RU2167684C2 - Method and device for treating foot, lower extremity and vertebral column deformities using magnetic field combined with orthopedic correction - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves applying combined action of magnetic field and orthopedic correction to foot sole by means of special device. The device has orthopedic base for mechanically regulating internal foot vault height, providing its support, fixing the heel in rigid instep insole bed, providing foot damping. Additional magnetotherapeutic strip is placed on the base for positioning cells containing low intensity magnetic field under reflexogenic zones of the foot. The cells are taken from accessory set supplied with the device. The low intensity magnetic field varies stage-by-stage (to 30 min long) in intensity (to 50 mTesla units) and in density (N, S). EFFECT: enhanced effectiveness in treating visceral organ diseases and foot deformities by means of local magnetic field applied. 4 cl, 5 dwg

Description

 The invention relates to medical equipment, namely to magnetotherapy, magnetoreflexotherapy devices and orthopedic devices with their combined effect.

The invention can be used:
1) for the prevention or elimination of flat feet and other anatomical abnormalities of the joints of the lower extremities and the spine by conducting daily sessions of orthopedic correction in combination with exposure to a magnetic field.

Orthopedic correction is carried out by biomechanical supination of the metatarsal-heel complex of the foot on an orthopedic base, installed in the patient’s shoes during daily wear. While walking, depending on the well-being, the patient himself on an orthopedic basis mechanically changes the height of the internal longitudinal or transverse arch of the foot with a fixed small step of raising or lowering, achieving accurate compliance with the congruence (coincidence) of the bony arch of the foot with the sole surface of the shoe, while providing suspension ( depreciation) of the arch, as well as the restoration of the balancing and supporting functions of the foot;
The end result of daily sessions is fixed by a short-term exposure to a magnetic field created by low-intensity sources with different magnitudes of magnetic induction, variable pole and time. Magnetic sources are installed under the reflexogenic zones of the foot in the nests-cells of the magnetotherapy lining, which is placed on the orthopedic base in the morning at the initial and evening at the final stages of the treatment session.

 2) for the improvement of a number of internal organs of a person by magnetoreflexotherapy by local exposure to their projection (reflexogenic) zones located on the sole of the foot. Under the reflexogenic zones of the foot on a magnetotherapy pad, various low-intensity sources of the magnetic field are placed in a special nest-cell corresponding to the reflexogenic zone of the treated organ or part of the body. In this case, the sources of the magnetic field change daily in magnitude of magnetic induction, pole and exposure time.

 3) for the individual implementation of the combined orthopedic and magnetotherapeutic effects on the sole of the patient’s foot. In this case, the magnetic field removes excess tension from the musculoskeletal system or stimulates weak muscles, and the orthopedic base corrects the existing anatomical deviations from the norm.

 Many magnetotherapeutic and orthopedic devices (insoles and inserts) are known, designed to eliminate deformations of the foot and other health effects on the human body, but in these devices either only magnetoreflexogenic or purely orthopedic effects on the foot are performed.

 Known magnetic massage, therapeutic and prophylactic insoles "BIOMAG", recommended for use under a license of the Ministry of Health of the Russian Federation dated November 15, 1995, N 30-03 / 490, designed to improve the energy balance of the body with magnetic balls fixed on the insole at reflexogenic points of the foot. These insoles could be taken as an analogue, however, the magnetic field applied in the insoles, when the magnets are constantly attached to them, does not allow changing its tension and pole, which makes it impossible to effectively use these insoles in the process of wearing them in shoes to achieve the necessary healing result, and with prolonged wear can even lead to negative consequences with a violation of the energy balance of the body.

 Known universal insole for the correction of deformities of the foot, other parts of the human body, pathology of internal organs and muscle imbalance with the aim of influencing them through reflexogenic zones located on the sole of the foot, protected by patent RU, N 2029529, class 6 A 61 F 5/14. The insole contains a support layer adjacent to the shoe, as well as an additional layer consisting of a set of fragments of various configurations in accordance with the configuration of the specified anatomical sections of the planetary surface of the foot, and also contains inserts identical to the fragments in configuration, which are installed instead of fragments or between them and the support . In this case, a decrease in the height of the specified sections of the insole is ensured by disconnecting the corresponding fragments of the additional layer from the support, and an increase in height is achieved by installing inserts between the fragments and the support of the layer, made in the form of the corresponding fragments. The surfaces of the layers in contact with each other, as well as both surfaces of the liners, have an adhesive coating, and may also contain electro-, thermo-, magneto-, and other elements with the aim of exposing the human biostatics through the soles of the feet to eliminate pathology or imbalance in it. However, a significant drawback of this insole is the stiffness and lack of necessary depreciation qualities of its structural elements, as well as the inability to more accurately observe sufficient congruence (coincidence) of the bony arch of the foot with the sole surface of the shoe and the inability to effectively combine the simultaneous orthopedic and magnetotherapeutic effects on the sole of the foot.

