RU2455037C2 - Method of local immunocorrection of female infectious-inflammatory urogenital diseases caused by sexually-transmitted microorganisms - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely gynaecology, venereology and immunology, and is applicable for local immunocorrection of female infectious-inflammatory urogenital diseases caused by sexually-transmitted microorganisms. For this purpose, with underlying drug-induced therapy, the immunomodulatory therapy is used from first day of therapy by magnetic laser exposure on a uterus neck. The uterus neck is exposed by a gynecologic speculum which is removed after the procedure is completed. The magnetic laser exposure immediately covers a cervical canal. That is ensured by using a low-intensity laser with variable pulse generation. The magnetic field intensity makes 1.25 T. Pulse train frequency per minute is 30. A pulse interval is 100 msec. Length of the exposure is 5 minutes. The therapeutic course is 10 procedures.

EFFECT: method provides higher complex clinical effectiveness ensured by normalising local immunity factors, namely functional activity recovery of neutrophilic granulocytes of the cervical canal, higher concentration of pro-inflammatory cytokines, immunoglobulins A, M, G in the cervical canal.

3 tbl, 3 ex

Description

The invention relates to medicine, and more specifically to gynecology, dermatovenerology and immunology, and is intended for the treatment of infectious and inflammatory diseases of the urogenital tract of women caused by sexually transmitted microorganisms through local magnetic laser therapy against the background of complex drug treatment, as several researchers associate an increase in the number of patients with infectious and inflammatory diseases of the urogenital tract, against the background of significant successful development of gi of Ecology and dermatology, with three dominant factors: reduction in the body's immunological and nonspecific defense factors generally decrease colonization resistance of the reproductive tract, in particular the increase in the number of antibiotic-resistant forms of pathogens and their periodic change of [2, 4, 6, 12]. Considering that in inflammatory diseases of the urogenital tract the most important role belongs to violations in the immune system, both systemic and local, the various forms of immune deficiency either precede the inflammatory process or are its consequence [5,7]. Immune dysfunctions arise when the pathological variant of the immune response becomes stable and, moreover, a certain morphological component supports it. In such a situation, as a rule, an imbalance of the immunoreactivity system is formed due to factors of natural resistance. This leads to a decrease in the effectiveness of the therapy, contributes to the activation of opportunistic microflora, a change in the pathogen, which ultimately can lead to chronic disease. The restoration of the functional activity of local reproductive immunity is an indispensable condition for the treatment of infectious and inflammatory diseases of the urogenital tract. In this regard, the interest in using various drugs that can restore local immune imbalance is understandable [1, 10, 12]. Currently, much attention is paid to the problems of using immunostimulating and immunocorrecting therapy in the treatment of inflammatory diseases of the urogenital tract caused by sexually transmitted microorganisms. To date, methods for local application of immunopreparations (Bestim, Roncoleukin, Polyoxidonium) have already been developed [1, 2, 7, 11, 12].

At the same time, the strategic plan deserves special attention to study the potential of physiotherapeutic treatment factors. Clinical and experimental studies conducted in the last decade indicate the possibility of modulating the body's immune responses when exposed to various physical factors, such as: laser radiation, magnetotherapy, low frequency ultrasound, etc. [9, 10]. Complex therapy using low-intensity laser and complex magnetic laser radiation in recent years has become one of the most common methods of treatment of inflammatory diseases of the urogenital tract [3, 9, 12].

Studies of the last decade have proved that low-intensity near-infrared laser radiation and magnetic laser radiation have pronounced immunomodulating and immunoprotective properties [10, 12]. After activation of cell cultures of neutrophils, dominant cells of the secrets of the reproductive tract and performing bactericidal and secretory functions in these secrets, a low-intensity laser and electromagnetic millimeter waves increase the conjugation of the processes of movement, adhesion, absorption, killing and degranulation with the corresponding release of biologically active products by neutrophilic granulocytes [ 8].

