RU2587332C1 - Method of treating patients with destructive forms of pulmonary tuberculosis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention can be used in integrated treatment of patients with destructive forms of pulmonary tuberculosis. For this purpose, on background of course of anti-tuberculosis therapy according to standard conditions from first day in therapeutic course includes Thiotriazoline preparation, and patient is orally administered 200 mg of Tubosan 1 time a day after meals. Thiotriazoline is administered as follows: first 15 days intravenously in dose 4.0 ml diluted in 200.0 ml of 0.9 % sodium chloride, from 16th to 60th day orally in a dose of 100 mg 1 time a day after meals. Tubosan and Thiotriazoline preparations are withdrawn, and course of anti-tuberculosis therapy according to standard conditions is continued.

EFFECT: method enables to reduce time of resorption infiltration, cavity closure and abacillation, improves parameters of immune and cytokine status, free-radical oxidation with reduction of frequency of adverse reactions on antituberculous preparations.

1 cl, 6 tbl, 2 ex

Description

The invention relates to medicine, namely to phthisiology, and can be used in the complex treatment of patients with destructive forms of pulmonary tuberculosis.

The incidence of tuberculosis in Russia remains high, more than one and a half times higher than the epidemic threshold. The frequency of destructive forms of pulmonary tuberculosis, such as infiltrative tuberculosis with decay of lung tissue, cavernous tuberculosis, etc., which are most often accompanied by bacterial excretion and, therefore, pose the greatest danger from an epidemic level, is increasing.

The pathogenesis of tuberculosis in modern conditions is due, on the one hand, to a change in the biological properties of the pathogen, to an increase in the number of mycobacterial strains that are drug resistant, and, on the other hand, to an immune system dysfunction. The immunological imbalance detected in the vast majority of patients with pulmonary tuberculosis forms clinical and morphological features of the course of tuberculosis and is the cause of an increase in the frequency of destructive forms of tuberculosis (V. Erokhin. On some mechanisms of tuberculosis pathogenesis // Problems of tuberculosis. - 2009. - No. 11. - S. 3-8). The most important pathogenetic link is a violation in the free radical oxidation system (Shovkun L.A., Romantseva N.E. The state of lipid peroxidation in patients with infiltrative pulmonary tuberculosis with the release of drug-sensitive mycobacteria depending on the treatment // News of Universities. North- Caucasus region. - 2007. - No. 6. - S. 117-120).

The main method of treating pulmonary tuberculosis, including destructive forms, is a course of anti-tuberculosis therapy according to standard regimes, which are regulated by order of the Ministry of Health of the Russian Federation No. 951 dated December 29, 2014 “On approval of methodological recommendations for improving the diagnosis and treatment of respiratory tuberculosis”.

The disadvantages of the course of anti-tuberculosis therapy according to standard regimes are: the rapid emergence of drug resistance of mycobacterium tuberculosis to anti-TB drugs (V. Mishin. Modern treatment strategy for drug-resistant pulmonary tuberculosis / V. Yu. Mishin // Attending physician. - 2000 - No. 3 . - S. 4-9), the appearance of adverse reactions to anti-TB drugs (Mishin V.Yu., Chukanov V.I., Grigoryev Yu.G. Side effect of anti-TB drugs with standard and individualized chemotherapy regimens. - M .: Publishing house "Computerburg", 2008. - 208 p.), Suppression of the immune (Komogorova E.E. Features of immunological parameters in patients with various forms of pulmonary tuberculosis. / E.E. Komogorova, E.V. Kostenko, V. .A. Stakhanov et al. // Clinical Immunology. - 2005. - No. 1. - P. 45-50) and cytokine statuses (Zakharova M.V., Stakhanov V.A., Mezentseva M.V. Cytokines in anti-tuberculosis immunity // Bulletin of RUDN. - 2009. - No. 4. - S. 297-301).

This makes it necessary to develop new highly effective methods of treating patients with destructive forms of pulmonary tuberculosis, with the help of which one could avoid the above disadvantages and increase the effectiveness of treatment.

A search in the medical, scientific and patent literature found various methods of treating pulmonary tuberculosis.

