the head, superior oblique muscle of the head on one side and the same order on the other side.

Vibration-point impact on the trigger zones of the suboccipital muscles is carried out using a massager equipped with a rounded working end with a radius of 3 to 7.5 mm, specially designed taking into account the characteristics of the impact zone. Then the patient performs active turns of the head to the right and left.

After the procedure, all stages of diagnostics are repeated in order to determine changes in the dynamics of the joints and muscles of the craniovertebral region.

Brief description of the drawings

Fig. 1 - general view of the device.

Fig. 2 is a diagram of the principle of operation and regulation of the device.

Implementation of the invention

The symptom complex that develops with craniovertebral dysfunction includes clinical neurological pathology: cervicogenic headache, myofascial syndromes in the craniovertebral region, CSF dyscirculation syndrome, cervical and cervicocranialgic syndromes. At the same time, with the help of manual diagnostics, muscular-fascial, muscular-ligamentous, periosteal, capsular triggers, and functional blocks can be identified. With the help of osteopathic diagnostics, dysfunction of the craniosacral system can be diagnosed.

Thus, dysfunctions in the craniovertebral region are in the field of attention of neuropathologists, vertebrologists, specialists in manual therapy and osteopathy, including cranial osteopathy.

Often, the causes of craniovertebral dysfunction are a violation of the biomechanics of the spine and myofascial dysfunction with the formation of local muscle spasm of the suboccipital muscles, the main function of which is fine regulation of mobility in the atlantooccipital and atlantoaxial joints. Violation of biomechanics in the craniovertebral region leads to spasm of the suboccipital muscles, contractures, the appearance of latent trigger points in them, and regional muscle imbalance. Functional blocks С0-С1, С1-С2 are developing.

Instability in the craniovertebral zone may also be accompanied by chronic dynamic subluxation in the atlantooccipital and atlantoaxial joints. On the side of subluxation (posterior displacement of the lateral mass of the atlas), moderate atrophy (dystrophy of muscle fibers) is noted in the muscles, and hypertrophy of muscle fibers is noted on the opposite side (Skorobogach M.I., Liev A.A. The role of fascia in the pathogenesis of myofascial pain syndrome of the neck and of the shoulder girdle in children: clinical and anatomical experimental studies // International neurological journal. -2009. - No4 (26). - 105110.

The essence of the proposed method lies in the complex diagnosis of craniovertebral dysfunction in order to identify the pathology of the craniovertebral region, violations of the tone of the suboccipital muscles, functional blocks of the joints of the above area and its subsequent elimination by point impact on the trigger zones of the suboccipital muscles in a certain sequence, which is due to the anatomical location and functional potential of the suboccipital Muscles: right posterior rectus minor, left posterior rectus minor, right posterior major head, left posterior rectus major, right inferior oblique cap, left inferior oblique cap, right superior oblique cap, left superior oblique head muscle.

In the course of diagnostic procedures, the doctor assesses the state of the joints of the craniovertebral region and the tone of the suboccipital muscles. The procedures are carried out in the following sequence:

• assessment of the symmetry of the location of the transverse processes of the atlas relative to the mastoid processes of the occipital bone;

• assessment of changes in the position of the transverse processes of the atlas in relation to the mastoid processes of the occipital bone during head movements (rotation, flexion, extension, lateroflexion);

• assessment of the simultaneity and smoothness of movements, sufficient volume, the absence of additional movements in neighboring regions, which allows visually and/or palpation to determine the suboptimal dynamics, dysfunction of muscles and joints;

• determination of the sensitivity of the suboccipital muscles, identification of tension and muscle soreness, comparative diagnostics, palpation determination of the muscle body, the patient's response (pain, tension), muscle spasm, the formation of painful seals in tense muscles, active and latent trigger points;

•• assessment of range of motion, comparative diagnostics of head rotation in different directions;

• detection of tension in the back muscles (common or local), which indicates the area and level of pathology, which may be due to the interest of muscles, joints, vertebrae, discs, ligaments, nerve roots;

• assessment of the volume and symmetry of movement, the presence of feedback from the patient about sensations in the muscles of the lower extremities and the lumbosacral spine;

• assessment of the uniformity of the length of the lower limbs.

Diagnosis principle:

1. The patient is in a sitting position, the doctor stands behind him, palpates the mastoid processes of the occipital bone from both sides, descending lower, palpates the transverse processes of the atlas, evaluates the symmetry of the location of the transverse processes.