At the time of writing this application for an invention, there are few and sometimes very contradictory data on the integrated use of immunocorrective therapy and, in frequency, low-intensity laser and magnetotherapy with the aim of local immunocorrection in the treatment of infectious and inflammatory diseases of the urogenital tract. In the studied sources, we did not find a scheme for using this method of complex treatment of these treatment diseases against the background of etiotropic therapy. One of the works on the local use of immunomodulating drugs may be a study by I.S. Anchupane on the use of the drug Polyoxidonium in the treatment of patients with urogenital infections by dissolving dry lyophilisate with physiological saline (0.9% NaCl solution) at a rate of 0.0001 g (100 mg) per 1 ml of 0.9% NaCl solution. Among the disadvantages of this technique, limited indications for the use of this drug, possible side effects noted by the author can be distinguished [2, 3]. O.I. Letyaeva was used locally only a low-intensity laser in the treatment of inflammatory diseases of the urogenital tract in order to quickly normalize and restore the resident microflora of the cervical canal. The author did not address the problem of the influence of low-intensity laser radiation on the totality of factors that form the colonization resistance of the reproductive tract and, therefore, did not study the possibility of using this type of radiation as an immunomodulating agent. Magnetotherapy was also previously used by R.A.Duvansky in the complex therapy of inflammatory diseases of the urogenital tract, immunological features of the use of this type of radiation were also not studied.

The aim of the invention is to increase the effectiveness of complex treatment of patients with infectious and inflammatory diseases of the urogenital tract caused by sexually transmitted microorganisms through local magnetic laser exposure.

The essence of the proposed method consists in the fact that magnetic laser therapy is applied topically by introducing a disposable emitting head directly into the cervical canal from the first day against the background of etiotropic therapy. The impact was carried out in a specially equipped office. The patient's position is lying on his back, on a couch or gynecological chair, his legs are bent at the knee or hip joints and divorced. Magnetolaser therapy was performed using the Mustang 2000 apparatus (NPO Technika; Moscow) after analyzing laboratory research data, including the results of cytological and histological studies, relief of the phenomena of intoxication and exclusion of processes in the uterine appendages requiring surgical interventions. The following exposure parameters were used: magnetic field intensity 1.25 Tesla; pulse series frequency per minute 30; interval between pulses 100 ms; the wavelength of 0.63 microns, the radiation mode is pulsed, the wavelength of 0.63 microns. Localization and method of exposure: a radiating head with a single nozzle is brought into contact with the cervix, exposed using a gynecological mirror, which is removed during the procedure. The duration of the procedure is 5 minutes. The course of magnetic laser therapy is 10 procedures. Magnetolaser therapy for the correction of local immune dysfunctions was performed against the background of drug therapy aimed at eliminating the pathogen. The following groups of drugs were included in the complex of medicines: 1) antibacterial, 2) hyposensitizing, 3) general strengthening (biogenic stimulants, vitamins). Antibacterial drugs were prescribed empirically, taking into account the results of a study of the sensitivity of pathogens; later, antibiotic therapy was corrected according to the results of bacteriological studies.

The treatment was carried out before the proliferative stage of the inflammatory process, and then combined exposure to the focus of inflammation with the use of ointment swabs on a water-soluble basis, for example, “Levomikol”. In this combination, the magnetolaser effect continued, leading to immunomodulating effects, enhancing the processes of purification and regeneration of the inflammation focus (due to a pronounced macrophage reaction), prevention of re-contamination by nosocamial flora (by enhancing the functional activity of inflammatory focus cells), and the ointment base did not injure granulation tissue.

A comparable analysis of the claimed and well-known (traditional, with the use of chemotherapy drugs “Bestim”, “Roncoleukin”, “Betaleikin”, “Polyoxidonium”), selected for the analogue and prototype of technical solutions that use local effects on the cervix to normalize local immune factors , showed that the difference of the proposed method is the use as a means of normalizing the local imbalance of immune factors of a physiotherapeutic agent, in particular magnetolaser therapy, to they then used as an analgesic, decongestant and reinforcing local funds bloodstream. Treatment with magnetic laser radiation has a more pronounced clinical and immunological effect, both in comparison with antibiotic therapy only, and in the combination of antibacterial therapy + local use of Bestim, Roncoleukin, Betaleikin, Polyoxidonium. In addition, this type of therapeutic measure has broader indications for use with minor contraindications compared to other immunomodulating agents.

The proposed method meets the criterion of "novelty," because, unlike the existing methods, it has the following significant distinguishing features:

1. The method proposed by the authors for the local use of laser radiation to correct dysfunctions of factors of local anti-infectious immunity in patients with infectious and inflammatory diseases of the urogenital tract had higher clinical and immunological efficacy compared to basic etiotropic methods of therapy and compared with the use of only laser or only magnetotherapy.

2. In the process of studying the effectiveness of the proposed method, the positive effect of the integrated magnetic laser radiation on the dynamics of the inflammatory process and the general condition of the patients was determined. In patients with shorter periods of time, the signs of inflammation disappeared, there was a more rapid cleansing of the focus of inflammation from necrotic masses, the processes of regeneration and stabilization of the general condition of patients were accelerated, which manifested itself in the normalization of laboratory parameters of patients.

