RU2026093C1 - Method of core of illness - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: pulse surface low-temperature laser plasma is used for curing different ILLNESS, which has to be optical discharge in air onto the surface of biological tissues and source of mechanical, thermal and radiation shock directed onto the part of patient's body. Pulse laser radiation irradiator is projected above injured tissues or organs; wavelength is equal to 10.6 mcm, pulse energy 1-3 J, pulse duration is equal to 1 mcs, pulse repetition frequency achieves 1000 Hz. This source generates laser plasma. Parts of skin cover, mucous are irradiated one time or multiple. EFFECT: reduced periods or treatments; improved quality of treatment; improved rehabilitation.

Description

 The invention relates to medicine, veterinary medicine and can be used in the treatment of various diseases of humans and animals.

 Depending on the duration of laser irradiation of biological tissues and the intensity of laser radiation actually acting on their surface or inside tissues, three interactions are observed: photochemical effects, photothermal effects and photoionization effects (Frank F. - Laser radiation and tissue, biophysical aspects of the use of a laser in medicine. B book: Lasers and medicine. M., 1989). In medicine, in the treatment of diseases, low-energy laser, x-ray and gamma radiation are widely used. X-ray and gamma radiation have a therapeutic effect due to the ionization of biological media, causing, depending on the dose, stimulation, irritation or destruction of cells and tissues of the body (I. Birzu, Grigorescu Pcs. - Radiotherapy in the clinic. Medical Publishing House - Bucharest, 1981).

 Low-energy laser radiation affects the human body mainly by photolytic and thermal factors. (Kryuk A.S., Mostovnikov V.A., Khokholov I.V., Serdyuchenko N.S. - Therapeutic efficacy of low-intensity laser radiation. Minsk, "Science and Technology", 1986).

 Treatment with ionizing laser radiation is carried out by irradiating certain areas of patients.

Low-energy laser radiation is used in medicine in the treatment of many diseases, for example, using the laser unit "Pattern". It was established that the effect of laser radiation on the body manifests itself differently and can be expressed in the activation of its functions or their inhibition, as well as in the absence of any significant changes in the specific response of a biological object. The factors of direct laser exposure to the human body are distinguished: electromagnetic, thermal, mechanical. Treatment is carried out through the skin in the following irradiation mode: radiation power of 2-3 W per pulse with a pulse frequency of 80-3000 Hz and exposure up to 4 min, the radiation dose of 0.02-0.05 J / cm ² .

 Low-energy laser radiation is successfully used in medicine. At the same time, it is necessary to carry out work to find new more effective forms of treating patients, with exposure factors inherent in this method, but more pronounced in terms of impact, as well as an increase in the arsenal of therapeutic factors for influencing the human body.

 The aim of the invention is the use of pulsed laser plasma for more effective than existing, the treatment of various human diseases (diseases of the skin, internal organs, cardiovascular system, musculoskeletal system and others).

 The goal is achieved by the action of a near-surface pulsed laser plasma on biological objects, in particular, on the affected areas of the skin and mucous membrane, on the projection of the affected organs or tissues, biologically active points.

 The essence of the invention lies in the fact that biological objects are affected not directly by laser radiation, but by pulsed low-temperature near-surface plasma generated in a sharply focused laser beam (Laser generation of erosion plasma. In the book: Prokhorov AM, Konov VI, Ureu I., Mikheilesku IM - Interaction of laser radiation with metals, M., "Science", 1988, pp. 205-282). Pulsed plasma is an optical discharge and can absorb all the energy of a laser pulse, and then part of this energy is re-emitted in different spectral ranges, a significant portion of the radiation goes to the surface of the object. Pulsed plasma is a source of explosion and, accordingly, thermal, radiation and mechanical shock to a biological object. In addition, 5-10% of laser radiation not absorbed by the plasma directly affects the irradiated surfaces.

 The effect of pulsed plasma on human tissues and organs is caused by thermal, radiation, and mechanical factors, as well as by the electric and magnetic fields of optical breakdown plasma, light radiation in a wide range of waves, and currents arising from the breakdown of air and vapors on the surface of tissues. A set of factors is created that affect the human body, causing a therapeutic effect. The degree of plasma exposure to a biological object depends on the wavelength of the laser radiation, the pulse energy, the repetition rate, the duration and shape of the pulses, the density of the energy distribution in the stream, the area and geometry of the irradiation spot, and the plasma formation threshold.

