[Restorative capability of traditional Chinese medicine in autoimmune diseases of nervous system: a literature review]. / Vosstanovitel'nyi potentsial traditsionnoi kitaiskoi meditsiny pri autoimmunnykh zabolevaniyakh nervnoi sistemy: obzor literatury.

Autoimmune diseases of the nervous system are characterized by the formation of pronounced neurological deficiency and often lead to disability. Complementary medicine as an adjuvant or preventive therapy of various diseases, including autoimmune ones, is increasingly attracting the attention of doctors and researchers. Traditional Chinese medicine (TCM) has a complex of treatment methods, including acupuncture, phytotherapy, nutrition, physical exercises and other methods that are often used in common with the recognized approaches of the official medical science. The article describes the TCM methods application in autoimmune diseases of nervous system, presents the practical experience of using acupuncture, phytotherapy, diet, physical exercises. It was concluded that TCM is important and frequently underestimated health care resource, especially in prevention and treatment of autoimmune diseases of nervous system.

[Correlation of functional state of dental system and emotional stress in young adults]. / Vzaimosviaz' funktsional'nogo sostoianiia zubocheliustnoi sistemy i psikhoémotsional'nogo napriazheniia u lits molodogo vozrasta.

The aim of the study was to evaluate correlation of dental system functional status and emotional stress level in young adults. The study involved 164 patients aged 20-25 years. TMJ dysfunction was diagnosed according to M. Ahlers and H. Jakstat criteria (2000). All patients underwent electromyography (EMG) of mastication muscles at rest and by functional test. Emotional stress and anxiety were assessed by Holmes and Rahe stress scale, Jakhin-Mendeleevich clinical questionnaire and State-Trait Anxiety Inventory. The study revealed correlation between EMG activity of masticatory muscles and emotional stress level highlighting the importance of stress assessment in TMJ dysfunction planning.

[Apoptosis and neutrophils on the regulation of proliferation and differentiation ex vifo of myeloid cells with Ph-chromosome].

Human myeloid cells with Ph chromosome (Ph+ cells) from chronic myeloid leukemia (CML) in the course of proliferation and differentiation ex vivo are regulated under alternation of cell proliferation and neutrophil maturation stages by consecutive blocking and inducing apoptosis with of neutrophils participation as well bcr/abl, bax and bcl2 genes expression. Apoptosis regulation of three main Ph+ cells types from CML patients depends on alternation sequences of proliferation (1) and maturation (2) cell stages and realized by two ways. The first one is performed by consecutive blocking and inducing apoptosis under 2/1/2 stage alternation. The way is not described early. Neutrophils accumulation correlates with apoprosis blocking. Apoptosis level enhances under neutrophils exhausted. Apoptosis blockage allows cells to proliferate and, thus, to form new portion of neutrophils with consecutive regular their death as well a consequent alternation of apoptosis blocking and inducing. This way regulates proliferation efficiency indexes P/D that reflect Ph+ cells proliferating potential and performs cycle completion for proliferation and differentiation. The second way of apoptosis regulation starts from proliferation stage and performs for 1/2/1 alternations under diminished content of neutrophils and a little increase under next maturation. It leads to resistant depressed apoptosis levels that, at maximal points, are 3-8 times lower than those under alternation 2/1/2. Resistant apoptosis blocking is observed in the Ph+ cells with prolong proliferation or maturation stages, when blasts and myelosytes are accumulated under enhanced bcr/abl and bcl2 > box gene expression and remain under next maturation. Stable apoptosis blocking is accompanied by increasing amounts of blasts and myelocytes and enhancing bcr/abl and bcl 2 > bax expression. This is observed under CML progression. Ph+ cells cultivation may be useful for more distinct diagnostics of CML phases of individual CML patients and optimization of the treatment.

Gene Expression upon Proliferation and Differentiation of Hematopoietic Cells with Ph Chromosome ex vivo.