So, Vasilyeva G.Yu. and Balasanyants G.S. in the work “Experience with the use of bestim in the complex treatment of infiltrative destructive forms of pulmonary tuberculosis” (Family Doctor magazine, 2003, No. 3, pp. 17-19) describes a method for treating patients with destructive forms of pulmonary tuberculosis, including the bestim immunomodulator 0.1 mg intramuscularly daily for a course of treatment of 5 injections.

Arshinova S.S. and Pinegin B.V. the article “Immunomodulators in the treatment of patients with active pulmonary tuberculosis” (“The attending physician”, 2002, No. 10, pp. 36-37) describes a method for the treatment of destructive forms of pulmonary tuberculosis, which includes the inclusion of anti-tuberculosis therapy in accordance with standard modes, polyoxidonium at a dose of 6 mg intramuscularly 2 times a week for 5 weeks.

In the work Kibrik B.S., Chelnokova O.G. "Immunochemotherapy for tuberculosis. Bifunctional drug Tubosan ”(Monograph - Yaroslavl: Publishing House LLC“ YarMedia Group ”, 2011 - P. 117-132) describes a method for the treatment of destructive forms of pulmonary tuberculosis, including the drug Tubosan at a dose of 800-1200 mg for a course of anti-tuberculosis therapy 3-5 months.

The disadvantages of the above methods of treating pulmonary tuberculosis are their lack of effectiveness with respect to the timing of resorption of infiltration, closure of decay and abacillation cavities, and a high incidence of adverse reactions to anti-TB drugs.

USSR author's certificate No. 1248605 (published on 08/07/1986) protected "A method for the treatment of pulmonary tuberculosis", which provides for the introduction of anti-tuberculosis therapy, including in destructive forms, of ducifon. Diuciphone is prescribed at a dose of 40 mg every other day for 20 days, two weeks after the end of the first course, the drug is prescribed again in the same mode.

RF patent No. 2281093 (published on 08/10/2006) protected "The method of indirect lymphotropic regional chemotherapy for infiltrative, destructive and drug-resistant pulmonary tuberculosis." For the implementation of the method, the lymphotropy of three chemotherapeutic agents is first achieved, such as isoniazid 10% - 5.0 ml, rifampicin 0.15-0.45 g and streptomycin 1.0 g, or kanamycin 1.0 g, or amikacin 1.0 g, by adding to the solutions of these chemotherapy drugs 5% glucose 10 ml and aloe 2 ml. Then, conductive paravertebral anesthesia is performed at the level and from the side of drug administration. After that, three chemotherapy drugs are administered separately in different intercostal spaces 1-3 times a week with a course of 4-12 injections subcutaneously paravertebrally, parasternally in the IX intercostal space - in the projection of regional lymphatic collectors, replacing part of the standard daily dose of chemotherapy drugs.

RF patent No. 2450820 (published 05/20/2012) protected the "Method for the treatment of destructive pulmonary tuberculosis", which provides for the introduction of the standard drug Betim intratracheally at a dose of 1.0 mg 3 times a week, for the course of treatment - 6 introductions.

RF patent No. 2480206 (published 04/27/2013) protected "A method for immunocorrection of the main course of treatment of destructive forms of pulmonary tuberculosis" providing for the administration of thymalin in a dose of 40 mg to a patient paravasally for 5 consecutive days. Then, 6 days after the end of its administration, a 3% solution of glutoxim in a dose of 2.0 ml is administered for 10 days. Then, cycloferon is administered at a dose of 0.25 g twice a week until the end of the intensive phase of the main course of treatment.

The disadvantages of these methods of treating pulmonary tuberculosis are their lack of effectiveness with respect to the timing of resorption of infiltration, closure of decay cavities and abacillation, and a high incidence of adverse reactions to anti-TB drugs.

RF patent No. 2347575 (published February 27, 2009) protects “A method for treating patients with destructive forms of pulmonary tuberculosis”, which consists in administering to the patient, in addition to standard anti-tuberculosis therapy, hydrogen peroxide in a homeopathic potency of 6 CH 5 granules 3 from the first day of treatment once a day for four months.

The disadvantage of this method of treatment is the lack of effectiveness with respect to the timing of closure of decay cavities, resorption of infiltration and abacillation, the occurrence of adverse reactions to anti-TB drugs, as well as the limitation of the number of patients who agree to the use of homeopathic medicines.