 A distinctive feature of the impact of pulsed plasma is that a large complex of factors acts on biological objects at the same time, and burns and other injuries do not form on the skin.

 During pulsed plasma exposure, patients feel a slight blunt shock on the surface of the skin, a slight tingling sensation and a feeling of warmth in the area of plasma exposure. Visually, on the surface of the irradiated area of the patient’s skin, a plasma formation process is observed with the characteristic light flash and click that accompany this process. Immediately after exposure, the irradiation site has a gray-white color due to evaporation of the surface tissues of the skin.

 For a week, the site of irradiation of the affected area of the skin is covered with a dark brown crust (while maintaining normal unaffected areas of the skin), which disappears in a two-week period. At the site of the fallen crust, a densification of tissues is observed, which disappears without a trace.

 Under the influence of pulsed plasma on healthy skin areas, a white skin color appears due to evaporation in the surface layers of the epidermis. A change in skin color disappears without a trace within a three-day period, there are no burns and inflammatory reactions at the site of irradiation.

Patient plasma treatment is performed using a pulsed-periodic CO ₂ laser, which has the following main technical characteristics: radiation wavelength λ = 10.6 μm, pulse energy 1-3 J, pulse duration 1 μs, pulse repetition rate from 0 to 1000 Hz, laser efficiency 10%. Focusing lens made of NaCl with focal length F = 15 cm.

 The pulsed near-surface, low-temperature laser plasma acts on the main factors of the inflammatory process: microflora, cell proliferation, microcirculation processes, local and general specific and non-specific immunity factors, etc., which determines its clinical feasibility in inflammatory diseases. Laser plasma stimulates local and general reactions of the body, normalizing their homeostatic characteristics at various structural and functional levels of its organization. Laser plasma has an anti-inflammatory analgesic effect, has a normalizing effect on the immune status.

 The principle of choosing the energy density in the irradiation spot and achieving the therapeutic effect of the laser plasma on the body as a whole and on the affected organs or tissues in particular is determined to a greater extent by the depth of the location of the affected organs and tissues from the surface of biological tissues, on which a surface optical discharge is created in the air - source explosion and, accordingly, mechanical, thermal and radiation impact on the irradiated area.

 In addition, the individual characteristics of the patient are taken into account - the general condition, the prevalence of the process, individual sensitivity to physical and drug factors, the state of the surface of biological tissues over which surface plasma is formed, and many other features.

In the treatment of patients with diseases of the internal organs and cardiovascular diseases, the use of laser plasma is carried out by the action of radiation on the skin areas projected over the affected organ or Zakharyin-Ged zone or reflexology points at a dose of 10-30 J / cm ² .

In laser plasma treatment of gastric ulcer and duodenal ulcer, plasma is exposed through the front abdominal wall to the pain zone 2-3 times a week with an energy density in the spot of irradiation from 10 to 30 J / cm ² .

In chronic hepatitis, cholecystopancreatitis, obstructive jaundice, laser plasma treatment is carried out at an energy density in the irradiation spot of 8 J / cm ² .

In coronary heart disease, angina pectoris, pre-infarction state, laser plasma is used against the background of antioxidant therapy in the Zakharyin-Ged zone and reflexology points at an energy density of 3 J / cm ² in the irradiation spot.

In case of hypertension, laser plasma irradiation is carried out in the region of the heart and the occipital, collar zone with an energy density of 5 J / cm ² in the irradiation spot.

In acute pneumonia, laser plasma irradiation is performed on sections of the chest projected onto the affected areas of the lungs determined by fluoroscopy. The energy density in the irradiation spot is 10-30 J / cm ² .

The positive effect of laser plasma on neuro-reflex connections, the mobilization of the adaptive capabilities of the body, the normalizing effect on autonomic reactivity, the stimulation of biosynthesis processes cause a pronounced therapeutic effect in patients with diseases of the nervous system by acting on biologically active points in a dose of 1 to 10 J / cm ² .

In gynecology and urology, the projection over the affected organs is irradiated at an energy density of 10 J / cm ² in the irradiation spot.

 In dentistry, irradiation using laser plasma projections over the affected areas or exposure to biologically active points is used.