The genesp53, mdm2, p21, c-myc,bcr/abl, bcr, bcl2, bax, and gapdh participate in the regulation of cell proliferation and differentiation, apoptosis and cell distribution for the cell cycle ex vivo in the Ph(+)cells of chronic myeloid leukemia containing the Ph chromosome andbcr/abloncogene. Expression of these genes correlates with regulation of cell proliferation and differentiation by alternating proliferation and maturation stages for three main Ph+cell types that occur under chronic myeloid leukemia. Thep53, p21, mdm2, and gapdh genes overexpress in active proliferating myeloid cells in the cell cycle S+ G2/M phases and when the phases are coincident with the proliferation stage. Expression of these genes decreases to a considerable level under alternation of the Ph(+)cell proliferation and maturation stages and whenever the expression is greatly diminished under significant neutrophil accumulation and especially under repeated alternation of the stages. In the course of neutrophil maturation, gene expression levels decrease in the range of gapdh > actin > c-myc, bcr/abl,p21 > p53 > bcl2 > bax.The expression levels of these genes in neutrophils are lower than those in myelocytes and lower by an order of magnitude than that in the cells with a prolonged proliferation stage. TheBcr/ablexpression gene under prolonged maturation and neutrophil accumulation is inhibited; however it is enhanced by 2-3 times for the proliferation stage with myelocyte accumulation. Minimalbcr/ablexpression is observed under overexpression ofp53, mdm2, p21, c-myc,as well as under cell maximum at the S and G2/M phases. Bcr/abloverexpression is observed under low expression of thep53, p21, mdm2genes. In the Ph(+ )cells with a high P/D efficiency index (5-20), overexpression of the genes in the range ofbcr> gapdh>bcr/abl, as well as a decreased expression of thep53, bcl2, mdm2, p21<< gapdh genes is observed for Ph(+)cells from the CML blast crisis and CML acceleration phase. Low control of cell proliferation and cell cycle by gene-regulators presumably promotesbcr/abloverexpression and activаtes the production ofbcr/abl+ cells. Apoptosis in the Ph(+ )cells is induced by expression of thebax > bcl2, р53, p21, c-myc andgapdhgenes. The blocking of Ph(+)cell apoptosis, neutrophil accumulation, and decrease in the expression of the p53, mdm2 and p21, c-myc,bcr/abl genes occur at the maturation stage.

[Electrometric study of hard dental tissues of the patients with chronic inflammatory kidney diseases].

The electrometric study of the hard dental tissues of patients with chronic inflammatory kidney diseases was carried out. The significant changes in the properties of the hard dental tissues were detected in the patients. The electrometric indicators exceeded the norm in all teeth. The most differences were determined in the fourth teeth (first premolars).

Cell Regulation of Proliferation and Differentiation ex vivo for Cells Containing Ph Chromosome in Chronic Myeloid Leukemia.

Cell regulation of Ph(+)cell proliferation and differentiation has been studied ex vivo in various chronic myeloid leukemia (CML) patients. The regulation is provided by alternation of effective stages of proliferation and maturation with inhibition of Ph(+) cell proliferation by accumulating neutrophils under apoptosis blockage. The alternation of stages consists of switching stage 1 (effective proliferation) to stage 2 (effective maturation) and proceeds according to the 1/2 -1/2/1 or 2/1-2/1/2/1 schemes. The kinetic plots of alternations pass through control points of crossing plots, where the parameters of proliferation and maturation are equal. The indices of P/D efficiency (ratio of proliferation and maturation rates) are 1.06±0.23 and don't depend on time, alternation order, or sources of Ph(+) cells - CML patients. During stages alternation, conversely, the parameters of Ph+ cell proliferation and maturation vary. The proliferation stages are characterized by increased proliferating cells content, a decreased number of neutrophils, and apoptosis induction. At the maturation stages, conversely, apoptosis is inhibited, the number of mature neutrophils increases, while immature Ph(+) cells decrease. High content neutrophils inhibit the proliferation of Ph(+) cells and impair their own maturation by inversion of maturation order, probably through a feedback mechanism. The regulation differences ex vivo reveal three types of Ph(+) cells from various individual CML patients, distinguished by the number and duration of alternating stages of proliferation and maturation. Ph(+) cells types 1 and 2 have one prolonged stage of effective proliferation or effective maturation with efficiency indices P/D(1) = 1-20 or P/D(2) ⇐ 1. At the same time period, the proliferation and differentiation of the Ph(+) cells type 3 proceeds with repeated alternations of stages with P/D(1) = 1-4 or P/D(2) ⇐ 1. Type 1 Ph(+) cells (~20%) were isolated from patients in advanced stages of CML, while Ph(+) cells types 2 and 3 (30 and 50% correspondingly) were isolated from CML chronic phase patients sensitive to chemotherapy.

[Kinetics of proliferation, differentiation and transcription of genes regulating apoptosis in cultured human BCR/ABL+ Ph+-cells].

