RU2104067C1 - Method of treatment of deforming osteoarthrosis and device intended for its realization - Google Patents

Abstract

FIELD: medicine; laser therapy. SUBSTANCE: region of inflammatory process is subjected to combined effect of low-intensity laser pulsed radiation in near infra-red section of spectrum at wave length of 0.89 mcm, pulse repetition frequency of 80-2000 Hz, power flux density of 1-20 mW/sq.cm and of pulsed low-frequency electromagnetic field at pulse repetition frequency of 20-80 Hz, therapy zone intensity of 0.1-10 V/cm, time of exposure of one area of 1-4 min and summary time of exposure of several areas not exceeding 10-12 min. Device has power supply and control unit l with radiation unit 2 connected to it, generator 3 of pulse low-frequency voltage with electrode 4 coated with dielectric 5 connected to it. Radiation unit 2 is mounted inside electrode 4 made as ring. Unit 2 is capable of axial movement and may be attached by screw 6. EFFECT: more efficient treatment, reduced course of treatment. 2 cl

Description

 The invention relates to medicine and can be used in the treatment of arthrosis.

 A known method of treatment by exposure to electromagnetic radiation with a wavelength of 0.63 μm [1].

 A known method of treating tissues with low-power radiation in the infrared region of the spectrum [2].

 These methods have anti-inflammatory, analgesic effects. However, the penetration depth into the laser tissue is small and depends on the degree of vascularization and the pigmentation of the irradiated surface, which reduces the effectiveness of the therapeutic effect of laser radiation. It is known about the pathogenetic anti-inflammatory effect of a pulsed low-frequency electromagnetic field (INEIP) generated by the INFITA apparatus in patients with joint and spinal diseases [3, 4, 5].

 The closest way to treat patients with deforming osteoarthritis (DOA) is the method of exposure using laser radiation [6], which is taken as a prototype [7].

 This method of exposure has an anti-inflammatory, analgesic effect, however, the penetration depth into the laser tissue is small and depends both on the degree of vascularization and on the pigmentation of the irradiated surface, which reduces the effectiveness of the therapeutic effect of laser radiation.

 The technical result is to increase efficiency and shorten the course of treatment.

The result is achieved by the fact that according to the method of treating deforming osteoarthritis, which includes the combined exposure of the inflammatory process to low-intensity laser pulsed radiation in the near infrared region of the spectrum with a wavelength of 0.89 ± 0.02 μm, a pulse repetition rate of 80-2000 Hz, a flux density power 1-20 mW / cm ² and a pulsed low-frequency electromagnetic field with a pulse repetition rate of 20-80 Hz, the intensity in the treatment area of 0.1-10 V / cm, the exposure time per field 1-4 min and the total air time actions on several fields no more than 10-12 minutes.

A device for implementing this method includes a power supply and control unit for a semiconductor laser with a unit for emitting low-intensity laser pulses in the near infrared region of the spectrum with a wavelength of 0.89 ± 0.02 μm, a pulse repetition rate of 80-2000 Hz, and a power flux density 1-20 mW / cm ² , a pulsed low-frequency voltage generator with a pulse repetition rate of 20-80 Hz and with a dielectric insulated electrode connected to the carrier, forming a pulsed low-frequency electromagnetic field a bone in the therapy zone of 0.1-10 V / cm, and the electrode is made in the form of a ring with a coaxial radiation unit installed inside it and with the possibility of their mutual coaxial movement and fixation.

 An essential feature of the method is the combination of effects on the inflammatory process area of laser radiation and a pulsed low-frequency electromagnetic field with a pulse repetition rate of 20-80 Hz, intensity in the therapy zone of 0.1-10 V / cm, exposure time per field 1-4 min and total exposure time for several fields no more than 10-12 minutes

 An essential feature of the device is a pulsed low-frequency voltage generator with a pulse repetition rate of 20-80 Hz and a dielectric insulated electrode connected to it, forming a pulsed low-frequency electromagnetic field with a strength in the therapy zone of 0.1-10 V / cm, and the electrode is made in the form of a ring with a radiation unit installed coaxially inside it and with the possibility of their mutual coaxial movement and fixation.

