[The evaluation of the efficiency of therapeutic and preventive measures in children aged 10-12 years with different degrees of caries intensity and the level of enamel resistance]. / Otsenka effektivnosti lechebno-profilakticheskikh meropriyatii u detei 10­12 let s raznoi stepen'yu intensivnosti kariesa i urovnem rezistentnosti emali.

THE AIM OF THE STUDY: Was to evaluate the effectiveness of therapeutic and preventive measures for children aged 10-12 years with varying degrees of caries intensity and enamel resistance. MATERIAL AND METHODS: The study comprised 308 children. We used the WHO technique (DMFT) for examining children, a hardware method for detecting foci of enamel demineralization, which were recorded using the ICDAS II system. The level of enamel resistance was determined using the enamel resistance test. Three groups of children were formed depending on the intensity of caries: group 1 - DMFT = 0 (100 people); group 2 - DMFT =1-2 (104 people); group 3 - DMFT ≥3 (104 people). Each of the groups was divided into 4 subgroups depending on the use of therapeutic and prophylactic agents. RESULTS: After carrying out therapeutic and preventive measures for 12 months, it was possible to reduce the number of foci of enamel demineralization by 23.26% and avoid the formation of new carious cavities. CONCLUSION: The planning of therapeutic and preventive measures should be personalized depending on the degree of intensity of caries and the level of resistance of tooth enamel.

[Real-time PCR assay development for the control of vaccine against hemorrhagic fever with renal syndrome].

INTRODUCTION: Hemorrhagic fever with renal syndrome (HFRS) holds a leading place among natural focal human diseases in Russian Federation. There is no etiotropic therapy for the disease now. The vaccine prophylaxis is the most effective method to control this infection. The main criteria for inactivated vaccines evaluation are its immunogenicity and specific activity.The study purposes were to develop a sensitive and specific real-time PCR method for viral RNA quantification in the inactivated vaccine and to study the correlation between the viral RNA amount and vaccine immunogenicity. MATERIAL AND METHODS: L-segment fragments of the Puumala, Hantaan, and Sochi vaccine strains were selected as diagnostic targets for oligonucleotides and fluorescent probes. The immunogenicity of experimental vaccines was determined by the induction of neutralizing antibodies in BALB/c mice. RESULTS: A highly specific, sensitive and reproducible real-time PCR method has been developed. The analytical sensitivity was 1.24 ± 1.5 x 102 copies/ml for Puumala virus; 1.16 ± 1.4 * 102 copies/ml for Hantaan; 1.32 ± 1.8 * 102 copies/ ml for Sochi, with a virus content of 1.5 ± 0.5 lg FFU/ml; 1.8 ± 0.5 lg FFU/ml and 2.2 ± 0.5 lg FFU/ml, respectively. The viral RNA amount in experimental vaccine preparations inactivated with ß-propiolactone was proportional to the neutralizing antibodies titer observed in mice following the immunization. DISCUSSION: It was found that different virus inactivators differently affects the detected viral RNA amount, but not the vaccine immunogenicity, which indicates the same degree of the immunogenic proteins damage. The direct relationship between the viral RNA copy number and vaccine immunogenicity makes it possible to use this criterion for vaccine dosage preparation. CONCLUSION: The developed method for viral RNA quantification is a promising tool for the specific activity control of the HFRS vaccine.

Cold and distant: structural features of the nucleoprotein complex of a cold-adapted influenza A virus strain.

Two influenza A nucleoprotein variants (wild-type: G102R; and mutant: G102R and E292G) were studied with regard to macro-molecular interactions in oligomeric form (24-mers). The E292G mutation has been previously shown to provide cold adaptation. Molecular dynamics simulations of these complexes and trajectory analysis showed that the most significant difference between the obtained models was distance between nucleoprotein complex strands. The isolated complexes of two ribonucleoprotein variants were characterized by transmission electron microscopy and differential scanning fluorimetry (DSF). Presence of the E292G substitution was shown by DSF to affect nucleoprotein complex melting temperature. In the filament interface peptide model, it was shown that the peptide corresponding in primary structure to the wild-type NP (SGYDFEREGYS) is prone to temperature-dependent self-association, unlike the peptide corresponding to E292G substitution (SGYDFGREGYS). It was also shown that the SGYDFEREGYS peptide is capable of interacting with a monomeric nucleoprotein (wild type); this interaction's equilibrium dissociation constant is five orders of magnitude lower than for the SGYDFGREGYS peptide. Using small-angle neutron scattering (SANS), the supramolecular structures of isolated complexes of these proteins were studied at temperatures of 15, 32, and 37 °C. SANS data show that the structures of the studied complexes at elevated temperature differ from the rod-like particle model and react differently to temperature changes. The data suggest that the mechanism behind cold adaptation with E292G is associated with a weakening of the interaction between strands of the ribonucleoprotein complex and, as a result, the appearance of inter-chain interface flexibility necessary for complex function at low temperature.Communicated by Ramaswamy H. Sarma.