3. According to the results of a study of the local immunity of the reproductive tract, an increase in phagocytic activity and neutrophil intensity of cervical secretions was established, and an increase in oxygen-dependent phagocyte killing of the inflammatory focus was determined in spontaneous and induced tests with nitro blue tetrazolium. The growth of the functional reserve of phagocytes was determined, which indicates a high effector potential of the cells after complex magnetic laser exposure.

4. Indices of the local immunity of the reproductive tract (the number of immunoglobulins, assessment of the cytokine status after the local use of magnetolaser therapy showed a complete restoration of the factors of innate and mucosal immunity of the reproductive tract, changed before the start of therapy.

Due to the presence of these distinctive features in this method, as well as when analyzing them together, we can conclude that the proposed method meets the inventive step and meets the criterion of "significant differences".

The inventive method is as follows.

1. Magnetotherapy was carried out using the Mustang 2000 apparatus, generating magnetic laser effects, after analyzing the data of laboratory studies of women, eliminating contraindications to the use of physiotherapy, stopping the effects of intoxication and excluding processes in the uterine appendages that require surgical interventions.

2. The following exposure parameters were used: magnetic field intensity 1.25 Tesla; pulse series frequency per minute 30; interval between pulses 100 ms; wavelength 0.63 μm, the radiation mode is pulsed. Patient's position - lying in a gynecological chair or on a couch on his back, legs bent at the knee and hip joints and divorced, the duration of the procedure is 5 minutes, their number is 10. Localization of exposure: a radiating head with a single nozzle is brought in contact with the cervix for 5 minutes, naked with a gynecological mirror.

The authors carried out a comprehensive examination and treatment of 55 patients with infectious and inflammatory diseases of the lower reproductive tract treated with the use of basic therapy and local exposure with a magnetic laser. To assess the clinical and immunological effectiveness of the complex therapy, a randomized study was conducted of 55 patients with inflammatory diseases of the lower urogenital tract, in which cervical canal was detected by polymerase chain reaction (test system Interlabservice, Moscow), chlamydia, mycoplasma, ureaplasma were randomly divided into two groups; Group 1 (comparisons) (n = 27) was represented by patients who were treated using the baseline regimen using etiotropic therapy, group 2 (main) (n = 28) consisted of patients who included the local and systemic therapy exposure to a magnetic laser. All patients were comparable in terms of social status, age, absence of extragenital pathology, methods of contraception, and the source of the infectious-inflammatory process. For the distribution of patients, depending on the source and location of the inflammatory process, we used the ICD-10 classification, highlighting cervicitis N-72 (20% in the first group and 23% in the second), cervical ectopy (35% in the first group and 37% in second).

In the course of the study, a number of clinical signs were studied in all patients, which made it possible to assess the dynamics of the inflammatory process and the general condition of patients: the periods of disappearance of hyperemia of the mucous membranes of the urogenital tract, infiltration, marginal infiltration along the periphery of erosion, cessation of exudation, purification of the cervical canal from necrotic masses, and swelling of the mucous membranes.

For an objective assessment of the course of the inflammatory process and the nature of the immunological changes in the area of the inflammatory focus, special research methods were carried out: 1) a cytological study in the area of the inflammatory process, the material was taken by the method of “surface biopsy”, the percentage (%) number of neutrophils was calculated before and after treatment end of therapy; 2) study of the immune factors of cervical secretion - the total number of leukocytes, the absolute and relative content of viable cells in 1 l of secretion were evaluated. Since neutrophils were the dominant cells in these secrets, an in-depth analysis of their functional activity was carried out, and the total luminescence of lysosomes was calculated in arbitrary units. The phagocytic activity of neutrophils was studied on a model of the absorption of latex particles, the study of spontaneous and induced oxygen-dependent neutrophil metabolism was detected in a sample with nitro-blue tetrazolium (HCT-reducing activity and intensity). The level of immunoglobulins of class A, M, G, lysozyme, nonspecific esterase of cervical secretion neutrophils, total hemolytic activity (CH-50), complement components of cervical secretion and cytokine concentration (IL-1, IL-8, TNF-α. IFN) were also determined. -γ) by the method of solid-phase ELISA, (LLC “Tsitokin”, St. Petersburg), according to the instructions attached to the test systems. The data processed by the methods of variation statistics were expressed as the arithmetic mean and its standard error (M ± m), with n being the number of observations in the sample. The research results were processed using the software package “Statistica for Windows”.

