RU2245550C2 - Method for predicting bronchial obstruction at chronical bronchitis - Google Patents

Abstract

FIELD: clinical medicine, pulmonology.

SUBSTANCE: one should carry out complex estimation of interleukin-1β) concentration in blood, saliva, bronchoalveolar liquid. Moreover, one should detect distribution coefficient (DC) for IL-1β as the ratio of IL-1β blood content to IL-1β salivary content. At increased IL-1β blood content by 10 times and more, by 2 times in saliva, unchanged level of bronchoalveolar IL-1β, at DC for IL-1β being above 1.0 one should predict bronchial obstruction. The method enables to conduct diagnostics of the above-mentioned disease at its earlier stages.

EFFECT: higher efficiency of prediction.

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Description

The invention relates to medicine and can be used in pulmonology for the early diagnosis of obstructive disorders developing against the background of progression of inflammation in the respiratory tract in chronic bronchitis.

The urgent problem of pulmonology is to increase the effectiveness of the early diagnosis of chronic obstructive pulmonary disease (COPD), due to the high prevalence, increase in morbidity, mortality and increased economic costs worldwide. The main forms of COPD are: chronic obstructive bronchitis (COPD) and pulmonary emphysema.

One of the main highly informative methods for diagnosing bronchial obstruction in chronic bronchitis (CB) is to study the function of external respiration (HF) and, in particular, to estimate the volume of forced expiration in 1 second (OFB ₁ ) (Chuchalin A.G. Chronic obstructive pulmonary disease. M .: ZAO BINOM Publishing House. St. Petersburg: Nevsky Dialect. 1998: 512). The change in OFB ₁ in chronic bronchial obstruction serves as a marker of already existing violations of bronchial patency and indicates the severity of these changes. Known markers of possible bronchial obstruction disorders in chronic obesity include risk factors (smoking, occupational hazards, male gender, age over 40) and clinical symptoms (chronic cough with or without sputum production) (Global strategy: diagnosis, treatment and prevention of chronic obstructive lung diseases Report of the working group of the National Institute of Heart, Lungs and Blood and the World Health Organization. 2001: 32). At the same time, quantitative laboratory criteria predicting obstructive disorders in chronic kidney disease have not been developed.

The modern direction in the study of the pathogenesis of chronic inflammation in COPD is the concept of biomarkers and, in particular, the role of cytokines. One of the representatives of the class of cytokines is interleukin-1β (IL-1β), which is involved in the development of both acute and chronic inflammation (Simbirtsev A.S. Biology of the family of human interleukin-1. Immunology. 1998; 3: 9-17) .

The aim of the invention is the development of early quantitative prognostic criteria for bronchial obstruction in chronic kidney disease.

The goal is achieved by determining the content of IL-1β in serum, saliva and bronchoalveolar fluid (BALF), as well as by assessing the distribution coefficient for IL-1β in patients with chronic obstructive disease without obstructive ventilation disorders.

Distribution coefficient (CD) - an indicator of the ratio of a substance in the blood-saliva system, which determines the activity and permeability of the blood-salivary barrier (HSC) for various substances (Komarova L.G., Alekseeva O.P. New ideas about the function of the salivary glands in the body. Nizhny Novgorod, 1994: 96.)

A method for predicting bronchial obstruction in chronic obstructive pulmonary disease consists in using quantitative laboratory criteria for the risk of developing bronchial obstruction, including the determination of the level of IL-1β in blood serum, saliva, bronchoalveolar fluid (BALF) and the assessment of CR for IL-1β in patients with chronic kidney disease without changes FVD (FEV ₁ , which differs significantly from the used subjective parameters (risk factors, gender, age).

The proposed method is as follows. CB patients with normal FEV ₁ in the morning on an empty stomach, blood is taken from the cubital vein, with its further centrifugation and separation of serum, and saliva collected using bronchial lavage receive runoff from the bronchial tree. In the above biological media, the concentration of IL-1β (pg / ml) is determined and CR = IL-1β of blood (pg / ml) is calculated (IL-1β of saliva (pg / ml)). The results are compared with normal rates. An increase in the content of IL-1β by more than 10 times in blood serum, 2 times in saliva, its normal parameters in BALF, and an increase in CR for IL-1β of more than 1.0 indicate the formation of impaired bronchial patency.

The diagnostic effectiveness of the proposed method was studied in 53 men 39-72 years old during an exacerbation of CB. 20 patients (group 1) were diagnosed with chronic non-obstructive bronchitis (CNB), and 33 patients (group 2) were diagnosed with COPD. The control group consisted of 10 healthy men 23-25 years old. The diagnosis of HB was established by the clinic (complaints, medical history, objective research data), the results of laboratory, functional, radiological and bronchoscopic examinations. A decrease in FEV _{1 of} less than 80% of the expected values (on average - 59.3 ± 8.1%, p <0.05) in patients with chronic bronchitis showed a violation of bronchial patency.