[Implementation of early comprehensive rehabilitation of children with cleft lip and palate using the example of the Moscow region]. / Realizatsiya rannei kompleksnoi reabilitatsii detei s rasshchelinoi guby i neba na primere Moskovskoi oblasti.

Lack of early comprehensive rehabilitation of children with congenital cleft lip and palate, with age leads to aggravation of anatomical and functional disorders. Aesthetic external deformation is progressing, requiring multiple corrections. The absence of orthopedic correction in the pre-surgical period, functional correction of anatomically restored muscles in the postoperative period, exacerbates the pathology of the bite, causes persistent speech disorders. The pathology of speech adversely affects the general physical, intellectual development of the child, as well as his full adaptation in society. Problems not eliminated in childhood subsequently interfere in work and in everyday life. The patient should receive such medical care that would fill the health gap and contribute to the formation of socially significant personality traits. An integrated approach has become the only possible and only it brings optimal results. The organization of cooperation between specialists should be carried out on the basis of the Federal, Regional General Medical Profile of the medical institution.

The Role of the Glutathione System in Oxidative Modification of Proteins and Dysregulation of Apoptosis in Jurkat Tumor Cells.

We compared changes in the redox status and intensity of oxidative modification of proteins in intact Jurkat tumor cells and cells cultured with buthionine sulfoximine, an inhibitor of the key enzyme of glutathione synthesis γ-glutamylcysteine synthetase. The glutathione system components play a role in modulation of the content of protein-bound glutathione, protein carbonyl derivatives, bityrosine, and oxidized tryptophan, and in dysregulation of apoptosis in Jurkat tumor cells. Inhibition of de novo synthesis of glutathione in Jurkat tumor cells was followed by accumulation of hydroxyl radical, a reduction in the level of protein-bound glutathione and oxidized tryptophan, and a rise in the concentration of protein carbonyl derivatives. These changes were accompanied by activation of programmed cell death.

[Redox-dependent mechanisms of regulation of breast epithelial cell proliferation]. / Redoks-zavisimye mekhanizmy reguliatsii proliferatsii kletok épiteliia molochnoi zhelezy.

Activation of free radical oxidation in different cell types, including breast epithelial cells, may result in damage to macromolecules, in particular, proteins taking part in regulation of cell proliferation and apoptosis. The glutathione, glutaredoxin and thioredoxin systems play an essential role in maintaining intracellular redox homeostasis. Due to this fact, modulation of cellular redox status under the effect of an SH group inhibitor and an SH group protector may be used as a model for studying the role of redox proteins and glutathione in regulating cell proliferation in different pathological processes. In this study we have evaluated the state of the thioredoxin, glutaredoxin and glutathione systems as well as their role in regulating proliferation of HBL-100 breast epithelial cells under redox status modulation with N-ethylmaleimide (NEM) and 1,4-dithioerythriol (DTE). Modulating the redox status of breast epithelial cells under the effect of NEM and DTE influences the functional activity of glutathione-dependent enzymes, glutaredoxin, thioredoxin, and thioredoxin reductase through changes in the GSH and GSSG concentrations. In HBL-100 cells under redox-status modulation, we have found an increase in the number of cells in the S-phase of the cell cycle and a decrease in the number of cells in the G0/G1 and G2/М phases, as opposed to the values in the intact culture. The proposed model of proliferative activity of cells under redox status modulation may be used for development of new therapeutic approaches for treatment of diseases accompanied by oxidative stress generation.

The time scale of adaptation in tonal sequence processing by the mouse auditory midbrain neurons.

The time course of poststimulatory adaptation of the inferior colliculus central nucleus (ICC) of CBB6F1 hybrid mice to sound sequences, specifically, series of four tonal stimuli presented at intervals of 0, 2, 4, 10, 20, 50, 100, 200, 500, 700, 1000, and 1500 ms were studied. Assessment of the adaptation of the entire neuronal population have shown that, at an interstimulus interval of 0-200 ms, the response to the first tone in a series is significantly stronger than those to the second to fourth tones, the strengths of the latter three responses not differing significantly from one another. If the interstimulus interval is 500 ms or longer, the response to none of the tones in a series differs significantly in strength from the others. The role of adaptation of midbrain neurons to the grouping of components of bioacoustic stimuli is discussed.

