RU143121U1 - PHYSIOTHERAPEUTIC DEVICE - Google Patents

Abstract

1. Physiotherapeutic device containing a power source, a control unit and emitting diodes from the light and / or infrared ranges of radiation, forming one or more emitting matrices located on the inner side nearest to the body side of the elastic retainer (eg belt, elbow, knee, vest, bandage), which allows to fix the emitting matrix of the device over the place of impact, characterized in that the elastic retainer is made using natural wool. 2. The device according to claim 1, characterized in that the elastic retainer is made of a mixture of wool of two or more kinds of different animals, providing a combined effect on the body, for example, wool of a sheep and a dog, a rabbit and a sheep, a dog and a llama, a dog and a camel. The device according to claim 1 or 2, characterized in that the elastic retainer is made of animal hair with the addition of natural and / or synthetic fibers, providing additional mechanical properties, such as strength, elasticity, wear resistance.

Description

The utility model relates to the field of medicine, in particular to physiotherapeutic devices using a complex effect on the body by various physiotherapeutic factors - light and / or infrared exposure and the therapeutic effect of natural animal hair - warming, irritating, pricking, electrostatic, etc.

One of the widespread methods of physiotherapy is phototherapy (phototherapy) - exposure to the body, most often local, by electromagnetic radiation of the optical wavelength range of the visible spectrum. Widely known and diverse physiotherapeutic devices that implement this effect [1].

Sometimes, in order to achieve a greater therapeutic effect and increase the depth of radiation penetration into tissues, the radiation of the optical range of the visible spectrum is supplemented with infrared radiation, which significantly increases the effectiveness of treatment [2].

Recently, in connection with the active development of semiconductor radiation sources, physiotherapeutic devices for phototherapy are made mainly using emitting diodes, both optical and infrared, as radiation sources.

Such devices give good results, including in the treatment of widespread diseases of the musculoskeletal system - osteochondrosis, radiculitis, arthrosis, arthritis.

The therapeutic use of phototherapy for diseases of the musculoskeletal system is mainly aimed at providing analgesic, decongestant, anti-inflammatory and trophic-stimulating effects.

Rays of red and, especially, infrared range penetrate well into damaged soft tissues, periarticular structures, joint cavity, reach the focus of inflammation. Under the influence of phototherapy, the inflammatory process quickly undergoes a reverse development.

According to scientific data, under the influence of phototherapy, mainly in the red and infrared ranges, the synthesis of RNA and protein is significantly increased in the inflammatory process, active proliferation of cellular elements of the connective and bone tissue (fibroplasts, osteoblasts) is observed, and the activity of many important tissue enzymes (alkaline phosphatase, DNA) transcriptase). All this indicates an increase in the activity of anabolic processes in damaged tissues and confirms the well-known clinical results showing that the use of phototherapy provides accelerated healing [3].

With damage to the musculoskeletal system, the function of the adjacent muscles and elements of the peripheral nervous system suffers. Light therapy improves impulse conduction in the MN synapse, increases the impulse activity of cortical neurons, increases the energy resources of neurons, and enriches perineural microcirculation. This causes favorable changes in the functional state of the peripheral nerves and muscles adjacent to the joint or the site of trauma, and prevents the development of atrophic changes.

Infrared and red radiation causes increased metabolic processes, normalization of peripheral blood circulation, as well as resorption of infiltrates, reduction or disappearance of spasms, stimulation of reparative processes of nerves, bone tissue, mucous membranes, reduction of pain, reduces increased tone, rigidity and tension of striated muscles. The indicated effects are associated with anti-inflammatory, analgesic, immunomodulatory and wound healing effects of phototherapy.

One of the significant disadvantages of such devices is the relative inconvenience of use, because most often, a local exposure of the light beam to the affected area is required, which is often located in an inaccessible place, for example, with lumbosacral osteochondrosis, which forces the patient during the treatment procedure, which, depending on the characteristics of the apparatus and the severity of the disease, can take considerable time , be in a not always comfortable position and, in order to keep the device in the necessary position relative to the body surface, either resort to the help of unauthorized persons or use, often u, complicated and expensive mechanical devices - tripods, which makes the treatment procedure much less convenient.

The indicated drawback is deprived of the apparatus protected by a patent for a utility model [4], which is the closest prototype to the described physiotherapeutic device using a flexible clamp made of an elastic material as a holder.

In order to improve consumer properties, in particular, increase the therapeutic effect, it is proposed to use an elastic retainer for fixing the light-emitting part of the device above the local light exposure using natural wool of animal origin.

Thus, a local, combined therapeutic effect of both light therapy and natural wool will be achieved.

Since ancient times, mankind has used the healing properties of wool for the prevention and treatment of many diseases. Hippocrates also suggested nursing seriously ill patients on animal skins.

The most widely used wool of domesticated animals - rabbit, sheep, llama, dog, camel, goat, alpaca, sarlik and others. Also, the wool of wild animals - raccoon, beaver, bear, has high healing properties, but due to its higher cost and lower availability it is used much less often.

The coat of each animal is healing in its own way. The healing properties of wool are determined both by its mechanical qualities - the length, thickness, stiffness and shape of the hairs, and the chemical composition, which is different for different animals.

So, for example, the composition of sheep’s wool includes lanolin, which has beneficial effects on muscles and joints.