The closest in its technical essence and taken as a prototype is the "Method of treating patients with destructive forms of pulmonary tuberculosis", protected by RF patent No. 2521197 (published on 06.27.2014). The method provides for a course of anti-tuberculosis therapy according to standard modes; from the first day, the treatment includes oral administration of the drugs Wobenzym and Thiotriazolin. Wobenzym is administered over 4 months, 1 tablet 1 time per day, 30 minutes before breakfast, and Thiotriazolin - during the first 15 days at a dose of 100 mg 2 times a day, from the 16th to the 45th day at a dose of 100 mg 1 time per day. On the 46th day of treatment, Thiotriazolin is canceled, and 4 months after the start of treatment, Wobenzym. Then a course of anti-tuberculosis therapy is carried out according to standard modes.

The disadvantage of the prototype is the lack of effectiveness in terms of resorption of infiltration, closure of decay and abacillation cavities, improvement of the immune and cytokine status indicators, indicators of free radical oxidation, the occurrence of adverse reactions to anti-TB drugs. These shortcomings were identified as a result of a retrospective analysis of 63 case histories of patients with destructive forms of pulmonary tuberculosis, the treatment of which was carried out according to the prototype on the basis of the State Budgetary Institution of the Rostov Region "Tuberculosis Clinical Dispensary" (GBU RO PTKD).

The objective of the invention is to develop a highly effective method for the treatment of destructive forms of pulmonary tuberculosis.

The technical result is to increase the effectiveness of treatment: reducing the time of resorption of infiltration, closing cavities and abacillation, improving the indicators of immune and cytokine status, indicators of free radical oxidation in patients, reducing the frequency of adverse reactions to anti-TB drugs.

The technical result is achieved by assigning a patient a course of anti-tuberculosis therapy according to standard modes with the introduction of the drug Thiotriazolin from the first day into the course of treatment. From the first day, the drug additionally includes the drug Tubosan, which is administered to the patient orally 200 mg 1 time per day after meals. Thiotriazolin is administered according to the scheme: for the first 15 days, intravenously, in a dose of 4.0 ml, diluted in 200.0 ml of 0.9% sodium chloride solution, from the 16th to the 60th day - orally in a dose of 100 mg once a day after meal. Then, Tubosan and Thiotriazolin are canceled, and the course of anti-tuberculosis therapy according to standard modes is continued.

Tubosan (the active substance is methyldioxotetrahydropyrimidinesulfone isonicotinoyl hydrazide), registration number LSR-006593/08. 1 capsule contains Tubosan - 200 mg, potato starch. Tubosan has an immunomodulatory effect, normalizes the body's immune status, and stimulates the phagocytic activity of mononuclear cells. The use of Tubosan leads to an increase in the number of T-helpers with a decrease in the number of T-suppressors and the normalization of the immunoregulatory index. The drug stimulates the proliferative activity of B-lymphocytes, the formation of antibody producers and immunoglobulins.

Thiotriazolin (the active substance is morpholinium-methyl-triazolyl-thioacetate): registration number - LSR-002165/10 (tablets), LSR-002170/10 (solution). One tablet contains Thiotriazolin - 100 mg, potato starch, white gelatin, polyethylene oxide 4000, stearic acid. 1 ml of solution for intramuscular and intravenous administration contains - Thiotriazolin 25 mg, water for injection. The pharmacological properties of thiotriazolin are due to anti-ischemic, membrane-stabilizing, antioxidant and immunomodulatory effects. Prevents damage and death of hepatocytes, reduces the degree of fatty infiltration and the prevalence of centrolobular liver necrosis, activates the processes of reparative regeneration of hepatocytes, normalizes protein, carbohydrate, lipid and pigment metabolism in them.

Thiotriazolin increases the compensatory activation of anaerobic glycolysis, reduces the inhibition of oxidation processes in the Krebs cycle, while maintaining ATP reserves. The drug activates the antioxidant system and inhibits lipid oxidation in ischemic areas of the myocardium, reduces the sensitivity of the heart muscle to catecholamines, prevents the progression of inhibition of contractile activity of the heart, stabilizes and reduces the size of the necrosis zone and myocardial ischemia. Improves the rheological properties of blood due to the activation of the fibrinolytic system.