2. The doctor, without changing his position, places the index and middle fingers on the neck on both sides so that the tips of the index fingers are on the mastoid processes of the occipital bone, and the tips of the middle fingers are on the transverse processes of the atlas.

3. Then the doctor asks the patient to slowly rotate flexion, extension and lateroflexion as completely as possible, while assessing changes in the position of the transverse processes of the atlas in relation to the mastoid processes of the occipital bone. Assesses the simultaneity and smoothness of movements, sufficient volume, the absence of additional movements in neighboring regions, which allows visually and/or palpation to determine the suboptimal dynamics, dysfunction of muscles and joints.

4. At the next stage, the doctor palpates the suboccipital muscles. Determination of the sensitivity of the suboccipital muscles is detected by palpation and light movements with the second and third fingers of the hand, as well as with pressure, which allows the doctor to identify tension and muscle soreness, conduct comparative diagnostics, palpation determination of the muscle body, patient reactions (pain, tension), muscle spasm, formation in tense muscles of painful seals, active and latent trigger points.

5. With the index and middle fingers of both hands, the doctor symmetrically palpates the occipital, parotid, submandibular, chin, anterior cervical, posterior cervical lymph nodes. The procedure is carried out in order to identify enlarged lymph nodes, since their presence may indicate the presence of concomitant pathology and be a contraindication to the procedure.

6. Then the doctor blocks the main synergists of the suboccipital muscles when turning the head, namely the belt muscles and collateral sternocleidomastoid muscles, by intense compression and fixation with the fingers simultaneously from both sides. After that, the doctor conducts a study of active rotation of the head. The patient is asked to turn his head to the right, then to the left in order to assess the range of motion, to conduct a comparative diagnosis of turning the head in different directions.

7. For further diagnostics, the patient is placed on the massage couch with his stomach down, head straight, arms along the body. In this position, the doctor palpates the mastoid processes of the occipital bone, the transverse processes of the atlas, the posterior process of the axis, determines the condition and anatomy of the suboccipital muscles in the supine position in a relaxed state.

8. Without changing the position of the patient, the doctor palpates the muscles of the back. The doctor places the hand with fingers up in the paravertebral region to the left or right of the spinous processes at a distance of 3-5 cm. The study begins with the cervical region. The fingers are immersed in the muscles and sequentially moved towards the lumbar region. The working surface is the terminal phalanges of the II, III, IV fingers, which have the greatest sensitivity. Muscle palpation is carried out simultaneously with two hands located to the right and left of the spine, which allows you to identify tension in the back muscles, widespread or local, indicates the area and level of pathology, which may be due to the interest of muscles, joints, vertebrae, discs, ligaments, nerve roots.

9. Next, the doctor, being on the side of the patient’s feet, grasps the patient’s ankle joints from both sides, performs passive simultaneous flexion in the knee joints, movement of the posterior surface of the lower leg towards the posterior surface of the thigh, assesses the volume and symmetry of the movement, feedback from the patient about sensations in the muscles of the lower extremities and the lumbosacral spine.

After carrying out diagnostic techniques and assessing the state of the work of the joints of the craniovertebral region and the tone of the suboccipital muscles, the procedure for eliminating the diagnosed spasm of the posterior occipital muscles is started by means of reflex relaxation, which is carried out by vibration-point impact on the trigger zones of the suboccipital muscles.

The impact on the paired suboccipital muscles is carried out in a certain sequence: the right small posterior rectus muscle of the head, the left small posterior rectus muscle of the head, the right posterior large muscle of the head, the left posterior large rectus muscle of the head, the right lower oblique muscle of the head, the left lower oblique muscle of the head, the right superior oblique muscle of the head, left superior oblique muscle of the head. The sequence of exposure is determined by the functional characteristics and sensitivity of each of the pairs of suboccipital muscles. Exposure in the selected sequence is the safest and most comfortable for the patient.

The rectus posterior minor of the head - a short muscle passes from the medial part of the inferior nuchal line of the occipital bone directly above the large foramen, descends almost vertically down and attaches to the posterior tubercle of the atlas (C1).

The posterior rectus major muscle of the head originates from the lateral part of the inferior nuchal line of the occipital bone, then narrowing, obliquely passes over the C1 vertebra and attaches to the spinous process of the C2 vertebra.