[Influence of Fatty Acids on Oxygen Consumption in Isolated Cardiomyocytes of Rats with Ischemic or Diabetic Heart Disease].

BACKGROUND: one of the reasons of violation of the functional viability of the myocardium is considered to be the oxygen deprivation and lack of energy. The reason is the inhibitory effect of fatty acids on glucose oxidation. Recently, however, new data have been published proving the need for fatty acids and their importance in the maintenance and regulation of the functional activity of the myocardium in chronic pathology. OBJECTIVE: to investigate the influence of free polyunsaturated and saturated fatty acids (FA) on the oxygen uptake of isolated cardiomyocytes in intact rats and animals with ischemic or diabetic heart disease. METHODS: the executed non-randomized controlled study. It includied 3 groups of male rats of Wistar line (weight 250-300g) with 10 animals in each group. Myocardial infarction ("heart attack" group) was caused by ligation of the left coronary artery, diabetes ("diabetes" group)--by intraperitoneal injection of streptozotocin, and "control" group (intact animals). Myocardial infarction caused by ligation of the left coronary artery, and diabetes by intraperitoneal injection of streptozotocin. Isolated cardiac myocytes were obtained by the enzymatic method. Oxygen consumption was assessed polarographically at different saturation incubation medium with oxygen ([O2] ≤ 8 mg/l and ([O2] ≥ 16 mg/l). Arachidonic and palmitic acids were applied as fatty acids. RESULTS: It is established that the introduction of the incubation medium 20 µm arachidonic or palmitic fatty acid significantly increased the oxygen consumption of intact cardiomyocytes of rats. Both at the ischemic and at the diabetic injury to the heart the opposite result was obtained. The most pronounced decrease in oxygen consumption was indicated in the group with diabetes mellitus. CONCLUSION: The inhibitory effect of LCD on the rate of oxygen consumption may be associated with the influence of the ischemic or diabetic injury to the heart on the barrierfunction ofmitochondrial membranes of cardiomyocytes, the activity of membrane-associated enzymes and their associated processes.

[Biodegradation of Cellulose-Containing Substrates by Micromycetes Followed by Bioconversion into Biogas].

The ability of micromycetes Trichoderma viride and Aspergillus terreus to decompose the cellulose-containing substrates was studied. Office paper and cardboard, as well as a paper mixture, were found to be the most hydrolyzable. The cellulolytic activity of T. viride was 2-3 times higher than that of A. terreus; the highest values of 0.80 and 0.73 U/mLwere obtained from office paper and the paper mixture, respectively. The micromycete cultivation conditions (composition of culture medium, sucrose cosubstrate addition, seeding method) and the conditions of the fungus biomass treatment for its subsequent bioconversion into biogas by anaerobic microbial communities were optimized. It was shown that pretreatment improves the efficiency of biogas production from lignocellulosic materials under seeding with microbial community of bovine animal manure. After pretreatment of the Jerusalem artichoke phytomass (stems and leaves) and its subsequent bioconversion into biogas by methanogenic community, the biogas yield was increased by 1.5 times.

Effect of Arachidonic Acid on the Rate of Oxygen Consumption in Isolated Cardiomyocytes from Intact Rats and Animals with Ischemic or Diabetic Injury to the Heart.

We studied the rate of oxygen consumption by isolated cardiomyocytes from intact rats and animals with experimental myocardial infarction or streptozotocin-induced diabetes mellitus. The measurements were performed in standard incubation medium under various conditions of oxygenation and after addition of arachidonic acid (20 µmol/liter). Under normoxic conditions, arachidonic acid improves respiration of cardiomyocytes from intact animals, but reduces this parameter in cells isolated from animals with pathologies. The intensity of O2 consumption by cardiomyocytes from intact rats and animals with pathologies was shown to decrease during hypoxia. Addition of arachidonic acid aggravated inhibition of respiration for cardiomyocytes from intact rats and specimens with myocardial infarction, but had no effect in diabetes mellitus. The effect of arachidonic acid on oxygen consumption rate is probably mediated by a nonspecific mechanism realized at the mitochondrial level.

[VOCALIZATIONS OF SEX PARTNERS IN THE HOUSE MOUSE (MUS MUSCULUS)].