Ph+, bcr/abl+ cells arise due to t(9,22) chromosome translocation and Ph+ chromosome formation in hematopoietic stem cells. The cells show appreciable apoptosis suppression but retain their ability to differentiate and maturate. Ph chromosome, bcr/abl oncogene and Ph+, bcr/abl+ cells themselves are the hallmark of chronic myeloid leukemia. Under leukemia progression differentiating Ph+, bcr/abl+ cells transform into leukemic malignant cells with differentiation block. It is assumed to be a result of subsequent mutations or activation of proliferation of long silent Ph+ cells arisen previously in the stem cells because of the translocation. Real mechanism underlying the cell transformation remains unknown. This work was performed to develop a proper cell model allowing us to study functioning of differentiating Ph+, bcr/abl+ cells and their real transformation into malignant cells with block of differentiation. For this purpose we have investigated kinetics of Ph+, bcr/abl+ cells proliferation, differentiation, cell death and transcription of antiapoptotic genes in cultured 14-day of Ph+ mononuclear cells isolated from peripheral blood of a patient in chronic phase of chronic myeloid leukemia before treatment. The results obtained revealed that Ph+ cell differentiation proceeded in accord with characteristic scheme of chronic myeloid leukemia in vivo. Myeloid cells of hematopoietic cell lineage amounted to 3/4 of live Ph+ mononuclear cells undergoing accumulation and subsequent consumption in the course of differentiation. 95% myeloid cells were differentiating Ph+ granulocytes. The most deal of differentiating Ph+ cells was myelocytes. The rate ratio of myelocyte accumulation to its subsequent consumption showed that the rate of transformation into metamyelocytes was significantly decreased at this differentiation stage. Ph+ cells cultivation curves characterized cell death at different differentiation stages. There were observed the cell death of proliferating Ph+ cells and Ph+ myelocytes, and intensive death of mature cells as well. P/D index, that is ratio of immature Ph+ granulocytes differentiated by cell dividing (blasts, promyelocytes and myelocytes) to the cells differentiated without dividing (metamyelocytes and mature neutrofiles), revealed active of proliferation at the beginning of cultivation and unexpected new proliferative activity at the end of cultivation in the presence of growth factor. The peaks of antiapoptotic bcr/abl gene transcription activity coincided with the observed active proliferation at the beginning and at the end of cultivation. Cell proliferation, differentiation and apoptosis were noticeably accelerated by growth factor treatment. Thus, the study of the Ph+ cells cultivation kinetics is rather informative approach to investigation of continuous regulation of cellular and molecular processes in vitro in the case of chronic myeloid leukemia and allows more complete consideration of Ph+, bcr/abl+ cells hematopoiesis.

Early and late hemopoietic precursor cells in patients with chronic myeloproliferative diseases.

We evaluated the content of early and late cobblestone area-forming cells, immediate progeny of hemopoietic stem cells, and committed precursor cells in the bone marrow and peripheral blood of patients with chronic myeloproliferative diseases and healthy donors. In patients with essential thrombocythemia, the number of late cobblestone area-forming cells in the peripheral blood decreased, while other parameters did not differ from those in healthy donors. In patients with idiopathic myelofibrosis, we found a decreased number of late and early cobblestone area-forming cells in the bone marrow and late cobblestone area-forming cells in the peripheral blood, while the count of early cobblestone area-forming cells in the peripheral blood increased. In patients with chronic myeloid leukemia, the number of early cobblestone area-forming cells in the bone marrow decreased, but the count of late and early cobblestone area-forming cells in the peripheral blood increased. The number of endogenous committed precursor cells in the peripheral blood increased in all groups of patients with chronic myeloproliferative diseases and, particularly, in patients with idiopathic myelofibrosis and chronic myeloid leukemia. Functional characteristics of immediate descendants of hemopoietic stem cells probably reflect the level of damage and attest to the existence of various mechanisms underlying the defect of the hemopoietic stem cell during chronic myeloproliferative diseases.

In vivo production of cytokines by bone marrow stromal cells and macrophages from patients with myelodysplastic syndrome.

We studied functional disturbances in hemopoietic microenvironment and cytokine production by stromal sublayer in long-term bone marrow cultures and peripheral blood macrophages from patients with various forms of myelodysplastic syndrome. Production of factors stimulating the growth of normal erythroid and granulocytic precursors by cells of the stromal sublayer from patients with refractory sideroblast anemia and refractory anemia with excess blasts is impaired compared to cells from healthy donors. The medium conditioned by macrophages from patients with chronic myelomonocytic leukemia displayed a higher ability to stimulate the growth of granulocytes and macrophages compared to media conditioned by cells from donors and patients with refractory sideroblast anemia and refractory anemia with excess blasts. Cultured stromal cells and macrophages produced tumor necrosis factor-alpha and interleukin-6. Their content in media conditioned by cells from patients with myelodysplastic syndrome surpassed that in healthy donors. Our results suggest that production of cytokines by stromal microenvironmental cells is impaired in patients with various forms of myelodysplastic syndrome.

Lifelong hematopoiesis in both reconstituted and sublethally irradiated mice is provided by multiple sequentially recruited stem cells.