The impact on the rectus muscles of the head first of all allows you to pre-release the tension that falls on the oblique muscles, and these muscles are less sensitive when exposed, which makes it much easier for the patient to endure the procedure.

The inferior oblique muscle of the head originates from the transverse process of the C1 vertebra, then passes obliquely medially and attaches to the spinous process of the C2 vertebra. Removing spasm by acting on these muscles removes a different tone, which, taking into account the anatomical features of muscle attachment, can cause additional tension in the upper oblique muscles.

The superior oblique muscle of the head, which starts from the occipital bone between the superior and inferior nuchal lines under the attachment of the lateral edge of the semispinalis capitis, then runs almost vertically and attaches to the transverse process of the C1 vertebra, is the most sensitive when exposed. In this regard, in addition to the anatomical features of the attachment, the impact on it is carried out last.

The symmetrical effect on the paired muscles makes it possible to eliminate the tone with the shortest time interval and prevent the occurrence of hypertonicity on the opposite side.

Vibration-point impact on the trigger zones of the suboccipital muscles is carried out using a massage device, specially designed taking into account the characteristics of the impact zone. The impact is carried out by the rounded working end of the massager, the semicircle radius of which ranges from 3 to 7.5 mm, which allows you to effectively act on trigger zones, the size of which, as you know, ranges from 2 to 10 mm.

A much higher degree of muscle relaxation can be achieved due to the resonance effect in the tissues of the human body. Any physical object has its own resonant frequency, depending on its size, density, etc.

The device shown in figure 1 provides for automatic smooth change in the vibration frequency according to a sinusoidal law. Thus, the muscles relax, and the maximum effectiveness of the impact on both large and small muscles is achieved. The dosed force of vibration allows to normalize the tone of the superior oblique, inferior oblique, small and large posterior muscles of the head, which form the C0/C2 plexus. The position of the atlas is corrected by its upper articular surface in relation to the occipital condyles of the foramen magnum of the skull base, which is intended for articulation with the atlas along the vertical axis.

One of the distinguishing features of the operation of this device is that the effect of the massage apparatus when working with the patient's tissues is carried out due to the force of the device's own weight, and not due to the force of pressure by the therapist on it. This eliminates the possibility of excessive pressure, which can lead to injuries in the working area, as well as excessive pain or, conversely, insufficient impact, which reduces the effectiveness of the procedure and increases the risk of relapse.

Thus, established during the tests conducted to evaluate the clinical effectiveness of this device, the weight of the massage apparatus in the range from 1200 to 1500 grams allows you to most effectively influence the muscles that form the C0 / C2 plexus to achieve the desired result.

In one embodiment of the present invention, the exact weight of the massage apparatus is 1 kilogram 330 grams.

The general view of the device is shown in Fig. 1, the device consists of a metal case 3 of a cylindrical shape, an electric motor with a planetary gear 4, a software with elements for damping electromagnetic interference from the operation of the engine and an element and a power supply circuit for an IR emitter 2, a power cable 1. The device operates according to the following principle,

the output shaft of the motor 4 rotates the pusher 5, which moves the carriage 6, on which the massage finger 11 is fixed. The spring 7 ensures constant contact of the carriage 6 with the wavy surface of the pusher 5, thereby ensuring the exact repetition of the curvilinear shape of the pusher 5. The height of the peaks of the shape of the pusher 5 sets the amplitude oscillations of the massage finger 11, according to one of the embodiments of the invention, the amplitude is 1 mm. The oscillation frequency of the massage finger 11 depends on the frequency of rotation of the output shaft of the motor 4 and is set by the user by turning the knob on the control unit.

The massager contains an IR radiation source 8, structurally made in the form of a printed circuit board (PCB) and an array of LEDs mounted on it. The PP is fixed on the body 3. The emitter is closed by a protective cone 9 with a window closed by a protective glass 10.

In addition, the device has a support bearing 12, which increases the reliability of the device itself, since the engine does not experience loads along the axis. Another distinctive feature of the device is the presence of a massage finger rod 13 and two side guides 14 and 14A, which block the rotation of the massage finger around its axis. The pusher 5 has a regular sine-shaped shape along the circumference with symmetrical tops and troughs in the axial section, while the symmetry is maintained regardless of the angle of rotation of the motor shaft, such a design is designed to ensure that the carriage 6 rests on this surface with two radial bearings without axial distortions. Due to the fact that the transfer of rotational motion of the motor axis in the pusher occurs on two radial bearings of the carriage, movement along the axis without distortion is ensured, thereby eliminating the misalignment of the carriage rod 6 and achieving a complete repetition of the curvilinear shape of the pusher. Achieving operating vibrations strictly along the axis makes it possible to eliminate transverse loads, thereby minimizing friction and wear of device parts. In addition, working vibrations along the axis without distortions have a positive effect on the therapeutic effect, maintaining the accuracy of working with the patient's muscles, which increases the efficiency of the procedure, and eliminates the general transverse beat that occurs as a result of wear of the device during prolonged use.