Its antioxidant properties are manifested due to the presence of a thiol group in the structure of the molecule of Thiotriazolin, which has redox properties, and tertiary nitrogen, which binds the excess of hydrogen ions. Thiotriazolin reacts with reactive oxygen species and lipid radicals due to the expressed reducing properties of the thiol group and prevents the initiation of reactive oxygen species by reactivation of antiradical enzymes: superoxide dismutase, catalase and glutathione peroxidase.

The practical feasibility of the claimed method is illustrated by examples from clinical practice.

Example 1: patient V., 32 years old, was admitted to hospital in GBU RO PTKD for infiltrative tuberculosis of the upper lobe of the right lung in the phase of decay and contamination of 1A iv MBT (+). The patient's condition upon receipt of moderate severity, the skin is pale, nutrition is reduced, complaints of weakness, cough with sputum, chest pain, hemoptysis. Temperature increased to 37.9 ° C. Auscultatory: in the lungs, against the background of vesicular breathing, in the upper parts of the right are dry and isolated wet rales. Respiratory rate (BH) - 24 in 1 minute, blood pressure (BP) - 135/85 mm Hg, pulse rate (PE) - 74 in 1 minute.

Survey data at admission:

Spiral computed tomography of the chest organs: on the right in the upper lobe, heterogeneous infiltration of the lung tissue, polymorphic foci of drainage character, small areas of destruction, S2 decay cavity 22 × 18 mm, wide path to the root of the lung. In the lower lobe on the right and in S6 on the left, the centers of elimination.

Blood test: hemoglobin - 161 g / l, red blood cells - 5.2 × 10 ¹² / l, white blood cells - 6.9 × 10 ⁹ / l, eosinophils - 1%, stab neutrophils - 7%, segmented neutrophils - 62%, lymphocytes - 22%, monocytes - 8%, ESR - 16 mm / hour.

Sputum smear analysis by direct bacterioscopy - acid-resistant mycobacteria (CMC) 1-3 in the field of view.

Sputum culture on Wednesday Levenshtein-Jensen - 12 colony forming units (CFU).

The study of sputum using the BACTEC MGIT method is a positive result on the office.

PCR is a positive result.

Mantoux test with 2 tuberculin units (TE) - 8 mm.

Test with Diaskintest - 7 mm.

Immunogram: CD4 + lymphocytes - 31.2%, CD8 + lymphocytes - 35.7%, CD20 + lymphocytes - 16.2%, CD16 + lymphocytes - 6.4%, CD25 + lymphocytes - 10.0%, immunoregulatory index - 0.9.

Cytokine status: interleukin-2 - 2 pg / ml, tumor necrosis factor-alpha - 22 pg / ml, interleukin-6 - 48 pg / ml, interferon-gamma - 1.3 pg / ml.

Indicators of free radical oxidation: catalase of blood plasma - 48.24 μmol H ₂ O ₂ / min × l, erythrocyte catalase - 72.23 μmol H ₂ O ₂ / min × mgNv, superoxide dismutase in red blood cells - 4.59 cu ./mgNv, myeloperoxidase - 2.15 cu / mg / min, chemiluminescence of blood plasma - 4428.38 imp./6 sec.

Based on the survey data, the preliminary diagnosis of patient B. was confirmed: infiltrative tuberculosis of the upper lobe of the right lung in the phase of decay and contamination of 1A IV in the office (+).

Patient C. was prescribed treatment according to the claimed method.

The course of anti-tuberculosis therapy was carried out in accordance with the standard I regimen: isoniazid - 0.6 g, streptomycin 1 g, rifampicin 0.6 g, pyrazinamide 1.5 g, carlsil 35 mg 3 times a day, vitamin B6 10 mg with the first days to the course of treatment with Thiotriazolin. From the first day, the drug Tubosan was additionally included in the course of treatment, which was administered to the patient orally 200 mg 1 time per day after meals, and Thiotriazolin was administered according to the scheme: the first 15 days, intravenously, in a dose of 4.0 ml, diluted in 200.0 ml 0 , 9% sodium chloride solution, from the 16th to the 60th day - orally at a dose of 100 mg once a day after meals. Then Tubosan and Thiotriazolin were canceled, and the course of anti-tuberculosis therapy according to the standard regimen was continued. Patient V.'s treatment was well tolerated; no adverse reactions to anti-TB drugs were detected. After 60 days, patient V. underwent a control examination.