The results of the study showed that in those patients who underwent local treatment with a magnetic laser for therapeutic purposes, significantly less time was observed than in patients with traditional local treatment, signs of inflammation disappeared (by 3.50 ± 0.30) a day. In patients of the comparison group, improvement occurred on 5.50 ± 0.20 days, the disappearance of regional infiltration along the periphery of the inflammatory focus (on 4.50 ± 0.15 and 6.50 ± 0.23) days, respectively, cleansing the inflammatory focus from necrotic masses (4.10 ± 0.20 days for treatment using magnetolaser therapy and 5.90 ± 0.20 for etiotropic treatment).

In the process of studying the effect of local magnetolaserotherapy on the cellular composition of the inflammatory focus, the following was found: during treatment with the use of magnetolaser effects, an active phase change of the inflammatory process was observed in the inflammation zone for 3-4 days, with a significant decrease in the relative number of neutrophils. By the time of completion of treatment, the general appearance of the cytogram was determined as regenerative. While in patients treated without the use of magnetic laser therapy, signs of exudative inflammation persisted for 10 days (Tables 1, 2, 3).

A study of the dynamics and rate of normalization of the immune factors of cervical secretion revealed the restoration of the functional activity of neutrophilic granulocytes of cervical mucus, the concentration of pro-inflammatory cytokines, immunoglobulins A, M, G, secretory immunoglobulin A in cervical secretion, which expressed dysfunction was revealed in patients before treatment (in comparison with indicators clinically healthy donors). During treatment, in the group treated with the magnetolaser, there were no differences in immunological parameters from the values of healthy women, while patients receiving traditional topical treatment retained signs of local immunodeficiency (for example, the concentration of sIgA in the Healthy group was 1.05 g / l, in the group treated without physiotherapy - 1.35 ± 0.17 g / l (with significance of differences with healthy p = 0.0014), in the group where the basic treatment was combined with local magnetic laser therapy 1.10 ± 0.15 g / l, without reliable times ichy control). Thus, the study conducted by the authors revealed the immunological effectiveness of a new method of treatment - local immunocorrection using magnetolaser effects in the complex treatment of inflammatory diseases of the lower urogenital tract caused by sexually transmitted microorganisms.

To illustrate the clinical and immunological effect of topical application of magnetolaser therapy, we present clinical examples.

Example No. 1. Patient I-va A.V., 30 years old, diagnosis: “inflammatory disease of the genitourinary tract caused by a specified bacterial agent (M.hominis, M.genitalium, U. Urealyticum) - B 96.8 and chlamydial infection of the genitourinary tract without complications - A 56.0 ". Upon treatment, the patient complained of purulent-mucous discharge. When examining the urethra and cervical canal, it was revealed: swelling and hyperemia of the mucous membranes of the urogenital tract, the mucous membrane in the area of the transition zone was swollen, hyperemic, a significant amount of purulent-mucous secretions was noted, pasty and swelling of the urethra was expressed, painful urination. During the inspection, material was collected for microbiological examination and immunological and cytological studies. Data from a cytological, immunological study of cervical secretion:

1) exudative-inflammatory type of cytogram was determined in smears-scrapings of the cervical canal - the relative content of neutrophils in - 92%, macrophages - 5%, lymphocytes - 2%;