 Known insert orthopedic insole for adults, protected by patent RU, N 2112469, class 6 A 61 F 5/14. The insole contains a molded lower leather support for the bottom of the shoe, an upper cover and pockets made of leather for lining the shoe. Pockets are sewn to the coating, into which replaceable inserts made of microporous rubber and foam are inserted. Pockets allow you to replace the liners, while in the treatment of flat feet, you can adjust the thickness of the liner to support the transverse and longitudinal arch of the foot. However, the insole does not allow the combined orthopedic and magnetoreflexotherapy treatment of the sole of the foot, in which the magnetic field removes excess tension from the musculoskeletal system or stimulates weak muscles, while the orthopedic device corrects existing anatomical abnormalities.

 The closest prototype of the invention is the well-known orthopedic device EKOVEL (vertically bending insole), protected by patent YU, N 48465, P-404/95 in class A 47 K 1/14, designed to adjust the foot with flat feet with a gradual change in the height of its support internal arch with the help of an integrated special mechanical device.

 However, the EKOVEL orthopedic device has a rigid construction of fastening the support node to the sole of the shoe, which does not provide depreciation of the foot, musculoskeletal system of the lower limb and spine. However, the soft design of the back of the EKOVEL device does not allow to fix the vertical axis of the heel of the foot with the axis of the limb and to correct the displacement of the calcaneus. In addition, the EKOVEL device does not allow the use of a more effective combination with the orthopedic also the magnetotherapeutic effect on the sole of the foot with a low-intensity magnetic field created, for example, by magnetoplastics, which will shorten the correction time of the existing foot pathology, as well as positively affect the leg muscles that are in spastic condition with prolonged wearing in the shoe fixtures. The known device, in addition, does not allow effective magnetotherapeutic effect on the sole of the foot in order to improve internal organs through the corresponding reflexogenic zones located on the foot, which limits the area of its use.

 The objective of the invention is to provide a method of treatment and device for its implementation, significantly increasing the effectiveness of the treatment of pathological abnormalities of the musculoskeletal system of a person associated with deformities of the foot and shortening the treatment time.

 If we consider the foot as a whole, then, due to the vertical position of the human body, the foot is the ultimate support, which, having an area of only a few centimeters, can withstand its weight of several tens of kilograms. All elements and mechanisms of the foot are adapted for this purpose, as well as for moving the body in space. The degree of displacement of its individual elements with respect to each other is minimal. To perform the supporting, spring and balancing functions, the foot has a domed vaulted structure inherent only to man. The transverse arch is constructed as a half dome, the inner edge of which is raised above the ground by 50-60 mm, and the outer one rests almost entirely on it. This arch is created by the shape of bones, the complex of which forms a solid base of the foot. The arch of the foot is fixed by longitudinal and transverse passive and active screeds. Passive screeds are powerful ligaments located in several layers and ending with the strongest and most flexible superficial plantar aponeurosis, running along the entire foot from the calcaneal tuber to the heads of the metatarsal bones. In the case of aponeurosis pathology or the 1st metatarsal bone, the foot will not fully perform the supporting function. Active screeds are numerous muscles that attach at different levels of the foot, flipping through its joints. The arch of the foot, generally convex upward, is concave in the double direction from the side of the sole: from front to back - the longitudinal arch and from the inner to the outer edge - the transverse arch. The total longitudinal arch of the foot consists of 5 rays. At the back, they all converge through the tarsus to the calcaneus, and in front, each rests on the corresponding head of the metatarsal bone. The highest and longest beam of the arch is the second, extending in the middle of the foot along the II metatarsal, intermediate sphenoid, through the middle of the scaphoid and talus to the calcaneus. The greatest load falls on this beam, it is most susceptible to pathology and in this case, the foot does not perform the spring (depreciation) function. The shortest and lowest fifth ray.

 The transverse arch is well expressed only in the forefoot and at the level of the heads of the metatarsal bones, which are the fulcrum for the rays of the longitudinal arch, as if connecting all its rays in front. It has the greatest load with loss of balance, and in the case of pathology, the foot does not perform a balancing function.

