RU2308251C1 - Insole for treatment and prophylaxis of foot diseases - Google Patents

Abstract

FIELD: medicine, namely inserted insoles having hygienic and treating properties and allowing prevent foot joints against excess loads, namely treatment and preventive treatment of diseases and deformations of foot.

SUBSTANCE: insole is in the form of deformable laminate structure whose layers are mutually joined by sewing through. Upper layer is made of air-permeable material. Layer arranged under upper layer is made of vegetable mass such as birch bark disintegrated till size no more than 15 mm.

EFFECT: simplified design of insole made according non-complex manufacturing process for effective treatment and prophylaxis of foot pathologies related with foot deformations and diseases demanding usage of means acting upon skin of foot for providing antimicrobic, antiphlogistic, disinfecting and other properties.

5 cl, 2 dwg

Description

The invention relates to medicine, namely to insoles with medical and hygienic properties and allowing to protect the joints of the foot from excessive pressure. Insoles can be used for the prevention and treatment of diseases and deformities of the foot.

Known insoles, the use of which allows you to effectively treat purulent and fungal diseases of the feet, reduce the risk of their defeat by these diseases, reduce sweating.

Insoles are multilayer structures, the upper layer in contact with the foot of which is made of a material with antiseptic and antifungal properties. As such material, plastic bark is used (RU 2004108626 A, 2005.09.20; RU 2160026 C, 2000.12.10) or a material impregnated with a substance with fungicidal or antimicrobial properties (for example, RU 2002121278 A, 2004.03.27; RU 2254795 C1, 2005.06 .27).

Insoles are known in which the top layer is made of hydrophilic material, and the middle layer is made of activated carbon fiber material, sphagnum moss or other material that absorbs sweat and odor (for example, RU 2150877 C1, 2000.06.20; RU 2260362 C2, 2005.09.09 .twenty).

Known insoles made in the form of an airtight shell with one or more interconnected chambers located in the contact areas of the plantar part of the foot and containing capsules with antimicrobial substances (for example, RU 2217026 C2, 2003.11.27).

The main disadvantage of these insoles is the narrow spectrum of their action: they either do not have a therapeutic and prophylactic effect in diseases associated with foot deformity, or the effect of their use is insufficient.

For the treatment and prevention of foot diseases with severe deformity, insoles in contact with the entire surface of the foot are needed. This is necessary both to ensure comfort by reducing dynamic loads on the foot and the targeted distribution of pressure over the area of the plantar part of the foot, and for the effective treatment and prevention of diseases associated with deformity of the feet and associated diseases, for example, associated with the risk of inflammatory, microbial , fungal and other lesions of the feet.

To prevent deformations of the foot (in particular, flat feet) and provide comfort for people with a deformed foot, many insoles have been developed to ensure contact between the surface of the insole and the surface of the foot. Known multilayer insoles that contain elastic elements located on the surface of the insole or fixed in one of its layers in places corresponding to problem areas of the foot (for example, US 2004194344, 2004.10.07; US 6481120 B1, 2002.11.19; US 2001045028, 2001.11. 29). Known insoles for the prevention of flat feet, which contain a shell of flexible material with a filler, which is used as a liquid medium (for example, RU 2218129 C2, 2003.12.10; WO 2004010811, 2004.02.05). Known frame designs of insoles, the frame of which is made in the form of a thin-sheet spatial figure of elastic material and has a complex shape to ensure contact of the insole with the entire surface of the foot (RU 2226374 C2, 2004.04.10).

The main purpose of these insoles is to reduce the risk of the progressive development of foot pathologies, however, they are made without taking into account the individual characteristics of foot deformities, which reduces their effectiveness and comfort, and also does not allow for the effective treatment of concomitant diseases.

Known insoles made using a negative model of the plantar surface of the foot and taking into account the individual characteristics of the foot. The insole, known according to RU 2181562 C2, 2002.04.27, contains a base with a pelot installed in the arch of the foot. The insole profile is made as much as possible following the profile of the foot, and the shape of the pelota is designed in such a way as to form the arch of the foot in the region of the distal metatarsal bones, and different sections of the insole are made of materials having different coefficients of elasticity and having the ability to form in places of high pressure, for example, foam polyethylene. A well-known insole is used in which, for the formation of its surface, taking into account the individual characteristics of the feet, plug-in elements of elastic material are used distributed over the surface of the insole (US 6792699, 2004.09.21).