2) the study of cervical secretion: white blood cells - 7.29 × 10 ⁹ / l; viable white blood cells - 68.22%; viable white blood cells - 4.88 × 10 ⁹ ; lysosomal activity of neutrophils - 20.76%; lysosomal activity of neutrophils - 19.60 cu ..; Spontaneous HCT test - 45.78%; Spontaneous HCT test - 0.65 cu; Induced HCT test - 60.35%; Induced NST test - 0.82 cu, functional reserve of neutrophils - 1.37; neutrophil phagocytosis activity - 45.75%; neutrophil phagocytosis activity - 1.65 cu, nonspecific esterase - 24.61%; nonspecific esterase - 0.3 cu; CH-50 - 49.23 cu; C1 - 43.38 ef. mol / ml; C2 - 29.52 ef. mol / ml; C3 - 33.32 ef. mol / ml; C4 - 18.25 ef. mol / ml; C5 - 26.18 ef. mol / ml; Ig A - 0.71 g / l; Ig M - 0.28 g / l; Ig G - 1.08 g / l; Ig A secretory - 0.75 g / l; lysozyme - 28.55 μg / ml; the content of IL-1α - 2.38 pg / ml; the content of IL-1β is 1.22 pg / ml; the content of TNF-α is 2.47 pg / ml; the content of the receptor antagonist IL-1 - 1.26 pg / ml; the cytokine IL-8 content is 0.97 pg / ml; the content of IFN-γ interferon is 0.018 pg / ml. The patient received complex medical treatment: daily, starting from the first day of therapy: cycloferon 2 ml intramuscularly, claforan 1 g - 2 times a day, vilprofen 500 mg 3 times a day, trichopol 0.25 mg 2 times a day, vitamins 1 time per day; local therapy: suppositories "Genferon" and "Macmirror complex" once a day intravaginally every other day; local therapy: irrigation of the cervical canal and instillation of the urethra with 0.1% solution of chlorhexidine bigluconate, tampons with 2% Dalacin-cream 2% for 6 hours - 10 procedures; rehabilitation therapy: acylact suppositories No. 10. Magnetolaser therapy from the 1st day of treatment No. 10. The disappearance of infiltration, a decrease in the amount of discharge was noted on the 5-6th day, hyperemia of the mucous membrane - on the 4th day, an improvement in the general condition was determined at the same time. The patient with improvement, in satisfactory condition, was withdrawn from the follow-up at the end of treatment. The results of a cytological examination of smears-scrapings from the cervical canal, immunological studies of cervical secretions after treatment:

1. In smears, the relative content of neutrophils - 53%, lymphocytes - 35%, macrophages - 12%.

2. Immunological examination of cervical secretion: white blood cells - 7.57 × 10 ⁹ / l; viable white blood cells - 62.79%; viable white blood cells - 5.31 × 10 ⁹ ; neutrophil lysosomal activity - 16.38%; lysosomal activity of neutrophils - 19.46 cu; Spontaneous HCT test - 46.10%; Spontaneous HCT test - 0.33 cu; Induced HCT test - 62.95%; Induced HCT test - 0.68 cu; functional reserve of neutrophils - 1.37; neutrophil phagocytosis activity - 46.38%; neutrophil phagocytosis activity - 1.82 cu; nonspecific esterase - 27.43%; nonspecific esterase - 0.33 cu; CH-50 - 48.49 cu, C1 - 43.35 ef. mol / ml; C2 - 29.67 ef. mol / ml; C3 - 38.45 ef. mol / ml; C4 - 17.75 ef. mol / ml; C5 - 26.28 ef. mol / ml; A - 0.57 g / l; Ig M - 0.30 g / l; Ig G - 1.02 g / l; Ig A secretory - 0.83 g / l; lysozyme - 30.89 μg / ml; the content of IL-1α - 2.46 pg / ml; the content of IL-1β - 1.39 pg / ml; the content of TNF-α is 2.44 pg / ml; the content of the receptor antagonist IL-1 - 2.05 PG / ml; the cytokine IL-8 content is 0.90 pg / ml; the content of IFN-γ interferon is 0.020 pg / ml.

Example No. 2. Patient В-о А.Г., 32 years old, diagnosis: "inflammatory disease of the genitourinary tract caused by a specified bacterial agent (M.hominis) - B 96.8 and chlamydial infection of the genitourinary tract without complications - A 56.0". During treatment, the patient complained of purulent-mucous discharge within 10 days. Examination of the urethra revealed pastiness and swelling, swelling and hyperemia, the mucous membrane in the area of the transition zone was swollen, moderately hyperemic, a significant amount of purulent-mucous discharge was noted in the posterior arch, and the patient noted painful urination. After examining and analyzing the results of laboratory tests, a course of complex antibacterial and magnetic laser therapy was started. During the inspection, material was collected for microbiological examination and immunological and cytological studies. Data from a cytological, immunological study of cervical secretion:

1. In the smear-scrapings of the cervical canal, the exudative-inflammatory type of cytogram was determined - the relative content of neutrophils in - 96%, macrophages - 2%, lymphocytes - 2%;