Control Examination Data:

Spiral computed tomography of the chest organs - partial resorption of infiltrative changes in the upper lobe of the right lung, closure of the decay cavity and small destruction, resorption of foci of screening.

Blood test: hemoglobin - 156 g / l, red blood cells - 4.7 × 10 ¹² / l, white blood cells - 5.4 × 10 ⁹ / l, eosinophils - 2%, stab neutrophils - 4%, segmented neutrophils - 57%, lymphocytes - 29%, monocytes - 8%, ESR - 4 mm / hour.

Two sputum smear analyzes by bacterioscopy - no CMC found.

Two sputum cultures on Wednesday Levenshtein-Jensen - there is no growth of culture of the Office.

A sputum test using the BACTEC MGIT method is a negative result on the office.

PCR is a negative result.

Mantoux test with 2 TE - 9 mm.

Test with Diaskintest - 8 mm.

Immunogram: CD4 + lymphocytes - 46.7%, CD8 + lymphocytes - 25.5%, CD20 + lymphocytes - 10.2%, CD16 + lymphocytes - 9.0%, CD25 + lymphocytes - 18.0%, immunoregulatory index - 1.8.

Cytokine status: interleukin-2 - 10 pg / ml, tumor necrosis factor-alpha - 6 pg / ml, interleukin-6 - 4 pg / ml, interferon-gamma - 4.7 pg / ml.

Indicators of free radical oxidation: catalase of blood plasma - 36.12 μmol H ₂ O ₂ / min × l, erythrocyte catalase - 131.44 μmol H ₂ O ₂ / min × mgHv, superoxide dismutase in red blood cells - 10.65 cu ./mgNv, myeloperoxidase - 1.8 6 c.u. / mg / min, chemiluminescence of blood plasma - 3756.11 imp./6 sec.

The results of the control examination showed that a positive trend was achieved. The condition of patient V. improved, catarrhal phenomena were not heard in the lungs, infiltrative changes decreased, the decay cavity was closed, and abacillation was achieved. During treatment, adverse reactions to anti-TB drugs were not observed. Indicators of immune and cytokine status normalized, and indicators of free radical oxidation improved.

Further treatment was carried out in accordance with the standard I regimen: isoniazid - 0.6 g, ethambulol - 1.2 g, rifampicin 0.6 g, pyrazinamide 1.5 g, carlsil 35 mg 3 times a day, vitamin B6 10 mg.

After 3 months from the start of treatment, patient V. was discharged in satisfactory condition to continue treatment on an outpatient basis.

Example 2: patient Y., 29 years old, was admitted for inpatient treatment at the State Public Institution “PTKD” due to cavernous tuberculosis S2 of the right lung in the phase of decay and contamination of 1A iv MBT (+). The patient's condition upon admission is of moderate severity, complaints of weakness, sweating, periodic cough with sputum. Objectively: the skin is pale, nutrition is reduced, the temperature is increased to 37.2 ° C. Auscultatory: in the lungs one can hear respiration vesicular with a hard tinge, intermittent dry rales in the upper lobe of the left lung. Respiratory rate (BH) - 20 in 1 minute, blood pressure (BP) - 115/75 mm Hg, pulse rate (PE) - 72 in 1 minute.

Survey data at admission:

Spiral computed tomography of the chest organs - in S2 of the right lung cavity 18 × 20 mm in size with a wall thickness of 3 mm, path to the root of the lung, polymorphic foci of drainage character around the cavity.

Blood tests: hemoglobin - 139 g / l, erythrocytes - 4,1 × ^{12 October} / l, leukocytes - 7,4 × 10 ⁹ / L, eosinophils - 0% stab neutrophils - 7%, segmented neutrophils are - 63% lymphocytes - 25%, monocytes - 5%, ESR - 16 mm / hour.

Sputum smear analysis by direct bacterioscopy - acid-resistant mycobacteria (CMC) not found.

Sputum culture on Wednesday Levenshtein-Jensen gave growth of 2 CFU.

The study of sputum using the BACTEC MGIT method is a positive result on the office.

PCR is a positive result.

Mantoux test with 2 TE - 5 mm.

Test with Diaskintest - 8 mm.

Immunogram: CD4 + lymphocytes - 36.8%, CD8 + lymphocytes - 35.4%, CD20 + lymphocytes - 19.7%, CD16 + lymphocytes - 8.1%, CD25 + lymphocytes - 11.6.0%, immunoregulatory the index is 1.0.