The design of the massager was specially developed taking into account the features of trigger zones of influence, the size of which ranges from 2 to 10 mm. The main feature of the ATLASPROFessional apparatus is that, thanks to carefully calibrated speed and amplitude, a vibrational frequency is created that corresponds to the frequency of a completely relaxed muscle. Thus, it becomes possible to transfer the muscle to a state of pessimism.

The principle of operation of the massage apparatus is as follows, the device is powered by a single-phase AC network with a rated voltage of 220 V and a frequency of 50 Hz at electrical energy quality standards in accordance with GOST 13109-97. The vibration frequency of the device is at least 650 bpm, maximum 820 bpm. It has an infrared study device with radiation power, mW / sr 1300, and a wavelength of nm 940. The device allows you to individually select the strength of exposure to each patient by changing the speed of the vibration frequency, it is carried out along paravertebral lines, it allows you to eliminate trigger zones in deep muscles that fix each vertebra due to infrared puncture and vibration exposure to perform the correction of the vertebra.

As shown in the graph shown in Fig. 2, where the axis of change of the frequency of vibration 111 shows the rate of change of the frequency of vibration 112, which can be changed using the "Speed" control. Adjustment range from no change to the most frequent change in vibration frequency. The amplitude of the vibration frequency change 113 is changed by the Amplitude regulator. The range of regulation is from the absence of the amplitude of change to the maximum range limited from above by the supply voltage and from below by the minimum required value of the vibration frequency. The average value of the amplitude of the vibration frequency change 114 is changed by the "Frequency" regulator. The range of regulation is from the minimum required value of the vibration frequency to the maximum, limited by the supply voltage of the massager electric motor. The minimum and maximum vibration frequency is 115, upon reaching which there is a light signaling by the "Limit" indicators and allows you to control the adjustment ranges of all regulators, achieving the desired nature of the vibration frequency, without going beyond the regulation limits and using the entire range of the allowable power of the device.

Execution example. By reducing the amplitude of the change in the vibration frequency 113 to 0, i.e. until the moment when the vibration is constant, you can set the maximum frequency by moving the average value 114 to the limit values of the vibration frequency 115, thereby obtaining the maximum constant vibration frequency or the constantly minimum vibration frequency, thereby using the entire control range inherent in the device.

The principle of the procedure. The procedure for the correction of rotational subluxation of the atlas is carried out in 3 steps:

1) preparatory;

2) main;

3) final.

Step 1 preparatory.

During the procedure, the patient lies face down on a couch, which is a huge advantage over similar techniques where the procedure is performed while sitting. It is in the supine position that it becomes most possible to bring the patient's muscles into a state of maximum relaxation.

The preparatory step includes a small complex of soft manual massage effects, the purpose of which is to prepare the patient for the main step. Meaning: the entire back of the patient, from the coccyx to the back of the head, should be soft, warm and laid out evenly. The rules of laying the patient are of great importance.

Step 2 is the main one.

The doctor takes a position at the head of the patient. With the fingers of one hand, he covers the upper points of attachment of the muscles on the side where the atlas is tucked. He takes the apparatus in the other hand and acts with the thin rounded working end of the massager until the reflex relaxation of the muscle, which manifests itself in the sensation of a change in muscle density (relaxation) and the massager sinking a few millimeters deep. After that, without changing the point and intensity of exposure, the doctor maintains a pressure exposure of 3 seconds. It is important that when exposed, the doctor does not exercise force pressure. This is not necessary, because the weight of the device is calculated in such a way that the necessary load is carried out due to the own weight of the device, which avoids injury.

The impact on the paired suboccipital muscles is carried out in a certain sequence: the small posterior rectus muscle of the head, the large posterior muscle of the head, the lower oblique muscle of the head, the upper oblique muscle of the head on one side and in the same order on the other side.

Step 3 is final.