In pediatrics, laser plasma is used in areas of direct damage, reflexogenic points and acupuncture points. Using laser plasma, children with neurosis, allergic and bronchopulmonary diseases, and vegetative-vascular dystonia are treated. External exposure to the zones projected onto the affected organ or tissue, the energy density in the irradiation spot is 3-15 J / cm ² , and when exposed to biologically active points, the energy density in the irradiation spot on the point is 1-10 J / cm ² .

The use of laser plasma in dermatology is indicated for limited forms of eczema, focal scleroderma, dermatoses, neurodermatitis, pigmented and pigmented-warty nevi, hemangiomas, lichen planus. Irradiation is carried out at an energy density in the irradiation spot of 10 J / cm ² , or to acupuncture points with an energy density in the irradiation spot of 1 J / cm ² , increasing the energy density by 1 J / cm ² for each subsequent session.

 Examples of specific performance. The most indicative treatment effectiveness is observed in the treatment with pulsed plasma in patients with pigmented and pigmented-warty nevuses, eczema, hemangiomas, papillomas, keratopapilomas and other diseases.

The treatment of patient L. was carried out, in which there was a brown pigmented-warty nevus in the lower abdomen, which over the course of two years increased from 7 to 20 mm. The surface of the affected area was subjected to uniform exposure to pulsed plasma formed by the radiation of a CO ₂ laser, having the following parameters: radiation energy per pulse 1 μs, number of pulses 7, diameter of the irradiation spot 4 mm, radiation energy density 10 J / cm ² .

 During irradiation, with each impulse, the patient felt light blunt bumps in the irradiated area, a slight tingling sensation and a feeling of warmth in the affected area. Immediately after exposure, the irradiation site had a white-gray color, due to evaporation of the surface tissues of the skin. Visually, on the surface of the affected area of the skin, a plasma formation process is observed with the characteristic light flash and click that accompany such a process. Two weeks later, the site of irradiation was covered with a dark brown crust, and after another two weeks the crust fell away. In place of the pigmented-warty nevus, a slight compaction of the tissues remained, which completely disappeared after 6 weeks. In place of the former education, a normal skin appeared.

A distinctive feature of the generally accepted treatment for pigmented-warty nevus using laser radiation is that it also shows the treatment of nevus, the diameter of which is not more than 5-7 mm. In addition, the treatment technique provides for the maximum infiltration of surrounding nevus and underlying tissues with a solution of 0.25-0.5% trimecaine or novocaine, not only for the purpose of anesthesia, but also to create a protective fluid barrier that protects healthy tissues from laser exposure. The protection of the surrounding skin is carried out using wet wipes, glass plates, mechanical shields and aluminum foil. It uses only 20% of the capacity of the Scalpel-1 installation (power density 0.009 kW / mm ² ). An increase in power during evaporation is undesirable, since it is more difficult to control the depth of penetration of the laser beam and the zone of coagulation necrosis increases, which can adversely affect the results of treatment (Brekhov E.I., Skobelkin OK, Kalinnikov V.V., Bogatov V .V., Davydov B.N., Novoselov R.D. 1989).

 In the treatment of similar patients using laser plasma, there are no restrictions for treatment depending on the size of the affected area, and the use of novocaine or trimecaine for tissue infiltration and the protection of surrounding tissues with wet wipes, glass plates and aluminum foil is not required. Coagulation necrosis in the area of undamaged (healthy) tissues is not observed.

 Feasibility or other efficiency.

 When using laser plasma in the treatment of patients, in comparison with using only traditional methods of treatment, pain syndrome is noted in a shorter time, the temperature normalizes, the length of stay of patients in the hospital decreases, the duration of the state of moderate severity of the disease and serious condition decreases. When treating patients using laser plasma, the number of people with persistent and temporary disability is reduced, the hospital stay of patients is reduced, the number of medications used to treat patients is reduced.

 With the widespread introduction of laser plasma in medical practice, the quality of medical services to the population will increase, economic efficiency indicators will increase: economic efficiency in healthcare, economic effect due to a reduction in social insurance payments, and economic effect due to the additional output of clean products.

Claims (1)

METHOD FOR TREATING DISEASES, including exposure to a pathological focus or projection of an affected organ by a physical factor, characterized in that the exposure is performed by a near-surface low-temperature laser plasma generated by laser radiation with a wavelength of 10.6 μm in a pulsed mode with an energy density of 1 - 30 J / cm ² , duration pulse 1 μs.