A "prickly" dog hair provides a massage effect similar to acupuncture.

Dog hair is one of the time-tested means of getting rid of back pain with radiculitis, osteochondrosis, and kidney diseases.

Dog hair contains surfactants, the penetration of which through the skin has a beneficial effect on the body, neutralizes negative electrical charges on the surface of the body, perfectly retains heat, has a piercing effect on the skin, which contributes to an abundant blood flow to the sore spot - improves microcirculation, stimulates biologically active zones and points.

In order to increase the therapeutic effect, the elastic fixative can be made of a mixture of the coat of various animals, which will give a combined effect - all the types of wool that make up the body will have an effect.

So, for example, an elastic fixative for the treatment of osteochondrosis, it is advisable to perform from a mixture of sheep and dog wool, complementing each other and providing a comprehensive therapeutic effect.

For the purpose of ease of use and treatment of certain parts of the body, the elastic retainer can be made in the form of a belt, elbow, knee pad, vest, bandage, and so on, the shape is determined by the place of intended fastening on the human body.

Since one of the main disadvantages of natural wool is its relatively low mechanical strength and loss of shape under various influences, for example stretching when wet, which happens, for example, when a person sweats when using a retainer, in order to improve the mechanical properties of an elastic retainer made of natural animal hair, the fixer can be made with the addition of fibers of plant or synthetic origin, providing the necessary mechanical properties.

Application example:

In the period from August to December 2013, on the basis of the FSBI Scientific Research Institute of Medical Problems of the North of the Siberian Branch of the Russian Academy of Medical Sciences, Krasnoyarsk, an assessment was made of the effectiveness of the treatment of patients with diseases of the musculoskeletal system with the proposed physiotherapeutic device. As an object of study, 15 patients aged 40-65 years with neurological manifestations of osteochondrosis were selected.

Light exposure was carried out by “Geska-1/4 bq” portable physiotherapeutic LED K- and IR-radiation devices - registration certificate of the Ministry of Health of the Russian Federation No. ФСР 2010/08675, declaration of conformity No. РОСС RU.АИ42.Д04079, a dog belt was used as a holder wool.

The exposure was carried out on the paravertebral zones of the segments of the affected muscles in the red and infrared range for 10 minutes daily 2 times a day with a time interval of more than 6 hours (morning, evening). The Geska light exposure apparatus was fixed on the patient’s body with a dog’s belt. After exposure to light, the wool belt remained on the patient's body for 30 minutes. The course of treatment lasting 10 days. Treatment is carried out on a "clean" background, ie without the use of drug therapy, on an outpatient basis.

Research methods included clinical and radiological examination, psychological testing. The criteria for the effectiveness of treatment of patients with spinal osteochondrosis with a physiotherapeutic device were psychological indicators of pain assessment, clinical parameters of vertebro-neurological status and membrane parameters of erythrocyte membranes in patients with spinal osteochondrosis.

Based on the results of the study, positive results were obtained with a physiotherapeutic device for patients with diseases of the musculoskeletal system, neurological manifestations of spinal osteochondrosis with reflex muscular-tonic, pain syndromes and mild radicular syndromes by carrying out procedures for 10 days.

During treatment, after a 6-7 session, patients noted a decrease in pain and stiffness in the joints of the spine, especially in the morning.

At the end of the course of treatment, the pain syndrome significantly decreased in almost all patients. During the treatment, not only the quantitative characteristics of pain changed, but also the qualitative ones - the pain lost its shooting color, became tolerant, often had the character of insignificant dull sensations. Full statistics are given in the report on the study [5].

1. Bogolyubov V.M., Ponomarenko G.N. General physiotherapy: Textbook. - M., 1999

2. Ponomarenko G.N. Physical Therapies: A Handbook. - SPb., 2002

3. Drobyshev V.A. General physiotherapy. Phototherapy. Ultrasound therapy: teaching aid / V.A. Drobyshev, N.P. Kareva, A.A. Lyutkevich. - Novosibirsk, 2008.

4. Malygin V.A., Nalyvayko B.A. Physiotherapeutic apparatus for light and color therapy. Utility Model Patent RU No. 56197 dated 2.05.2006.

5. Zaitseva O.I. Evaluation of the effectiveness of treatment of diseases of the musculoskeletal system (neurological manifestations of osteochondrosis and osteoarthritis of large joints) by exposing the pathological focus to red and infrared monochromatic LED radiation. Report dated 12/16/2013; FSBI Scientific Research Institute of Medical Problems of the North SB RAMS.

Claims (3)

1. Physiotherapeutic device containing a power source, a control unit and emitting diodes from the light and / or infrared ranges of radiation, forming one or more emitting matrices located on the inner side nearest to the body side of the elastic retainer (eg belt, elbow, knee, vest, bandage), which allows to fix the emitting matrix of the device over the place of impact, characterized in that the elastic retainer is made using natural wool. 2. The device according to claim 1, characterized in that the elastic retainer is made of a mixture of wool of two or more kinds of different animals, providing a combined effect on the body, for example, wool of a sheep and a dog, a rabbit and a sheep, a dog and a llama, a dog and a camel. 3. The device according to claim 1 or 2, characterized in that the elastic retainer is made of animal hair with the addition of natural and / or synthetic fibers, providing additional mechanical properties, such as strength, elasticity, wear resistance.