Abstract
Bacterial vaginosis is the most common disease of the genitals and affects 20–70% of women. This non-inflammatory syndrome is characterized by dysbiosis of the vaginal microbiota and is accompanied by a decrease in the number of lactobacilli. Bacterial vaginosis in 60% of pregnant women is asymptomatic, but can lead to obstetric complications such as late miscarriage, premature birth, fetal growth restriction, premature rupture of membranes, choriominionitis, postpartum endometritis, and sepsis. The clinical picture of bacterial vaginosis in pregnant women is the same as in non-pregnant women, namely homogeneous whitish-gray discharge from the genital tract, often with an unpleasant “fishy” smell, rarely itching and/or burning in the genital area and urethra, as well as soreness during urination (dysuria), with no signs of an inflammation detected in the genitals. Diagnosis of bacterial vaginosis in pregnant women, as well as in non-pregnant women, is based on the use of clinical and laboratory methods. Multiplex tests based on the nucleic acid amplification method, such as real-time polymerase chain reaction, are very popular for the diagnosis of bacterial vaginosis in this country. The Femoflor-16 Reagent Kit (DNA Technology CJSC, Moscow, Russia) is designed to detect the DNA of opportunistic microorganisms, lactobacilli DNA and human genomic DNA (as a control for taking biological material). Examination of pregnant women, especially in case of complaints of vaginal discharge, should be carried out when registering for pregnancy in order to start treatment early and prevent adverse pregnancy outcomes for the mother and fetus. Biofilms formed by microorganisms in bacterial vaginosis, especially G. vaginalis, limit the penetration of antibacterial agents to bacteria, their concentration being lower than therapeutic one, which leads to ineffective treatment. There remain many unexplored issues related to changes in the epidemiology of bacterial vaginosis, an increase in the frequency of relapses against the background of increasing resistance of microorganisms associated with bacterial vaginosis to antibiotics, and the development of agents that affect bacterial films.