RU2080894C1 - Method for treating inflammatory diseases and inflammatory complications in cases of maxillo-facial trauma - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves exposing tissues to infrared monochromatic radiation in pulsating periodic and in pulsating modulated mode at 15 Hz frequency and 0.4 W power, 10^-4 pulse duration, 1-3 min exposition time. Pulse batches applied are rectangular, triangular and saw-shaped in form. EFFECT: enhanced effectiveness. 2 cl

Description

 The invention relates to medicine, in particular to dentistry, and can be used to treat inflammatory diseases of the maxillofacial region.

A known method of treating chronic space by exposure to a physical factor on the prostate gland, namely, exposure to red monochromatic radiation with a wavelength of 0.6328 microns, with a duration of exposure of 8 minutes and energy density of 0.5-6.0 mW / cm ² (see ed. St. N 1091396, class A 01 N 5/06, 1985)
A known method of treating patients with inflammatory diseases of the paranasal sinuses by exposure to coherent monochromatic defocused radiation with a wavelength of 632.8 mm, specific power of 0.8-10 mW / cm ² for 2-10 minutes (see ed. St. N 1223924, class A 61 N 5/06, 1986) A method for the treatment of apical periodontitis is known, based on exposure to the focus with electromagnetic healing with a wavelength of 0.6329 microns at a power flux density of 5-20 mW / cm ² with an exposure of 1-3 minutes (see Auto Rev. N 1570734, class A 61 N5 / 00, 1990)
The disadvantages of all the analogs described above is that the wavelengths adopted in these methods for treating the red light range do not allow the energy of light radiation to be brought into the depths of the tissues and light absorption occurs at a depth of 1-1.5 cm.

 In addition, radiation in a constant mode of generation of the light flux does not have a bactericidal effect.

 It is known that the most optimal wavelength, allowing you to bring the energy of the light flux to a depth of 40-70 mm, is the wavelength in the infrared range (890 nm).

A known method of treating a purulent wound by exposure to radiation in the ultraviolet and infrared range. (see ed. St. N 1600790, class A 61 N 5/06, 1990)
This method provides an effect due to the surface bactericidal action of ultraviolet radiation, and infrared radiation enhances the effect of UV radiation. The continuous generation of light flux in any part of the spectrum causes damage to cellular structures.

A known method of treating uncomplicated caries using pulsed radiation of coherent polarized monochromatic radiation in the red range of 2.94 μm, a pulse duration of 100-500 μs, a power of 0.5-1.0 J / cm ² , a pulse frequency of 1 Hz. (see A.S. N 1593669, class A 61 N 5/06, 1990) Prototype.

 This method eliminates the drawback of the previous analogue, however, the pulsed nature of the radiation is unchanged during the irradiation session, also causes the adaptation of cell structures, which requires an increase in the number of procedures and does not always lead to the desired effect.

 The task is to increase the effectiveness of treatment using infrared radiation.

 The solution of this problem is ensured by the fact that the focus on the focus is produced by monochromatic infrared radiation with a wavelength of 890 nm in a pulse-periodic or pulse-modulated generation mode with a frequency of 1500 Hz and a frequency of periods of 15 Hz.

The proposed method of treatment is characterized by the following feature:
the exposure is carried out by emitting monochromatic light in the infrared spectrum with a wavelength of 890 nm.

A distinctive feature of the proposed method is that
irradiation is carried out in a pulse-periodic or pulse-modulated generation mode.

 An analysis of the known technical solutions and the proposed one showed that its distinguishing features determine the compliance of the technical solution with the criterion of "novelty."

 A comparative analysis of the proposed solution with analogues, prototype and other technical solutions known from the prior art showed that the distinguishing features determine the achievement of a positive result, which consists in reducing treatment time due to the antibacterial effectiveness of radiation, increasing the sensitivity of microflora to antibiotics and accelerating the repair of damaged tissues.

 In order to justify and prove the advantages of the proposed method, experimental studies were conducted in several areas.

 1. Microbiological studies were carried out by irradiating with IR light in the range of 890 nm in various modes of generation on staphylococcal flora and Escherichia coli, seeded on yolk-salt and blood agar. A total of 5 series of experiments were carried out.

 1 series control.

 Series 2 irradiation was carried out in a constant generation mode with a frequency of 15 ° Hz.

 4 series irradiation was carried out in a pulse-periodic mode of generation with a pulse repetition rate of 1500 Hz, with a pulse repetition rate of 15 Hz.

 5 series irradiation was carried out in a pulse-modulated generation mode with the same frequencies.