Cytokine status: interleukin-2 - 0 pg / ml, tumor necrosis factor-alpha - 18 pg / ml, interleukin-6 - 33 pg / ml, interferon-gamma - 1.2 pg / ml.

Indicators of free radical oxidation: plasma catalase - 47.12 μmol H ₂ O ₂ / min × l, erythrocyte catalase - 68.79 μmol H ₂ O ₂ / min × mgHv, superoxide dismutase in red blood cells - 4.06 cu / mgNv, myeloperoxidase - 2.34 cu / mg / min, chemiluminescence of blood plasma - 4256.46 imp./6 sec.

Based on the examination data, the preliminary diagnosis of the patient Yu was confirmed: cavernous tuberculosis S2 of the right lung in the phase of decay and seeding of 1A in / in the office (+).

Patient Yu was prescribed treatment according to the claimed method.

The course of anti-tuberculosis therapy was carried out in accordance with the standard I regimen: isoniazid - 0.6 g, streptomycin 1 g, rifampicin 0.6 g, pyrazinamide 1.5 g, carlsil 35 mg 3 times a day, vitamin B6 10 mg with the first days to the course of treatment with Thiotriazolin. From the first day, the drug Tubosan was additionally included in the course of treatment, which was administered to the patient orally 200 mg 1 time per day after meals, and Thiotriazolin was administered according to the scheme: the first 15 days, intravenously, in a dose of 4.0 ml, diluted in 200.0 ml 0 , 9% sodium chloride solution, from the 16th to the 60th day - orally at a dose of 100 mg once a day after meals. Then Tubosan and Thiotriazolin were canceled, and the course of anti-tuberculosis therapy according to the standard regimen was continued. Patient Yu tolerated the treatment well; no adverse reactions to anti-TB drugs were detected. After 60 days, the patient Yu was carried out a control examination.

Control Examination Data:

Spiral computed tomography of the chest organs - in S2 of the right lung against the background of limited pneumosclerosis foci of medium intensity of small caliber, the decay cavity was closed.

Blood test: hemoglobin - 144 g / l, red blood cells - 4.6 × 10 ¹² / l, white blood cells - 5.2 × 10 ⁹ / l, eosinophils - 1%, stab neutrophils - 3%, segmented neutrophils - 53%, lymphocytes - 32%, monocytes - 11%, ESR - 3 mm / hour.

Two sputum smear analyzes by bacterioscopy - no CMC found.

Two sputum cultures on Wednesday Levenshtein-Jensen - there is no growth of culture of the Office.

A sputum test using the BACTEC MGIT method is a negative result on the office.

PCR is a negative result.

Mantoux test with 2 TE - 11 mm.

Test with Diaskintest - 6 mm.

Immunogram: CD4 + lymphocytes - 46.5%, CD8 + lymphocytes - 22.9%, CD20 + lymphocytes - 10.3%, CD16 + lymphocytes - 6.7%, CD25 + lymphocytes - 16.2%, immunoregulatory index - 2.0.

Cytokine status: interleukin-2 - 8 pg / ml, tumor necrosis factor-alpha - 4 pg / ml, interleukin-6 - 2 pg / ml, interferon-gamma - 5.2 pg / ml.

Indicators of free radical oxidation: plasma catalase - 38.25 μmol H ₂ O ₂ / min × l, erythrocyte catalase - 136.62 μmol H ₂ O ₂ / min × mgHv, superoxide dismutase in red blood cells - 11.12 cu / mgNv, myeloperoxidase - 1.78 cu / mg / min, chemiluminescence of blood plasma - 3649.11 imp./6 sec.

The data of the control examination showed that a positive trend was achieved. Patient Yu's condition improved, catarrhal phenomena were not heard in the lungs, infiltrative changes resolved, the decay cavity closed, the number and size of foci decreased, and abacillation was achieved. During treatment, adverse reactions to anti-TB drugs were not observed. Indicators of immune and cytokine status normalized, and indicators of free radical oxidation improved.

Subsequently, the course of anti-tuberculosis therapy was carried out in accordance with the standard I regimen: isoniazid - 0.6 g, ethambulol - 1.2 g, rifampicin 0.6 g, pyrazinamide 1.5 g, carlsil 35 mg 3 times a day, vitamin B6 10 mg

After 3 months from the start of treatment, patient Yu was discharged in satisfactory condition to continue treatment on an outpatient basis.