The disadvantage of insoles is the difficulty of their manufacture to obtain a therapeutic effect, requiring the fitting of insoles personally for each patient. The complexity of manufacturing is a consequence of the high price, which limits the possibility of using such insoles. In addition, the known designs of insoles of this type do not provide funds for the treatment and prevention of inflammatory, microbial, fungal and other foot injuries characteristic of a number of diseases, for example, diabetic foot syndrome.

Technically simpler are insoles such as inserts, which are attached to a fixed shoe insole or foot (for example, US 2004194352, 2004.10.07; RU 1637793, 1991.03.30) and provide contact of the sole of the foot with the insole surface. However, due to the fact that the mounting of these insoles is carried out by the patient independently and their displacement in the process of patient movement is possible, the effectiveness of such insoles is small. In addition, such insoles, like the above, do not allow the treatment and prevention of concomitant diseases.

As a prototype of the selected hygienic insole, with the claimed greater number of common features. The insole is made in the form of a deformable multilayer structure, the upper and lower layers of which are made of breathable material, and the middle layer is of plant mass, which is used as wood flour, wood shavings and / or grass (DE 10155831, 2003.05.22). The layers are bonded together by firmware.

The introduction of a layer from the plant mass into the insole allows you to absorb sweat and odor, and also reduces the load on the foot due to plastic deformation of the wood and grass mass. However, the reduction of static and dynamic loads when using this insole is not large, since the insole does not provide effective support for the foot. The consequence of this is the low therapeutic and prophylactic effect of treatment and prevention of deformed feet.

The invention is aimed at obtaining a technical result consisting in the development of a simple insole design that does not require complicated manufacturing technology and provides effective treatment and prevention of pathologies associated with foot deformity and diseases requiring the use of agents that affect the skin of the foot with antimicrobial, anti-inflammatory, and disinfectant and other medicinal properties.

The insole, as is known, is made in the form of a deformable multilayer structure, the layers of which are connected by piercing, the upper layer is made of breathable material, and the layer located under the upper layer is made of plant material, and is characterized by the fact that as plant material for the layer, located under the top layer, birch bark is used, crushed to a size of not more than 15 mm.

When flashing the layers, it is advisable to limit the flashing lines to sections of the insole surface with an area of at least 0.5 cm ² .

It is advisable to perform a layer of birch bark with a thickness of at least 0.3 mm.

In some cases, it is advisable to distribute birch bark evenly over the surface of the layer.

In other cases, uneven distribution of birch bark in the layer is possible.

The invention is based on the ability of crushed birch bark to form stable spatial forms under the influence of external forces at a temperature of 20-40 ° C. When walking on each section of the insole, there is a load from the side of the corresponding section of the foot. Under the action of the loads, the substances released by the crushed birch bark provide the effect of “sintering” of birch bark and the formation of a structure with low ductility. This leads to the fact that in accordance with the load on each section of the insole, a profile is formed that reflects the individual anatomical structure of the foot. Thus, a person himself in the process of operating the insole forms on it a model of his foot, reflecting the individual characteristics of its structure and biomechanics of movements.

Such an insole most fully contacts its surface with the surface of the foot, which helps to restore or compensate for violations of the functions of the musculoskeletal system in the foot area, the proper organization of the muscular activity of the foot, strengthens its musculo-ligamentous apparatus and at the same time allows therapeutic treatment and prevention of other diseases of the foot by its entire surface, using anti-inflammatory, bactericidal, antifungal, hygienic, confirmed by clinical trials Other therapeutic properties of birch bark. Clinical trials have also shown that the therapeutic effect of birch bark is manifested not only in direct contact of the skin of the foot with birch bark, but also in contact with a layer of birch bark through an air-permeable layer. Chromatographic-mass spectroscopic studies confirmed the presence of substances with antiseptic, anti-inflammatory, wound healing, biostimulating and heat-accumulating properties in birch bark essential oils. As air-permeable material, known industrially produced fabrics with loose threading can be used: flax, chintz, gauze, etc.

To realize the molding properties of birch bark and the ability to "track" small anatomical changes in the structure of the foot, it is advisable to use birch bark, crushed to a size of no more than 15 mm.

To fix the birch bark layer, the insole is stitched, while proceeding from the fact that the anatomical and functional features of the feet are manifested in areas of ≥ 0.5 cm ² , the surface of the insole after flashing should have areas with approximately the same area to form the insole relief. The number of firmwares and their orientation are determined by the location of the sections of the foot that are most susceptible to deformation, the sections under the transverse, internal and external arches of the foot. For the treatment of patients with highly developed deformity of the feet, it is advisable to use the insoles with the smallest firmware, for example, the firmware can limit the section of the insole under the longitudinal and transverse arches of the foot, the heel region and pass under the metatarsal bones.