Thus, the foot is a two-arm lever with support points at the back of the calcaneal tubercle (its inner protrusion), and at the front on the heads of the ith and Vth metatarsal bones. The toes of the supporting function usually do not carry, but acquire this function if you stand "on your toes" (the foot becomes a one-arm lever). The base of the arch of the foot is the talus, which transfers the force load incident on it to the remaining points of the foot. The arches of the foot are functionally variable. The stability of the arches of the foot can be determined by measuring the height in a standing position and sitting on a chair. In the standing position, with increasing pressure on the foot, the arches are slightly flattened and expand due to a fan-shaped divergence and advancement of the heads of the metatarsal bones. These fluctuations ("arch play") can normally reach 5 mm. A change in height of more than 5 mm indicates the weakness of the arches due to pathology in the ligamentous, muscular or articular mechanisms of the foot and, consequently, flat feet in one form or another. In a sitting or lying position, the foot assumes its original state. The foot also has age and individual characteristics. With age, the foot flattened. The shape of the foot is influenced by functional overload, sport and profession. In obese people and in persons standing or running for a long time, the arch of the foot is gradually flattened. Moreover, the shape of the foot and the presence of flat feet is determined not only by the height of its arches, but also by its general proportions, expressed by the index of the foot according to the formula:
X = 100 • Y / Z
where X is the index of the foot, Y is the largest width of the foot, Z is the largest length of the foot.

 The width of the foot (Y) is measured at the level of the heads of the metatarsal bones, and the length (Z) is between the end of the heel and the end of the longest toe. Usually the longest is the 2nd finger ("antique" type), less often the 1st finger ("monkey" type). The index of the foot normally ranges from 25 ≅ X ≅ 35. An index of X <25 indicates flat feet.

 To study the arch of the foot, mainly a lateral x-ray is used (Lagunova I.G. X-ray anatomy of the skeleton. A guide for doctors. - M .: Medicine, 1981). In this case, it is done in a state of maximum static load on the foot, i.e. standing patient. The longitudinal arch of the foot is determined by two landmarks - height and angle. From the point in the middle of the talus, two straight lines are drawn to the support points of the foot on the plantar surface of the calcaneal tuber and the sesamoid bone at the head of the 1st metatarsal bone. The angle formed by these lines should normally be 90-100 degrees. If the foot support points are connected by a horizontal line and the perpendicular is lowered from the top of the corner, then its length is taken as the height of the foot arch, which normally equals 50 - 60 mm. All these figures are purely averaged. To solve the issue of flat feet as a pathological condition, many factors must be taken into account so that pathology can be eliminated with an orthopedic device in combination with a magnetic field.

 The problem is solved due to the significant difference between the proposed method of treatment and the device developed on its basis from known methods and orthopedic devices, including a qualitative difference from the prototype, which consists in the combined effect of a weak magnetic field on the foot and orthopedic correction of the foot using the device, providing depreciation of the foot and supination of its heel in a special rigid bed in order to eliminate the displacement of the calcaneus.

 The technical result of the invention is to provide a device for implementing a method of treating deformities of the foot, joints of the lower extremities and the spine with a magnetic field with orthopedic correction. Deformation of the joints of the lower extremities and spine may be due to the presence of flat feet.

 The device consists of an orthopedic base and magnetotherapy pads. The orthopedic base allows you to mechanically adjust the bending height of the inner arch of the foot and its support, fix the heel of the foot in a rigid instep bed, provide depreciation of the foot, its balancing and supporting functions. The magnetotherapy pad during the treatment session is installed on the orthopedic base. On it in the nests-cells located under the reflexogenic zones of the foot, low-intensity sources of magnetic field from the set applied to the device are placed.

 In FIG. 1 shows the orthopedic base 1 of the device, a bottom view. The orthopedic base consists of two parts: the front part 4 and the back part, including a bending surface 3 and a rigid arch support 2 for the heel of the foot. The front and rear parts are connected movably, made of flexible plastic and covered with leather on top. The mechanical part of the base provides bending of the surface 3 and contains two screws with left-hand 5 and right-hand 6 threads, ending with flat tips 9 with holes at the end, into which bolts 11 are inserted to fasten the mechanism to the supports 10, molded together with the front and rear parts of the base from one material. The screws are screwed into a sleeve 7 having holes 8 for its rotation by a handle 12 fixed in the hole of the protrusion 13 molded on the surface 3. All parts of the mechanism are made of a dielectric material that provides the necessary strength.