Under our supervision, there were 40 patients with destructive forms of pulmonary tuberculosis, which were divided into two groups that differ in the methods of therapy. Patients of the main group, in the amount of 20 people, received treatment according to the claimed method. Patient comparison groups, in the amount of 20 people, received treatment according to the prototype. The formed groups were homogeneous by sex, age, prevalence of tuberculous changes in the lungs, the presence of decay and bacterial excretion. The treatment results were evaluated after 60 days by the presence of clinical symptoms, as well as by indices of resorption of infiltration, closure of decay cavities, abacillation, dynamics of the immune and cytokine status, indicators of free radical oxidation, and the presence of adverse reactions to anti-TB drugs.

In patients of the main group, as a result of treatment carried out according to the claimed method, a pronounced positive dynamics of the clinical symptoms of tuberculosis was obtained. After 60 days of treatment, all patients completely disappeared such a symptom as fever, cough and weakness were observed in only 2 people. In patients of the comparison group who received treatment according to the prototype, weakness persisted in 11 patients, cough in 8, and fever in 4 (see Table 1).

In patients of the main group who took treatment according to the claimed method, the effectiveness of treatment after 60 days was significantly higher than in patients of the comparison group who received treatment according to the prototype: in terms of resorption of infiltration - 1.5 times, closure of decay cavities - 2, 5 times, abacillation - 2.5 times (see Table 2).

In patients of the main group who received treatment according to the claimed method, a positive dynamics of immune parameters was revealed: normalization of the immunoregulatory index and phagocytosis stimulation coefficient. In patients of the comparison group who received treatment according to the prototype, signs of immunodeficiency persisted: the immunoregulatory index and phagocytosis indices were not significantly changed, remaining reduced (see Table 3).

In patients of the main group who received treatment according to the claimed method, a positive dynamics of cytokine profile indicators was revealed: the activity of pro-inflammatory cytokines decreased: tumor necrosis factor alpha and interleukin-6, the level of interferon-gamma and interleukin-2 increased. In patients of the comparison group who received treatment according to the prototype, the activity of pro-inflammatory cytokines remained high, the level of interferon-gamma and interleukin-2 did not change significantly, which also indicates the preservation of violations of the immune status (see Table 4).

In patients of the main group who received treatment according to the claimed method, the activity of erythrocyte superoxide dismutase and catalase increased to normal values, the level of myeloperoxidase, plasma catalase and chemiluminescence decreased, indicating a decrease in the level of reactive oxygen species and the intensity of inflammation, as well as an improvement in the antioxidant defense system in the treatment of patients with destructive forms of pulmonary tuberculosis according to the claimed method. In patients of the comparison group who received treatment according to the prototype, the parameters of free radical oxidation did not significantly change: the activity of superoxide dismutase remained low, and plasma catalase increased, which helped to maintain pronounced inflammatory changes and destruction of lung tissue (see Table 5).

When assessing the frequency of side effects, a clear advantage of the proposed method of treatment was revealed. The frequency of adverse reactions in patients of the main group receiving treatment according to the claimed method did not show the occurrence of adverse reactions to anti-TB drugs, while in the comparison group receiving treatment according to the prototype, 3 patients (15.0%) had adverse reactions of a different nature (see Table 6).

Thus, the claimed method of treatment of patients with pulmonary tuberculosis can reduce the time of resorption of infiltration, closing the decay and abacillation cavities, improve the immune, cytokine status and free radical oxidation, as well as reduce the frequency of adverse reactions to anti-TB drugs

Claims (1)

A method of treating patients with destructive forms of pulmonary tuberculosis, providing for a course of anti-tuberculosis therapy according to standard modes with the introduction of the drug Thiotriazolin from the first day, characterized in that from the first day the treatment also includes the drug Tubosan, which is administered to the patient orally 200 mg 1 once a day after meals, and Thiotriazolin is administered according to the scheme: the first 15 days are intravenously dripped in a dose of 4.0 ml, diluted in 200.0 ml of a 0.9% sodium chloride solution, from the 16th to the 60th day orally in a dose of 100 mg 1 time per day after meals, after which they continue the course of anti-tuberculosis therapy according to standard regimes.