It was noted that in all 4 series, the studied flora did not change compared to the control, i.e. none of the radiation modes had a bactericidal effect. The size and shape of the colonies remained unchanged. However, when sowing microflora from the colonies, the following were revealed:
the control group gave growth of the same flora, sensitivity to antibiotics did not change;
the results of replanting the flora irradiated in a constant mode are similar to the previously existing flora, the sensitivity to antibiotics is the same;
flora, irradiated in a pulsed mode, when plated on medium, gave the same microflora growth, however, the number of colonies and their size decreased compared to the original ones, sensitivity to some types of antibiotics increased, the film of colonies was thinned;
staphylococcus colonies irradiated in a pulse-periodic mode when exposed to a nutrient medium give rise to monococci, the film is absent, Escherichia coli gives the growth of single colonies, bacteria are wrinkled, the flora is highly sensitive to almost all antibiotics;
pulse-modulated irradiation produces an effect similar to the previous one.

 The effect of various modes of IR radiation on the regeneration of nerve tissue was studied.

 The experiments were conducted on 15 rats of the Wistar line. Under ether anesthesia in rats, an operation was performed to damage the femoral nerve by crossing with subsequent stitching. 3 rats were control, and the rest were subjected to different radiation regimes: constant, pulsed, pulse-periodic and pulse-modulated. The results showed that motor activity in rats irradiated in a pulse-periodic and pulse-modulated mode, recovered 3-4 days earlier than in rats irradiated in other modes and control.

 III. The effect of various modes of IR radiation on bone tissue regeneration was studied.

 The experiment was conducted on 25 outbred rabbits. Under intraperitoneal thiopental anesthesia, 3 hole defects were produced in the rabbit's lower jaw. One group of animals was control, another was irradiated in a constant mode of generation of IR radiation, the third in a pulsed mode, the fourth in a pulse-periodic and the fifth in a pulse-modulated.

 In animals of the first and second groups, severe inflammation of the soft tissues in the area of the surgical field was noted. In rabbits 3, 4 and 5 groups of inflammation were not. The sampling for histomorphological examination was performed on days 7, 14 and 21.

 On day 7, in animals of all groups, a pronounced defect in bone tissue was observed; in animals of groups 1 and 2, elements of osteonecrosis and bone resorption around the defect predominate. An abundant number of white blood cells is noted.

 On day 14, groups 1 and 2 of animals, no resorption elements were noted, there were separate fibrin filaments, elements of osteoblasts appeared in groups 3, 4 and 5, especially in animals of groups 3 and 5.

 On day 21, in animals of groups 1 and 2, single osteoblast cells are noted, in animals of groups 3, 4, and 5, pronounced elements of bone tissue are noted. In animals of groups 4 and 5, sections of newly formed full-fledged bone tissue.

 IV. Clinical studies have been conducted in the treatment of patients with acute inflammatory diseases of the maxillofacial region: phlegmon, abscesses, osteomyelitis, odontogenic gameritis (125 people in total). The treatment complex for these patients included IR radiation in various modes of generation. The control group of 45 people.

 To determine the effectiveness of the treatment of various modes of radiation generation, a local temperature measurement was applied using a TPEM-1 electrothermometer, the leukocyte intoxication index (LII), and the content of C-reactive protein in blood plasma were determined. Temperature asymmetry was determined by comparing temperatures on the affected and healthy side. The average temperature difference was 0.8C. It was noted that in patients who used pulse-periodic and pulse-modulated radiation, temperature asymmetry disappeared 2 3 days earlier than in other patients.

The disappearance of C-reactive protein (C _rb ) in blood plasma in patients exposed to IR light in pulse-periodic and pulse-modulated modes, cure also occurred on average 2-3 days earlier. The dynamics of a decrease in LII is more pronounced in groups of patients exposed to irradiation in a pulse-periodic and pulse-modulated modes of irradiation and LII, reached normal numbers (0.5 1.8) 4 5 days earlier.

 In the treatment of fractures of the lower jaw, ultrasound (ultrasound osteometry) was used as a control using the EOM-01c apparatus. Using the absolute measurement method, the transit time of the ultrasound pulse on the healthy and affected side was determined. On the healthy side, this time is 0.35015 ± 0.01163 μm, and on the affected side, 0.5335 ± 0.0166 μs. It was noted that in the control group of patients in the treatment complex which did not include infrared irradiation and in patients irradiated in a constant mode of regeneration, the transit time of the ultrasound pulse was equalized by the end of 4 weeks. In patients irradiated in pulse, pulse-periodic and pulse-modulated modes, these indicators became equal by the end of 3 weeks.