2. The study of cervical secretion: white blood cells - 7.26 × 10 ⁹ / l; viable white blood cells - 68.20%; viable white blood cells - 4.80 × 10 ⁹ ; neutrophil lysosomal activity - 20.7%; lysosomal activity of neutrophils - 19.20 cu; Spontaneous HCT test - 45.71%; Spontaneous HCT test - 0.63 cu; Induced HCT test - 60.30%; Induced HCT test - 0.80 cu; functional reserve of neutrophils - 1.33; neutrophil phagocytosis activity - 45.70%; neutrophil phagocytosis activity - 1.69 cu; nonspecific esterase - 24.63%; nonspecific esterase - 0.4 cu; CH-50 - 49.2 cu; C1 - 43.40 ef. mol / ml; C2 - 29.53 ef. mol / ml; C3 - 33.34 ef. mol / ml; C4 - 18.23 ef. mol / ml; C5 - 26.15 ef. mol / ml; immunoglobulin A - 0.73 g / l; Ig M - 0.27 g / l; Ig G - 1.07 g / l; Ig A - 0.73 g / l; lysozyme - 28.53 μg / ml; the content of IL-1α - 2.37 pg / ml; the content of IL-1β is 1.21 pg / ml; the content of TNF-α is 2.46 pg / ml; the content of the receptor antagonist IL-1 is 1.25 pg / ml; the content of IL-8 is 0.98 pg / ml; the content of IFN-γ interferon is 0.017 pg / ml. The patient received complex medical treatment: daily, starting from the first day of therapy: cycloferon 2 ml intramuscularly, claforan 1 g 2 times a day, vilprofen 500 mg 3 times a day, trichopol 0.25 mg 2 times a day, vitamins 1 time per day; local therapy: suppositories "Genferon" and "Macmirror complex" once a day intravaginally every other day; local therapy: irrigation of the cervical canal and instillation of the urethra with 0.1% chlorhexidine bigluconate solution, tampons with 2% Dalacin-cream 2% for 6 hours - 10 procedures; rehabilitation therapy: acylact suppositories No. 10. Magnetolaser therapy was performed using a Mustang 2000 apparatus. The following exposure parameters were used: magnetic field intensity 1.25 Tesla; pulse series frequency per minute 30; interval between pulses 100 ms; the wavelength of 0.63 microns, the radiation mode is constant. Patient's position - lying in a gynecological chair or on a couch on his back, legs bent at the knee and hip joints and divorced. The exposure time was 5 minutes. The course of treatment was 10 procedures. Localization of exposure: a radiating head with a nozzle was brought in contact with the cervix of the uterus naked using a gynecological mirror, exposure was 5 minutes. The results of a cytological immunological examination of cervical secretion:

1. In the smears, the regenerative type of cytograms was determined - the relative content of neutrophils - 51%, lymphocytes - 15%, macrophages - 26%, fibroblasts - 6%;

2. Immunological examination of cervical secretion: white blood cells - 6.69 × 10 ⁹ / l; viable white blood cells - 62.79%; viable white blood cells - 5.39 × 10 ⁹ ; lysosomal activity of neutrophils - 24.12%; lysosomal activity of neutrophils - 32.50 cu; Spontaneous NBT test - 30.08%; Spontaneous HCT test - 0.42 cu; Induced HCT test - 60.23%; Induced HCT test - 0.80 cu; functional reserve of neutrophils - 1.97; neutrophil phagocytosis activity - 57.58%; neutrophil phagocytosis activity - 2.31 cu; nonspecific esterase - 29.59%; nonspecific esterase - 0.34 cu; CH-50 - 48.34 cu; complement components - C1 - 43.82 ef. mol / ml; C2 - 46.72 ef. mol / ml; C3 - 33.72 eff. mol / ml; C4 - 18.12 ep. mol / ml; C5 - 25.85 eff. mol / ml; Ig A - 0.54 g / l; Ig M - 0.28 g / l; Ig G - 0.93 g / l; Ig A secretory - 0.85 g / l; lysozyme - 40.22 mcg / ml; the content of IL-1α is 3.14 pg / ml; the content of IL-1β - 2.03 ng / ml; the content of TNF-α is 2.81 pg / ml; the content of the receptor antagonist IL-1 - 3.39 pg / ml; the content of the cytokine IL-8 - 0.85 PG / ml; the content of IFN-γ interferon is 0.020 pg / ml.