 It is a pulsed low-frequency voltage generator with a pulse repetition rate of 20-80 Hz and with a dielectric insulated electrode connected to it, forming a pulsed low-frequency electromagnetic field with a strength in the therapy zone of 0.1-10 V / cm, and the electrode is made in the form of a ring with an inside coaxially with the radiation unit and with the possibility of their mutual coaxial movement and fixation, provides, according to the method, increasing the efficiency of laser radiation. This allows us to conclude that the claimed invention is interconnected by a single inventive concept.

 It is known about the effect of the combined, combined action on a person of various biophysical factors [8], which can significantly differ from the effects caused by each factor individually. Moreover, the final effect, its magnitude on the directivity depends on the parameters, sequence and duration of factors, their nature.

 A device for treating wounds [9], using the combined action of a magnetic field and infrared radiation. However, the combined effect of INEMP with IR radiation has a milder effect compared to the method implemented [9], which leads to a decrease in the possibility of negative reactions to physiotherapy (exacerbation of the pathological process). This is extremely important in the treatment of infected wounds, where exacerbation can lead to death.

 The advantage of the proposed method and device over the prototype is that the device allows you to work at a greater depth, which is especially important for joint damage in obese patients with light skin color, where the optical density of the tissue for laser radiation is high enough, which dramatically reduces its therapeutic effect.

 The combined effect of these two factors leads to an increase in the dielectric constant of the tissue, which in turn helps to reduce the optical density for laser radiation and a deeper effect of infrared radiation. In addition, INEMP has a neurotropic, defibrosing, anti-adhesive, desensitizing effect, improves general and neurohemodynamics, microcirculation. Under the influence of INEMP, according to tetropolar rheography, indicators of central and peripheral hemodynamics improve.

INEMP in combination with IR laser radiation has a super-summing effect, enhancing and prolonging the action of each of them, allowing to significantly expand the scope of application of the device for the treatment of DOA, to differentially apply depending on the activity of the process and the functional state of the body, by choosing combinations of the following treatment factors:
IR laser radiation to the area of the inflammatory process;
INEMP on the area of the inflammatory process;
IR laser radiation, combined with INEMP, affecting the area of the inflammatory process.

 The greatest effect can be achieved in the treatment of patients prone to allergic reactions, poorly tolerating drugs, which often leads to the impossibility of prescribing medicines in adequate dosages due to concomitant gastrointestinal, cardiovascular diseases, allergies to drug therapy.

The technical result of the proposed method and device is achieved by eliminating the disadvantage of the prototype is a low penetration depth of infrared radiation. The criteria for evaluating the effectiveness of the claimed method and device were:
- shortening the course of treatment;
- a comparative assessment of the number of patients who recovered;
- expanding the scope of the method (the chronic course of the disease, where separate exposure to laser radiation and the effect of INEMP were ineffective).

 Tests were conducted on 76 patients. Examination and treatment was carried out by a double blind method. All patients were divided into 4 groups comparable in clinical characteristics.

The treatment effectiveness was:
- in the main group using the device for the treatment of DOA 94.3%, the total time of the procedures was 20-48 minutes;
- using a laser in the IR spectral range of 83.1%, the total procedure time was 60-105 minutes;
- using INEMP therapy 79.5%, the total procedure time was 360 minutes.

 Thus, we can conclude that the method and device for its implementation, using the combined action of INEMP and laser radiation in the infrared region of the spectrum, have a super-cumulative effect.

 The drawing shows a block diagram of a device.

 The method is as follows.

In the presence of an acute inflammatory process or severe pain, the low-intensity laser pulse radiation with a wavelength of 0.89 ± 0.02 μm is first affected by the inflammatory process and, depending on the activity (severity) of the pain syndrome, the clinical picture of the disease, the pulse repetition rate of 80-2000 Hz, power flux density of 1-20 mW / cm ² and exposure time 1-4 minutes Conduct 3-4 procedures.