The thickness of the birch bark layer should provide contact with the birch bark of the entire surface of the foot, including the distal sections and heads of the 2nd, 3rd and 4th metatarsal bones of the foot. When using insoles as a preventive measure, the permissible thickness of the birch bark layer can be approximately 0.3 mm, which determines the choice of the smallest thickness of the birch bark layer. Clinical observations of patients with severe deformities of the feet show that most patients have flat feet, deformation in the area under the metatarsal bones, as well as valgus and varus deformities of the heel, and in some patients, the difference in height of individual sections of the deformed feet is significant. This determines the need for manufacturing insoles of various thicknesses.

Insoles can be made with a uniform distribution of birch bark in the layer, as well as with a non-uniform, reflecting, for example, the development trend of a particular pathology. The latter helps patients with less time to form an insole in accordance with their individual anatomical and functional features of the structure of the foot. In accordance with the characteristic features of possible pathologies, the birch bark layer may be larger in the arch area, under the fingers, in the calcaneal region. A layer of uneven thickness is fixed by the firmware, bounding the areas with a greater thickness, for example, along the lines corresponding to the projections of the longitudinal and transverse arches of the foot, bounding the heel region.

The use of the insole in contact with the entire plantar surface of the foot makes it possible to more effectively use external medicines for the treatment of the skin of the foot, which together with the healing properties of birch bark increase the effectiveness of the treatment.

The developed technology allows us to produce insoles of different thicknesses, with different profiles and with different orientations and firmware density.

A feature of birch bark is that the formation of a complex profile of the insole does not change its surface properties: it remains velvety to the touch and does not contain fragments that could injure the foot.

The insole contains at least three layers. The top layer is made of breathable material, the layer located under the top layer is of crushed birch bark, and the bottom is made of breathable material or material that does not allow air to pass through. The main requirement for the materials used in the manufacture of the insole is their ability to elastic deformation.

The invention is illustrated in figures 1 and 2, which show possible options for insoles.

The insole depicted in figure 1, is made in the form of a foot and filled with crushed birch bark cover made of breathable material, such as chintz. Surfaces 1 and 2 of the cover are the upper and lower layers of the insole, respectively, and layer 3 is a layer of crushed birch bark. The insole is made with a uniform distribution of birch bark in layer 3. Layers 1, 2, and 3 are fastened with firmware running along the crossing lines 4 and 5, intersecting the insole and forming sections in the form of rhombuses on the front and back of the insole, on which the insole profile will be formed in the future in accordance with the individual characteristics of the patient.

This insole is applicable for prophylaxis and for the treatment of feet with slight deformation, which allows it to be made with a thickness of ~ 0.3 mm.

In the insole shown in FIG. 2, a birch bark layer (not shown) is located between the upper layer 6 of breathable material (for example, linen) and the lower layer 7 of shoeboard having the property of elastic deformation. Birch bark is evenly distributed, firmware 8 is made along transverse lines crossing the insole.

The insole is applicable for feet with deformation in the transverse arch, under the toes and heel spurs. The thickness of the birch bark layer may be 0.5 cm.

The figures 1 and 2 do not limit the possible options for the implementation of the insole, which may differ in the number of layers in the insole, the materials used to make the insole layers located above and below the birch bark layer, the thickness, as well as the orientation and density of the firmware.

When wearing the insole, birch bark forms a profile corresponding to the profile of the patient’s foot, which provides contact between the surface of the insole and the entire surface of the foot and has a therapeutic and prophylactic effect on the patient’s musculoskeletal system and on the condition of the skin of the foot due to the healing properties of the bark.

The simplicity of the technology of manufacturing the insoles, the large raw material base and, as a consequence, their low cost make the developed insoles accessible to almost all patients who need to use insoles, corresponding to the individual anatomical features of the structure of the foot, for the treatment and prevention of their diseases.

Claims (5)

1. The insole for the treatment and prevention of diseases of the feet, made in the form of a deformable multilayer structure, the layers of which are connected by firmware, the upper layer is made of breathable material, and the layer located under the upper layer is made of plant material, characterized in that as plant material for of the layer located under the upper layer, birch bark was used, crushed to a size of not more than 15 mm. 2. The insole according to claim 1, characterized in that the surface area of the insole limited by the lines of the stitching layers is at least 0.5 cm ² . 3. The insole according to claim 1, characterized in that the thickness of the birch bark layer is at least 0.3 mm. 4. The insole according to claim 1, characterized in that the birch bark is distributed evenly along the surface of the layer. 5. The insole according to claim 1, characterized in that the birch bark is distributed unevenly along the surface of the layer.

Images