Example No. 3. Patient K-o A.G., 34 years old, diagnosis: "inflammatory disease of the genitourinary tract caused by a specified bacterial agent (M.hominis) - B 96.8 and chlamydial infection of the urinary tract without complications - A 56.0". During treatment, the patient complained of purulent-mucous discharge within 10 days. Examination of the urethra revealed pastiness and swelling, swelling and hyperemia, the mucous membrane in the area of the transition zone was swollen, moderately hyperemic, a significant amount of purulent-mucous discharge was noted in the posterior arch, and the patient noted painful urination. After the examination, a course of complex antibacterial and magnetic laser therapy was started. During the inspection, material was collected for immunological and cytological studies:

1. The data of a cytological, immunological study of cervical secretion, exudative-inflammatory type of cytogram — relative neutrophil content — 96%, macrophages — 2%, lymphocytes — 2%, was determined in the cervical canal removed by smears;

2. The study of cervical secretion: white blood cells - 7.27 × 10 ⁹ / l; viable leukocytes -68.23%; viable white blood cells - 4.81 × 10 ⁹ ; lysosomal activity of neutrophils - 20.80%; lysosomal activity of neutrophils - 19.10 cu; Spontaneous NBT test - 45.70%; Spontaneous HCT test - 0.62 conventional units; Induced HCT test - 60.1%; Induced HCT test - 0.81 cu; functional reserve of neutrophils - 1.34; neutrophil phagocytosis activity - 45.72%; neutrophil phagocytosis activity - 1.68 e .; nonspecific esterase - 24.61%; nonspecific esterase - 0.3 cu; CH-50 - 49.1 conventional units; complement components - C1 - 43.40 ef. mol / ml; C2 - 29.51 ef. mol / ml; C3 - 33.31 ef. mol / ml; C4 - 18.23 ef. mol / ml; C5 - 26.14 ef. mol / ml; Ig A - 0.73 g / l; Ig M - 0.27 g / l; Ig G - 1.07 g / l; Ig A secretory - 0.73 g / l; lysozyme - 28.53 μg / ml; the content of IL-1α - 2.37 pg / ml; the content of IL-1β is 1.22 pg / ml; the content of TNF-α is 2.45 pg / ml; the content of the receptor antagonist IL-1 - 1.24 PG / ml; the cytokine IL-8 content is 0.99 pg / ml; the content of IFN-γ is 0.016 pg / ml. The patient received complex medical treatment: daily, starting from the first day of therapy: cycloferon 2 ml intramuscularly, claforan 1 g 2 times a day, vilprofen 500 mg 3 times a day, trichopol 0.25 mg 2 times a day, vitamins 1 time per day; local therapy: suppositories "Genferon" and "Macmirror complex" once a day intravaginally every other day; local therapy: irrigation of the cervical canal and instillation of the urethra with 0.1% solution of chlorhexidine bigluconate, tampons with 2%, "Dalacin-cream 2%" for 6 hours - 10 procedures; rehabilitation therapy: acylact suppositories No. 10. Magnetolaser therapy was performed using a Mustang 2000 apparatus. The following exposure parameters were used: magnetic field intensity 1.25 Tesla; pulse series frequency per minute 30; interval between pulses 100 ms; wavelength 0.63 μm, the radiation mode is constant. Patient's position - lying in a gynecological chair or on a couch on his back, legs bent at the knee and hip joints and divorced. The exposure time was 5 minutes. The course of treatment was 10 procedures. Localization of impact: a radiating head with a nozzle is brought in contact with the cervix naked using a gynecological mirror, which must be removed during the procedure, the cervix is irradiated for 5 minutes. The results of cytological, immunological examination of cervical secretion:

1. In the smears, the regenerative type of cytograms was determined - the relative content of neutrophils - 51%, lymphocytes - 15%, macrophages - 26%, fibroblasts - 6%;

2. Immunological examination of cervical secretion: white blood cells - 6.67 × 10 ⁹ / l; viable white blood cells - 62.79%; viable white blood cells - 5.39 × 10 ⁹ ; lysosomal activity of neutrophils - 24.12%; lysosomal activity of neutrophils - 32.5 cu; Spontaneous NBT test - 30.07%; Spontaneous HCT test - 0.41 cu; Induced HCT test - 60.24%; Induced HCT test - 0.81 cu; functional reserve of neutrophils - 1.96; neutrophil phagocytosis activity - 57.58%; neutrophil phagocytosis activity - 2.31 cu; nonspecific esterase - 29.58%; nonspecific esterase - 0.34 cu; CH-50 - 48.34 cu; complement components - C1 - 43.81 ef. mol / ml; C2 - 46.72 ef. mol / ml; C3 - 33.72 eff. mol / ml; C4 - 18.12 ep. mol / ml; C5 - 25.85 eff. mol / ml; Ig A - 0.54 g / l; Ig M - 0.28 g / l; Ig G - 0.93 g / l; Ig A secretory - 0.85 g / l; lysozyme - 40.21 mcg / ml; the content of IL-1α is 3.14 pg / ml; IL-1β - 2.02 ng / ml; TNF-α - 2.83 ng / ml; IL-1 receptor antagonist - 3.39 pg / ml; IL-8 - 0.84 pg / ml; interferon IFN-γ - 0.021 pg / ml. The tests of the proposed method of complex therapy have confirmed its advantages over the prototype method: in contrast to the prototype method, local immunity factors are completely normalized in the process of local treatment using magnetolaser therapy - the functional activity of neutrophilic granulocytes of cervical secretion is increased, the balance of mucosal immune factors is restored, the effect is enhanced etiotropic therapy and pathogen elimination is accelerated, repeated contam is prevented inoculation of the urethra, cervical canal and vagina with nosocomial flora. Thus, the proposed method of therapy increases the immunological effectiveness of the complex treatment of patients with infectious and inflammatory diseases of the urogenital tract caused by microorganisms transmitted sexually