 At the second stage of treatment, a combined effect on the inflammatory process area is performed by low-intensity laser pulsed radiation and a pulsed low-frequency electromagnetic field with a pulse repetition rate of 20-80 Hz and a tension in the therapy zone of 0.1-10 V / cm.

 For this purpose, a dielectric insulated electrode 4 is put on the laser radiation unit 2, fixed with a screw 6 and connected to a pulsed low-frequency voltage generator 3. The INEMP voltage is controlled by the coaxial movement of the dielectric insulated electrode 4 relative to the radiation unit 2, which changes the distance of the electrode 4 relative to the patient’s tissue surface. The exposure time per field is 1-4 minutes. The total exposure time for several fields is not more than 10-12 minutes. The course of treatment is 10-12 procedures. Procedures are carried out daily.

In a chronic sluggish process with a predominance of proliferation processes, they immediately carry out a combined effect on the inflammatory process area with low-intensity laser pulsed radiation with a wavelength of 0.89 ± 0.02 μm, a pulse repetition rate of 80-2000 Hz, a power flux density of 1-20 mW / cm ² and a pulsed low-frequency electromagnetic field with a pulse repetition rate of 20-80 Hz and a tension in the therapy zone of 0.1-10 V / cm.

 Impact parameters are selected depending on the activity (severity) of the pain syndrome, the clinical picture of the disease. The exposure time per field is 1-4 minutes. The total exposure time for several fields is not more than 10-12 minutes. The course of treatment is 10-12 procedures. Procedures are carried out daily.

A device for treating deforming osteoarthritis contains a power and control unit 1 with connected to it 2 radiation units of low-intensity laser pulses in the near infrared region of the spectrum with a wavelength of 0.89 ± 0.02 μm, a pulse repetition rate of 80-2000 Hz, power flux density 1-20 mW / cm ² , generator 3 of a pulsed low-frequency voltage with a pulse repetition rate of 20-80 Hz and with an electrode 4 connected to it, forming a pulsed low-frequency electromagnetic field with a strength in the therapy zone of 0.1-10 V / cm and covered with a die 5, inside the electrode 4, made in the form of a ring, a radiation unit 2 is installed with the possibility of coaxial movement and fixation by a screw 6.

 The device operates as follows. The device is installed in the inflammatory process area, the necessary mode of the procedure is established on the block 1 and the generator 3, the pulse low-frequency voltage generator 3 is turned on, then the power supply and control unit 1 are turned on and the procedure is carried out.

 Generator 3 forms a pulsed low-frequency voltage of negative polarity, with a leading edge duration of not more than 0.3 μs, a decay duration of 5 ms and a frequency of 20-80 Hz. The indicated voltage pulses, arriving at the electrode 4, form in the therapy zone, component 0.5-4 cm, a pulsed low-frequency electromagnetic field of intensity E = 0.1-10 V / cm.

где U,B - амплитуда импульсов низкочастотного напряжения;
L,м - расстояние между поверхностью электрода 4 и кожей пациента.The magnitude of the tension is determined by the empirical formula

where U, B is the amplitude of the low-frequency voltage pulses;
L, m is the distance between the surface of the electrode 4 and the skin of the patient.

 The distance L is set by coaxial movement of the radiation unit 2 and the electrode 4.

 As a generator of pulsed low-frequency voltage, you can use the device INFITA [5].

 The dependence of the intensity E of the pulsed low-frequency electromagnetic field generated by the INFITA apparatus on the distance L is determined by the following table.

В качестве блока питания и управления 1 и блока излучения 2 может быть использован аппарат лазерный биофизический "УЗОР" [7]. Электрод 4 может быть изготовлен из меди, латуни. В качестве диэлектрика 5 можно использовать резину, плексиглас. Толщина диэлектрического покрытия составляет 2-3 мм.