At this stage, the doctor asks the patient to lie on his back and performs manipulations using PIR massage techniques, elements of applied kinesiology and other techniques from his medical arsenal. Meaning: to bring the neck muscles into working condition in order to fix the correct position of the atlas in order to avoid relapses.

After the procedure, all the stages of diagnostics are repeated in order to determine changes in the dynamics of the work of the joints and muscles of the craniovertebral region, a schedule for visiting control warranty checks is prescribed in order to carry out curation for the entire rehabilitation period; recommendations are given for the entire rehabilitation period: exercise therapy, nutrition, vitamins, water and drinking regimen, therapeutic lymphatic drainage walking, etc.

The result of the proposed method is the elimination of different asymmetric tone of paired suboccipital muscles, which leads to the normalization of mobility in the atlanto-occipital and atlanto-axial joints, the elimination of hyperaffermation of proprioceptive sensitivity. This, in turn, contributes to the formation of new motor programs without the limiting factor in the form of long-term spasmodic post-occipital muscles.

The result of the elimination of spasm of the postoccipital muscles through reflex relaxation after prolonged excitation is the restructuring of motor control programs, which forms the adaptation of all systems to the new free work of the craniovertebral region, a change in posture and movement of the body in space without forced restrictions.

In addition, the elimination of spasm of the suboccipital muscles leads to a decrease in compression on the vertebral artery in the suboccipital triangular space, the elimination of the asymmetry of blood flow through the vertebral arteries and, as a result, an improvement in the blood supply to the upper part of the spinal cord, cerebellum and posterior part of the brain.

The claimed method can be effective in the treatment and prevention of cerebrovascular accidents.

Claims (9)

1. A method for correcting rotational subluxation of the atlas, which includes complex diagnostics and subsequent elimination of spasm of the muscles of the atlanto-occipital zone by means of vibration-point massage, characterized in that the vibration-point effect is carried out symmetrically on paired suboccipital muscles in the following sequence: posterior rectus minor, the large back muscle of the head, the lower oblique muscle of the head, the upper oblique muscle of the head, on the one hand and in the same order on the other hand, using a massage device according to claim 4, which provides for the possibility of automatically smoothly changing the vibration frequency according to a sinusoidal law, equipped with a working rounded end with with a radius of 3 to 7.5 millimeters, with a pressure exposure of 3 to 5 seconds, while the pressure is provided by the own weight of the massage device, where the weight of the device is from 1200 to 1500 grams, and complex diagnostics includes the following steps: assessment of the symmetry of the location of the transverse processes of the atlas relative to the mastoid processes of the occipital bone, assessment of changes in the position of the transverse processes of the atlas in relation to the mastoid processes of the occipital bone during head movements, assessment of the patient's range of motion, assessment of the symmetry of the patient's movement, assessment of the uniformity of the length of the patient's lower limbs. 2. A method for correcting a rotational subluxation of the atlas according to claim 1, characterized in that during the procedure for eliminating muscle spasm, the patient is in the supine position on the couch face down. 3. A method for correcting rotational subluxation of the atlas according to claim 1, characterized in that during the procedure for eliminating muscle spasm, the doctor takes a position at the head of the patient. 4. A device for the correction of rotational subluxation of the atlas, containing a cylindrical metal case, in which an electric motor with a planetary gear is located, on the output shaft of which a pusher is fixed, a carriage on which a massage finger is fixed, the nozzle of which is equipped with a working rounded end with a radius in the range of 3 up to 7.5 millimeters, a control unit and a power unit, characterized in that the pusher rests on a support bearing and is configured to move the carriage with the massage finger rod, moreover, the massage finger rod and two side guides block the rotation of the massage finger around its axis, the pusher has wave-like shape of the surface with symmetrical peaks and troughs in the axial section, while the symmetry is maintained regardless of the angle of rotation of the motor shaft, due to which the carriage rests on this surface with two radial bearings without axial distortions, as well as an infrared radiation source, which is closed by a protective cone with a window covered with a protective glass, and is made in the form of a printed circuit board and an array of LEDs mounted on it, and the device is configured to control the rate of change in the vibration frequency using the "Speed" controller, control the vibration frequency range from no change to the maximum allowable change in the vibration frequency at using the “Amplitude” regulator, regulating the vibration frequency using the “Frequency” regulator, and also has an indicator of the limit values of the vibration frequency “Limit”, the weight of the device is from 1200 to 1500 grams.

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