 In FIG. 2 shows the orthopedic base of the device, which shows the elements having the designations in FIG. 1, and also shown 14 height h> 10 mm, providing a suspension of the foot placed on the device.

 In FIG. 3 shows the inner side (sole) of the right 22 and left 23 feet with reflexogenic zones: genitals 15, knee joints 16, hip joints 17, solar plexus 18, elbow joints 19, lungs and bronchi 20, thyroid gland 21, which can be provided in one of the options for a universal device, which during treatment will be affected by sources of a magnetic field with different magnetic induction.

 In FIG. 4 shows the upper surface of the left magnetotherapeutic lining 24 containing the socket-cells 25, and in FIG. 5 shows its lateral projection.

 In FIG. 6 shows a source of a magnetic field, for example a magnetoplast, which can be embedded in any nest-cell of the lining 24.

 The present invention does not have the disadvantages listed above in the known devices. The essence of the proposed method lies in the fact that to achieve a more effective result, a combined effect on the sole of the foot with a magnetic field and orthopedic correction is applied, carried out in three stages as follows.

 At the first stage of the daily treatment session, before applying the orthopedic correction of the foot, in order to obtain a preliminary magnetotherapeutic therapeutic effect, a low-intensity magnetic field source with a specified height and diameter with an increase is placed in a special nest-cell of the magnetotherapy lining, corresponding to the reflexogenic zone of the treated organ or part of the body daily from the previous to the next during the week the magnitude of the magnetic induction B = 10-20-30-40-50 mT, exposure time T = 10-15-20-25-30 minutes and the pole S, directed towards the foot. The magnetotherapy pad is mounted on an orthopedic base and placed in slippers.

 In the second stage, the insole (orthopedic base) is used for everyday wear in everyday shoes. At this stage, an orthopedic base without a magnetotherapeutic pad is put into everyday shoes to be worn during the day with only orthopedic impact on the foot by mechanical supination of the metatarsophane-heel complex of the foot and maintaining the necessary height of the arch of the foot to ensure congruence (the most complete match between the bony arch of the foot and the surface insoles). Further, in accordance with the treatment methodology, a possible increase in the possible height of the adjustable insole surface from 10 to 30 mm is carried out gradually, with a step of 5 mm, using a special mechanical device with cushioning properties. In the process of the corrective effect of the insole on the foot, the latter, adapting to the new walking conditions, experiences a positive effect on the inner arch of the foot by the gradual transforming effect of the adjustable height of the insole, which will allow you to combine the vertical axis of the heel of the foot with the axis of the limb in the rigid instep bed and ensure the musculoskeletal shock absorption apparatus.

 At the third stage of the daily treatment session, in order to consolidate the obtained orthopedic effect with a magnetic field, the orthopedic base is inserted into slippers and a magnetotherapeutic pad is placed on it, while the magnetic field source is placed in its nest-cell, decreasing daily from the previous to the next for a week the magnitude of the magnetic induction B = 50-40-30-20-10 mT, the exposure time T = 30-25-20-15-10 minutes and the pole N directed towards the foot.

 The present invention also provides that using magnetotherapy through reflex zones on the foot by a special technique, it is possible to treat a number of internal organs and body parts. In this case, they are locally exposed to a magnetic field that varies according to the methodology: in time (from 10 to 30 min.), Magnitude of magnetic induction (from 10 to 50 mT) and polarity (N or S), on projection (reflex) zones located on the foot and through them to the corresponding organs, as well as sedatively (soothing), through them they act on the muscles of the legs that are in a strained state after using orthopedic correction of the foot.

 Reflex zones on the foot (Fig. 3) and the location of their corresponding nest cells (Fig. 4) for treating diseases of internal organs with a magnetic field are determined by the treatment technique.

 The therapeutic effect is achieved due to the positive influence of the magnetic field and orthopedic correction, while improving the nutrition of muscles and ligaments of the foot, increasing its depreciation functions, restoring the shape of the foot, eliminating the displacement of the calcaneus and weakening of the arch of the foot.

 Using the proposed method and device, it will be possible to effectively treat flat feet and, on this basis, correct high or low arch of the foot, curvature of the legs and deviation inward of the knees, turns inward of the femur, damage to muscles and ligaments, dislocation of joints, and also positively affect the solar plexus, reproductive system, bronchi and lungs, shoulders and elbows, thyroid gland and other organs, using their reflexogenic zones located on the sole of the foot.