As a power supply and control unit 1 and a radiation unit 2, a laser biophysical apparatus "PATTERN" can be used [7]. The electrode 4 can be made of copper, brass. As the dielectric 5, you can use rubber, plexiglass. The thickness of the dielectric coating is 2-3 mm.

 Clinical example.

 Patient M., 41, was admitted with a diagnosis of deforming osteoarthritis of the knee joints. Upon receipt of a complaint of pain and crunch in the joints. Pain in the right joint during descent from the stairs intensifies. Suffers from a disease for 12 years. Anti-inflammatory drug therapy did not produce a noticeable effect. The course of laser therapy from the device "UZOR" was ineffective. The use of the INFITA device did not bring success either.

The studies conducted allowed us to clarify the nature of the process, as a sluggish torpid chronic process with predominantly proliferative changes in the joints with mild synovitis, disorganization of the cartilage tissue of the joint. The course of treatment was carried out: 10 procedures with the combined action of laser radiation with a wavelength of 0.89 μm, a pulse repetition rate of 1500 Hz, a power flux density of 5 mW / cm ² and INEMP with a pulse repetition rate of 52 Hz and a tension in the treatment area of 1 - 2 V / cm. The duration of the first procedure is 1 min, the second 2 min, the third and subsequent 3 min.

 After the first procedure, a decrease in pain was noted. After the fifth procedure, the pain disappeared. Increased range of motion in the joint. After a course of 10 procedures, the crunch in the joints decreased. The patient calmly began to descend the stairs without pain.

 Thermographic, radioisotope examination showed the disappearance of the inflammatory process in the joints. No side effects were noted. The effect persisted for 9 months.

Sources of information:
1. USSR author's certificate N 1570734, cl. A 61 N 5/00, 1988
2. US patent N 4930504, MK A 61 N 5/00.

 3. Komarova E.T. On the effect of pulsed low-frequency therapy from the INFITA apparatus on athletes after great physical and emotional stress. Countdown scientific and methodological center of Olympic training, TS DSO "Labor reserves", -M .: 1990.

 4. Patent of Russia N 2008034 from 07/17/89. Device for IFF-therapy.

 5. Pulse low-frequency physiotherapy apparatus "INFITA" BAS. 293.011. Instructions for use.

 6. Guidelines for the use of a laser therapeutic apparatus on gallium arsenide "UZOR" in medicine.- M.: 1990.

 7. Laser biophysical apparatus (ALB) "UZOR" TV2, 900.001.

 8. Antipov VV On the combined action of various flight factors. Fundamentals of Space Biology and Medicine. 2. - M .: 1975, p.234-268.

 9. Copyright certificate of the USSR N 1697847, cl. A 61 N 2/08, 1988.

Claims (2)

1. A method for the treatment of deforming osteoarthritis, including exposure to the inflammatory process area with low-intensity laser pulsed radiation in the near infrared region of the spectrum with a wavelength of 0.89 μm, a pulse repetition rate of 80 2000 Hz, a power flux density of 1 20 mW / m ² , characterized in that the effect is carried out in combination with the impact on the area of the inflammatory focus by a pulsed low-frequency electromagnetic field with a pulse repetition rate of 20 80 Hz, the intensity in the therapy zone of 0.1 10 V / cm, the exposure time I for one field 1 4 minutes and the total time of exposure to a number of fields no more than 10 12 minutes. 2. A device for the treatment of deforming osteoarthritis, comprising a power supply and control unit for a semiconductor laser with a low-intensity laser pulse unit connected to it in the near infrared region of the spectrum with a wavelength of 0.89 μm, a pulse repetition rate of 80 2000 Hz, a power flux density of 1 20 mW / cm ^2, characterized in that it is equipped with low-frequency voltage pulse generator with a pulse repetition rate of 20 Hz and 80 connected thereto dielectrically isolated electrode forming no impulse -frequency electromagnetic field strength in the treatment zone of 0.1 to 10 V / cm, wherein the electrode is formed as a ring mounted coaxially inside the emitting unit and with the possibility of their reciprocal coaxial movement and fixation.