 The proposed method of treatment is as follows.

The emitter is placed perpendicular to the surface of the affected area close to the skin, if there is no wound surface or close to the bandage covering the wound. Turn on the IR radiation generator and set the selected exposure mode. Exposure to produce 1 time per day for 3 to 5 days, depending on the severity of the process. Radiation exposure 1 3 min. depending on the severity of the process. Radiation is produced with a pulse power of 0.4 W, an average power of 0.04 W, a pulse frequency of 1500 Hz, a frequency of periods of 15 Hz, a wavelength of 890 nm, and a pulse duration of 10 ^-4 s.

 As a result of the impact, the treatment time for inflammatory processes was reduced, the clinical course of the inflammatory process became more favorable, and earlier restoration of damaged structures began.

Example 1. Patient M. 32 years. The diagnosis of phlegmon submandibular region. Phlegmon opened, antibacterial and anti-inflammatory treatment prescribed. Temperature asymmetry 1.5 ^o C, LII-10.8. In sowing purulent contents
epidermal staphylococcus. Every day for 5 days, irradiation was carried out through a bandage in a pulse-periodic mode with an exposure of 3 minutes. After 3 days, the temperature asymmetry of 0.8 ^o C, LII -6.0, from the wound discharge monococcus is seeded. After 6 days, temperature asymmetry 0.2 ^o C, LII 2.6, inoculation from the wound of the flora is not sown. Secondary sutures are applied. The patient was discharged.

Example 2. Patient J. 28 years. The diagnosis of exacerbation of chronic submandibular sialodenitis. Temperature asymmetry 0.4 ^o C, LII-2.0. In the right submandibular region, a dense, painful infiltrate of 4.5–5 cm in size is palpated. Dirty saliva is scantily secreted from the duct. Prescribed anti-inflammatory treatment, drugs to stimulate salivation. Irradiation with IR light in a repetitively pulsed mode has begun. Conducted 4 sessions of 2 minutes. After 6 days, temperature asymmetry O, LII 1.0. Infiltrate is not palpable. Saliva is clear and transparent. Clinical recovery.

Example 3. Patient W. 43 years. The diagnosis of a jaw fracture in the area of the angle to the left. On the day of admission reposition and fixation of fragments was carried out. Temperature asymmetry 1.0 ^o C, ultrasound diagnosis on the affected side of 0.5 μs, on the healthy side of 0.34 μs. Irradiation was started in a pulse-modulated mode, 5 sessions were conducted with an exposure of 3 minutes. By the end of 1 week the temperature asymmetry of 0.4 ^o C. the transit Time of the ultrasound - impulse on the affected side of 0.45, on a healthy 0.35. By the end of 2 weeks, the temperature asymmetry is -O, the transit time of the ultrasound pulse on the affected side is 0.39, on the healthy side is 0.34. By the end of 3 weeks, the temperature asymmetry is O, the transit time of the ultrasound pulse on the affected side is 0.35, on the healthy side 0.34. Recovery of the patient.

 In this way, 125 patients with inflammatory diseases and 36 patients with fractures of the lower jaw were treated. As a result of treatment, the terms of rehabilitation of patients decreased, the clinical course of inflammatory processes and diseases of jaw fractures became more favorable.

 The proposed method is implemented in the new Photon-IR-2 apparatus, which can be used in the clinical practice of doctors of various specialties, namely surgery, traumatology, gynecology, dentistry, otorhinolaryngology, urology, proctology, therapy, neuropathology for the treatment of inflammatory diseases and injuries musculoskeletal system. The device can be used in reflexology for infrared exposure to acupuncture points. Pulse-periodic and pulse-modulated mode of operation and a change in their characteristics is provided by the new circuit of the device, which makes it multifunctional. The small dimensions and the possibility of autonomous use of the device determine the particular value of the described method, because the device can be used in a hospital, in an outpatient clinic and when visiting a patient at home.

Claims (2)

1. A method for the treatment of inflammatory diseases and inflammatory complications of injuries of the maxillofacial region, comprising exposing the tissue to monochromatic radiation in the infrared wavelength region, characterized in that the tissue is contacted in pulse-periodic or pulse-modulated modes with a pulse frequency of 1500 Hz , a pulse power of 0.4 W, a frequency of periods of 15 Hz, a pulse duration of 10 ^-4 s, an exposure of 1 3 minutes  2. The method according to claim 1, characterized in that the tissue is impacted by pulse packets of a rectangular, triangular and sawtooth shape.