Literature

1. Allenov S.N. Immunological aspects of the use of polyoxidonium in the complex therapy of complicated urogenital chlamydia / S.N.Alenov, O.L. Ivanov, K.M. Lomonosov, etc. // Ros. journal skin and sexually transmitted diseases. - 2002. - No. 2. - S. 58-61.

2. Anchupane I.S. Mixed chlamydial infections and their immunocorrection / I.S. Anchupane, A.P. Miltinysh // Bulletin of Dermatology and Venereology. - No. 1. - 2005 .-- S. 28-30.

3. Anchupane I.S. Pathogenetic substantiation of corrective therapy of patients with chlamydial trichomonas infection / I.S. Anchupane, D.P. Andersone, A.P. Miltsh // All-Union Congress of Dermatovenerologists, 9th. - M., 1991. - P.6-7.

4. Barteneva N.S. Immunity issues in chlamydial infections / N.S. Barteneva // Chlamydial infections: Sat. scientific tr / Ed. A.A.Shatkina. - M., 1986. - S.14-20.

5. Belyakov I.M. The immune system of the mucous membranes / I.M. Belyakov // Immunology. - 1997. - No. 4. - S.7-13.

6. Burova A.A. The main properties of the causative agent of chlamydia and its role in the development of infection of the urogenital tract / A.A. Burova, S.A. Abdullaev, E.N.Torganova // Zhurn. microbiology, epidemiology and immunobiology. - 1999. - No. 4. - S. 107.

7. Gomberg M.A. The rationale for immunotherapy in the treatment of recurrent urogenital chlamydia / M.A. Gomberg, A.M. Soloviev, A.D. Chernousov // Sexually transmitted infections. - 2004. - No. 2. - S.30-33.

8. Dolgushin II. Neutrophils and homeostasis / I.I. Dolgushin, O.V. Bukharin. - Ekaterinburg, 2001, - 258 s.

9. Ionin A.P. Laser therapy techniques for red and infrared lasers operating in continuous and pulsed radiation modes / A.P. Ionin // Methodical materials UMMADO; Chelyabinsk, 1995, - 80 p.

10. Kozel A.I. The mechanism of action of laser irradiation at the tissue and cellular levels / A.I. Kozel, G.K. Popov // Tomsk State University Journal. RAMS. - 2000. - No. 2. - S. 41-43.

11. Medvedev B.I. Features of local immunity in women with chronic inflammatory diseases of the pelvic organs associated with chlamydia / B.I. Medvedev, E.A. Kazazhkova, E.L. Kazachkov // Zhurn. microbiology, epidemiology and immunobiology. - 2000. - No. 2. - S. 89-92.

12. Molochkov V.A. Urogenital chlamydia. Clinic, diagnosis, treatment. / V.A.Molochkov // MONIKI them. Vladimirsky. - M., 2001, - 10 s.

Claims (1)

A method for local immunocorrection of infectious and inflammatory diseases of the urogenital tract caused by sexually transmitted microorganisms against a background of complex drug treatment, characterized in that, as the immunomodulating effect, from the first day of treatment they act with laser radiation on the cervix, directing the laser effects directly into the cervical canal, moreover, a low-intensity laser with a variable pulse generation is used, with a magnetic field intensity 1.25 T, the frequency of pulse trains per minute 30, the interval between pulses 100 ms, the exposure duration 5 minutes, for this, the cervix is exposed using a gynecological mirror, which is removed during the procedure, the course of treatment is 10 procedures.