Acoustic parameters of the house mouse male and female vocalizations accompanying the sexual behavior were studied. The spectral-temporal analysis of female defensive call and male ultrasound call was carried out for adult house mice--hybrids of outbreed strains CBA and C57B1/6. The principal feature of the female defensive call is its harmonic structure formed by three--five main harmonics with the fundamental frequency about 3 kHz. The major energy of the signal is concentrated below 25 kHz. The basic harmonic structure could be modified by frequency and amplitude modulation or/and.noise. Call duration varied widely from 40 up to 470 ms with the average value of 180 ± 70 ins. The principal feature of male ultrasound vocalization is its low intensity and rareness of noise components. Depending on semantic load of the call, its fundamental frequency averaged 67.3 ± 8.5 or 45.6 ± 3.7 kHz. Male ultrasound vocalizations were shorter than female defensive calls and their duration did not exceed 220 ms. Key words: house mouse, acoustic structure of vocalizations, sexual behavior, sound and ultrasound vocalizations of rodents.

[NEUROPHYSIOLOGIC APPROACHES TO THE STUDY OF FUNCTIONAL ROLE OF THE AUDITORY CRITICAL BANDS].

Neurophysiologic data on participation of the critical band mechanism in sound localization and recognition are presented. Single unit activity was recorded extracellularly-in the central nucleus of inferior colliculus of the house mouse females. First, we studied sensitivity of neurons to acoustic signals simulating spectral localization cues (notch noise with different bandwidths). Comparison of neuron responses depending on notch bandwidths revealed that 1/3 octave notch bandwidths was optimal for the analysis of the localization-significant spectral information. This notch bandwidths corresponded to the critical bandwidths of the auditory midbrain neurons evaluated earlier by the simultaneous masking paradigm. Second, we studied selectivity of neuronal responses to the mouse pups' wriggling call, a set of its models and frequency components. The data obtained showed that models of wriggling call frequency components, located as in natural call, in three non-overlapping critical bands produced stronger neuronal responses than other models. We assume that our finding proves the universal role of the critical bands mechanism in processing different parameters of acoustic stimuli. Key words: inferior colliculus, auditory critical bands, sound source localization, analysis of bioacoustic signals.

Comparative study of changes in energy metabolism in rat cardiomyocytes in postinfarction cardiosclerosis and diabetes mellitus.

Cardiomyocyte energy metabolism in experimental unfolding postinfarction cardiosclerosis and diabetes mellitus was studied. Postinfarction cardiosclerosis formed 6 weeks after coronary artery occlusion. Diabetes mellitus was induced by intraperitoneal injection of streptozotocin (60 mg/kg). The rate of oxygen consumption in postinfarction cardiosclerosis and diabetes increased by 3.4 and 4.2 times, respectively. Stimulation of mitochondrial respiration (ATP, palmitic acid) significantly increased oxygen consumption in animals with postinfarction cardiosclerosis and significantly reduced this process in diabetes. The content of LDH and SDH in the myocardium of animals with diabetes and postinfarction cardiosclerosis was significantly below the control. Hence, the development of postinfarction cardiosclerosis and diabetes mellitus were characterized by reduced generation of ATP in anaerobic and aerobic pathways and oxidative phosphorylation in cardiomyocytes.

[Biogas production by microbial communities via decomposition of cellulose and food waste].

Several active microbial communities that form biogas via decomposition of cellulose and domestic food waste were identified among 24 samples isolated from different natural and anthropogenic sources. The methane yield was 90-260 ml CH4/g from microbial communities grown on cellulose substrates, office paper, and cardboard at 37 degrees C without preprocessing. Under mesophilic conditions, bioconversion of paper waste yields biogas with a methane content from 47 to 63%; however, the rate of biogas production was 1.5-2.0 times lower than under thermophilic conditions. When microbial communities were grown on DFW under thermophilic conditions, the most stable and effective of them produced 230-353 ml CH4/g, and the methane content in biogas was 54-58%. These results demonstrated the significance of our studies for the development of a technology for the biotransformation of paper waste into biogas and for the need of selection of microbial communities to improve the efficiency of the process.

Cell-free collagen-based scaffolds used for making blood vessels in cardiovascular surgery.

The present article deals with the technology of obtaining decellularized cell-free collagen-based scaffolds from arterial vessels and surgical assessment of the possibility of experimentally implanting them into the blood system of laboratory animals for experimental purposes. The study was performed on arterial vessels (n=60) and fragments of the human internal thoracic artery (n=20). Described herein is a method of obtaining a connective-tissue matrix of a blood vessel by means of vessel's perfusion for 2-3 hours with detergent solutions. Cell-free collagen-based conduits were implanted to a total of ten dogs. After the operation, the blood flow remained functional. The anastomoses established turned out to be leak-proof and the acellular vessels were able to withstand the haemodynamic load of the arterial blood flow.