Serum was obtained by centrifuging blood taken from the cubital vein. Saliva was collected in the morning on an empty stomach after rinsing the oral cavity with water by spitting in a test tube for 10 minutes. BALG was obtained during fibrobronchoscopy (Olympus BF bronchoscope (Japan)) by fractional injection of physiological saline of 20-40 ml, followed by its aspiration.

IL-1β (pg / ml) was determined by the ProCon IL-1β reagent kit (St. Petersburg) by enzyme-linked immunosorbent assay. In the control group, the content of IL-1β in blood serum was 35.3 ± 4.9 pg / ml, in saliva - 273.3 ± 43.9 pg / ml and BALF - 305.0 ± 80.3 pg / ml.

The results of the study of IL-1β in various biological environments in patients with CB are presented in Table 1. During the exacerbation of CB in the blood serum, a statistically significant increase in the level of IL-1β with its maximum concentration in obstructive disorders was revealed in all examined groups compared to the control group - 1160 3 ± 440.2 pg / ml, p <0.01. For patients with CNB, the level of IL-1β in serum was 3 times lower than in patients of the 2nd group and amounted to 379.2 ± 49.1 pg / ml, p <0.01.

Salivary secretion of IL-lβ in chronic kidney disease exceeded the norm 2.2 times (624.7 ± 39.5; p <0.01), and the level of this cytokine in patients with obstructive form of bronchitis did not differ from the control group (484 ± 91, 1; p> 0.05).

Excessive accumulation of IL-1β in the blood more than 10 times the normal level and the maximum salivary concentration of this biomarker - more than 2 times the norm in patients with chronic bronchitis are quantitative markers that determine the formation of bronchial obstruction.

The CR for IL-1β in healthy individuals was 0.13 ± 0.04. In the 1st group of examined patients, CR was determined in the range of 0.61 ± 0.11; p <0.05, and in the obstructive variant of bronchitis - 2.30 ± 1.02; p <0.01 (Table 2). A shift in the direction of its increase in all variants of the disease indicates a high activity of HCB and a decrease in its permeability for IL-1β, which can be considered as an early prognostic criterion for the formation of COPD.

Table 1
The content of interleukin-1β (pg / ml) in blood serum, saliva and BALF in exacerbation of chronic bronchitis (M ± m) Group of subjects Saliva Blood serum BALGE Chronic non-obstructive bronchitis (n = 20) 624.7 ± 39.5 ** 379.2 ± 49.1 ** 417.5 ± 61.2 Chronic obstructive bronchitis (n = 29) 484.0 ± 91.1 1160.0 ± 440.2 ** 571.4 ± 29.4 * Control group (n = 10) 273.3 ± 43.9 35.3 ± 4.9 305.0 ± 80.3 Note: one asterisk - differences are significant compared to the control group (p <0.05), two asterisks - differences are significant compared to the control group (p <0.01)

table 2
Distribution coefficient for interleukin-1β in various forms of chronic bronchitis. Group of examined Distribution coefficient Control group 0.13 ± 0.04 1 group (CNB) 0.61 ± 0.11 * 2 group (COPD) 2.30 ± 1.02 ** Note: one asterisk - differences are significant compared with the control group (p <0.05); two asterisk differences are significant compared with the control group (p <0.01).

Exacerbation of CB was accompanied by a maximum accumulation of IL-1β in BALC with bronchial obstruction - 571.4 ± 29.4 pg / ml, p <0.05. In patients with chronic kidney disease, the level of endobronchial IL-1β did not differ from the control group - 417.5 ± 61.2 pg / ml, p> 0.05.

Thus, a combination of high concentrations of IL-1β in blood, saliva, unchanged activity of endobronchial IL-1β, and an increase in the distribution coefficient for IL-1β can serve as an early prognostic criterion for bronchial obstruction in patients with chronic bronchitis without changes in FVD.

Claims (1)

A method for predicting bronchial obstruction in chronic bronchitis, characterized in that a comprehensive study of the concentration of interleukin-1β (IL-1β) in blood, saliva, bronchoalveolar fluid and determining the distribution coefficient (CR) for (IL-1β) as the ratio of the amount of IL-1β blood to the amount of IL-1β saliva and with an increase in the content of IL-1β more than 10 times in the blood, 2 times in saliva, an unchanged level of bronchoalveolar interleukin-1β, and with a CR for IL-1β of more than 1.0, bronchial obstruction is predicted.