[Mistakes in the diagnosis of neuromyelitis optic spectrum diseases lead to wrong therapy and deterioration of patients' condition]. / Oshibki v diagnostike zabolevanii spektra optikoneiromielita privodyat k nepravil'noi terapii i ukhudsheniyu sostoyaniya patsientov.

Neuromyelitis optic spectrum diseases (NMOSD) are a group of rare neuroimmunological diseases involving mainly the optic nerves and spinal cord, to a lesser extent the brain, and causing severe exacerbations that lead to persistent disability of patients. For many years, opticoneuromyelitis was considered a prognostically unfavorable variant of the course of multiple sclerosis (MS), however, in 2004, specific autoantibodies to aquaporin-4 were found in such patients, which made it possible to isolate NMOSD into a separate group of demyelinating diseases other than MS. Due to similar clinical signs and the predominantly remitting course of diseases, it is often difficult to make a correct diagnosis and, accordingly, prescribe effective therapy, which often leads to incorrectly selected therapy with incorrect diagnosis. In some cases, this leads to a worsening of the course of NMOSD. We present a case of late diagnosis of NMOSD that confirms the development of exacerbation in the patient 2 months after the first course of therapy with alemtuzumab prescribed as a highly effective therapy for highly active remitting MS. Timely diagnosis of NMOSD makes it possible to exclude such cases.

[Microbiota markers level in the blood and cerebrospinal fluid of patients with different types of multiple sclerosis and radiologically isolated syndrome]. / Issledovanie soderzhaniya markerov mikrobioty v tsel'noi krovi i tserebrospinal'noi zhidkosti patsientov s razlichnymi tipami techeniya rasseyannogo skleroza i lits s radiologicheski izolirovannym sindromom.

OBJECTIVE: To assess the level of microbiota markers in the blood and cerebrospinal fluid (CSF) of patients with different types of multiple sclerosis (MS), people with radiologically isolated syndrome (RIS) and control subjects. MATERIAL AND METHODS: We used gas chromatography-mass spectrometry (GC-MS) to evaluate the levels of microbiota markers in 69 patients with different types of MS (27 patients in the acute stage, 35 patients with MS in remission, 7 patients with primary-progressive MS), 10 people with RIS, and 47 control subjects (different diseases of the nervous system of a non-autoimmune or inflammatory nature). RESULTS: We showed a statistically significant increase in the content of various microbiota markers in the CSF of patients with MS compared with the control group. We found no change in the content of these markers in blood of patients with MS. This suggests a change of markers of microbial load at the level of the central nervous system, but not at the level of the whole organism. The greatest number of statistically significant differences with the control group was found in the content of markers in CSF of patients with MS in remission. In the acute stage, on the contrary, we found no statistically significant differences compared to the control group. In particular, in CSF of patients with MS in remission, a statistically significant increase in the content of bacterial plasmalogen (4.5 times), and increase in the level of microbial markers specific to Peptostreptococcus anaerobius, Pseudomonas aeruginosa, Eubacterium, Bifidobacterium, Butirivibrio, Moraxella, Acinetobacter, Propionibacterium acnes, as well as an increase of markers of the Epstein-Barr virus were found. In addition, there was an increase of campesterol, the likely source of which is campesterol-producing microfungi. In the CSF of subjects with RIS there were a statistically significant increase in the level of markers of the Epstein-Barr virus, Propionibacterium acnes, as well as Pseudomonas, Moraxella, and Acinetobacter. CONCLUSION: An association of MS with polymicrobial infection is possible. It is also likely that there is a certain pattern of increase of microbiota markers in the CSF of patients with MS, but not in blood.

Evaluation of the structure of the human microbiome in multiple sclerosis by the concentrations of microbial markers in the blood.

The relationship between multiple sclerosis and the state of the human microbiome was studied, namely, the change in the representation of microbiota phylotypes, the proportion of coccal flora, the proportion of anaerobic, gram-negative, proteolytically active microflora, as well as the concentration of markers of bacterial plasmalogen and endotoxin in the blood. Microbiome studies were carried out by gas chromatography - mass spectrometry of microbial markers in the blood. A statistically significant increase in blood concentrations of the total level of microbial markers of bacterial plasmalogen and endotoxin was determined in multiple sclerosis, which may be associated with an increase in the permeability of the intestinal wall. In multiple sclerosis, the proportion of coccal, gram-negative, anaerobic microflora with a proteolytic type of metabolic activity increases. The correlations of the representation of microbiota phylotypes change due to the switching of the direct relationship Proteobacteria-Bacteroides to Proteobacteria-Firmicutes. In multiple sclerosis, Actinobacteria and Proteobacteria increase and Firmicutes decrease. Conclusion. The multiple sclerosis disease may be associated with pathological changes in the structure of the microbiome and the growth of endotoxemia, which may be one of the factors in the pathogenesis of the disease. New laboratory markers for diagnosing and predicting the course of MS have been proposed.

[The possibility of using multiple sclerosis-associated variants of the mitochondrial genome to predict the development of multiple sclerosis]. / Vozmozhnost' ispol'zovaniya assotsiirovannykh s rasseyannym sklerozom variantov mitokhondrial'nogo genoma dlya predskazaniya razvitiya rasseyannogo skleroza.

Multiple sclerosis (MS) is a chronic disease of the central nervous system characterized by autoimmune inflammation, demyelination, and neurodegeneration. MS is a complex disease that develops under the influence of environmental factors in genetically predisposed individuals. Currently, more than 200 genetic loci associated with MS have been identified by various methods. Some of them are located in the mitochondrial DNA. This paper collects data on mtDNA variants associated with MS in the Russian ethnic group, and shows the possibility of using this information to construct and refine models for predicting the development of MS.