 Example. Patient M.E., a scientist, 70 years old, turned to the EDMA Magneto-Infrared Therapy Scientific Center in September 1998 with complaints of pain while walking in the ankle, knee, and hip joints of the right limb and the thoracic spine with continuous sitting on a chair for more than 30 minutes. The patient was limping and could only walk with a cane. In May 1998, as a result of a foot injury, the ankle complex and the patient's knee were damaged. In the emergency room, they limited themselves to immobilization with a gauze bandage, since a bone fracture or crack was not detected on the x-ray. The prescribed physiotherapy procedures did not help. The Center was diagnosed with post-traumatic arthrosis of the knee and hip joints, subluxation of the ankle joint, complicated by the restoration of damaged ligaments with the retention of subluxation (uneven gap between the tibia and talus). An operation on the ankle joint was necessary to prevent further degeneration of the musculoskeletal system. However, given the age, the patient was recommended treatment using the proposed combined method of exposure to the foot with a magnetic field and a new orthopedic device according to the technique developed at the Center. Within 3 months, 60 procedures were carried out (12 cycles of 5 procedures per cycle) according to the following scheme: for 5 days, at the first stage, the magnetoplast was mounted on the insole with a sequential increase in magnetic induction of 10-20-30-40-50 mT with polarity S and daily morning exposure time of 10-15-20-25-30 minutes, in the second stage, the insole was put into shoes without magnetoplast during shoes during the day and the height of the arch of the foot was increased daily with the mechanism on the insole with the installation of 10-15-20- 25-30 mm, in the third stage, the magnetoplast installed again prognosis on the insole, but with a daily reduction induction 50-40-30-20-10 mT with polarity N, and a daily evening exposure time 30-25-20-15-10 minutes. After 4 cycles, the best congruency was determined at a vault height of 25 mm and subsequently the vault height did not change.

 The result of treatment: the disappearance of pain in the joints and spine, the patient no longer uses a cane and does not limp.

Claims (4)

 1. A method of treating deformation of the foot, joints of the lower extremities and spine with orthopedic devices, characterized in that a combined effect on the sole of the foot with a low-intensity magnetic field with orthopedic correction is applied, which is carried out during the daily sessions in three stages, while at the first stage of the treatment session orthopedic base, then into the nest-cell of the magnetotherapeutic lining corresponding to the reflexogenic zone of the treated organ or body part, according a low-intensity source of magnetic field is placed with increasing daily from the previous to the next during the week magnitude of magnetic induction B = 10-20-30-40-50 mT, exposure time T = 10-15-20-25-30 min and pole S directed to the foot, at the second stage, an orthopedic base without a magnetotherapeutic pad is put into everyday shoes for wearing during the day with only orthopedic correction by mechanical supination of the metatarsophane-heel complex of the foot, while the patient himself changes to orthopedic the base, the height of the support of the inner arch of the foot is 5 mm, achieving exact match of the bony arch of the foot with the sole surface of the shoe, as well as the gradual alignment with the axis of the limb of the vertical axis of the heel of the foot, located in a rigid arch support, then at the third stage of the daily treatment session, the orthopedic base is inserted into slippers and put on it a magnetotherapy pad, securing the result of orthopedic correction of musculoskeletal structures, while in the nest-cell The magnetotherapy lining corresponding to the first stage is placed with a low-intensity source of a magnetic field with a decrease in magnetic induction B = 50-40-30-30-20-10 mTl daily, during the week, exposure time T = 30-25-20-15 -10 min and pole N directed towards the foot.  2. A device for orthopedic correction of foot deformity, including an orthopedic base, made with the possibility of mechanical adjustment of the bending height of the inner arch of the foot and its support, characterized in that a set of low-intensity magnetic field sources are introduced into it and a plate with cell slots for mounting placement of magnetic field sources, while the base is made with the possibility of depreciation of the foot and rigid fixation of the heel of the foot, and the cell nests are located in with reflex zones of the foot.  3. The device according to p. 2, characterized in that the kit includes magnetic field sources with a magnetic induction of 10, 15, 20, 25, 30, 40 and 50 mT, marked with poles N and S.  4. The device according to PP.2 and 3, characterized in that the orthopedic base consists of front and rear parts, including a bending surface and a rigid arch support for fixing the heel of the foot, while the front and rear parts are made of plastic, covered with leather on top and connected movably with two screws, respectively, with left-hand and right-hand threads, ending with flat tips with holes at the end, into which bolts are inserted for fastening in supports made in the front and rear parts of the base, Inty screwed into a sleeve having a bore for rotating its handle, secured within the opening in the protrusion curving surface, the support for cushioning a foot at a height of h> 10 mm.

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