OBJECTIVE: To evaluate the dynamics of stem cell production to hematopoiesis, the number of active stem cell clones and the lifespan of individual clones were studied. MATERIALS AND METHODS: The clonal contribution of primitive hematopoietic stem cells (HSC) responsible for long-term hematopoiesis was determined using two approaches. In one model, irradiated female mice were reconstituted with retrovirally marked male hematopoietic cells. In the second model, mice were irradiated sublethally without hematopoietic cell transplantation. In both models, bone marrow cells were serially sampled from the same mouse throughout a 12- to 20-month period and injected into irradiated recipients for analysis of day 10 colony-forming unit-spleen (CFU-S). The donor origin of CFU-S was determined by the presence of retrovirally marked cells or cells with chromosomal aberrations. RESULTS: The results of the two essentially different models show that 1) hematopoiesis is mainly the product of small clones of hematopoietic cells; 2) the lifespan of the majority of clones is only 1 to 2 months; 3) the clones usually function locally; and 4) the vast majority of the clones replace one another sequentially. Primitive HSCs capable of producing long-lived clones (about 10% among all clones), which exist during the entire life of a mouse, were detected by the radiation-marker technique only. CONCLUSION: Multiple short-living clones (at least on the level of CFU-S production) comprise the vast majority of the active stem cells in transplanted recipients or after endogenous recovery from sublethal irradiation.

Changes in the hemopoietic system of mice deficient for tumor necrosis factor or lymphotoxin-alpha.

Hemopoietic and stromal precursor cells were studied in mice deficient for tumor necrosis factor or lymphotoxin-alpha. In normal hemopoiesis the main characteristics of hemopoiesis in knockout mice did not differ from those in wild-type mice. Implantation of bone marrow cells from mice deficient for tumor necrosis factor onto irradiated sublayer of a long-living bone marrow culture led to a notable increase in the number of mature cells and granulocytic-macrophage precursor cells. This can be due to the fact that tumor necrosis factor inhibits proliferation of hemopoietic precursor cells, while in the absence of this factor precursor cells actively proliferate. On the other hand, cell composition and number of colony-forming units of granulocytes-macrophages are significantly decreased in cultures onto which bone marrow cells from lymphotoxin-alpha-deficient mice were implanted. This can be explained by impaired expression of adhesion molecules in these animals. In addition, the number of stromal precursor cells was changed in mice deficient by genes of the tumor necrosis factor cluster.

[The collective immunity of the population of the city of Kyïv and Kyïv Province to poliomyelitis]. / Izuchenie kollektivnogo immuniteta naseleniia g. Kieva i Kievskoi oblasti k poliomielitu.

The state of collective immunity to poliomyelitis has been studied for the population of the city of Kyïv and Kyïv Province. Insufficient safeguard of the examined quota from this infection has been shown. Special anxiety is caused by low indices of immunity to type III poliovirus. The expediency of revaccination of adult population is indicated.

[The functional classification of velopharyngeal closure after uranoplasty]. / Funktsional'naia klassifikatsiia nebno-glotochnogo smykaniia posle uranoplastiki.

The new nasopharyngoscopic functional classification of palatopharyngeal joining is based on the results of examinations of 57 children with congenital uranoschisis after uranoplasty and 19 healthy children aged 5 to 14 years by nasopharyngoendoscopy. The classification defines the causes of palatopharyngeal insufficiency and for the first time takes into consideration the disagreement between the palatopharyngeal lock and articulation. The proposed classification helps select the most effective method of rehabilitation of the above patient population and helps follow up the time course of changes in the function of the palatopharyngeal lock under the effect of treatment.

[Programmed multichannel bioelectrical management in the treatment of children with secondary osteoarthrosis deformans of the temporomandibular joint under computed tomographic control]. / Programmnoe mnogokanal'noe bioélektricheskoe upravlenie v lechenii detei s vtorichnym deformiruiushchim osteoartrozom visochno-nizhnecheliustnogo sustava pod kontrolem komp'iuternoi tomografii.

Programmed multichannel bioelectrical regulation was used in the treatment of 19 children aged 5 to 14 with osteoarthrosis deformans of the temporomandibular joint. The treatment resulted in amelioration of the joint function in all the patients: opening of the mouth increased by an average of 7.5 mm, the volume and density of the lateral and medial pterygoid muscles increased, and the density of osseous tissue of the joint process decreased.

[Alloimmune neutropenia in newborns]. / Alloimmunnaia neitropeniia novorozhdennykh.

Investigations were conducted in 4 infants with alloimmune neutropenia caused by leuko-agglutinins (2 cases) and granulo-cytotoxins (2 cases) detected in the mothers' and infants' sera. Anti-granulocytic antibodies reacted with granulocytes of the child and father but did not react with the mother's own cells. A more severe clinical course (repeated pyo-inflammatory diseases, sepsis) was recorded in infants with alloimmune neutropenia caused by granulo-cytotoxins, alloimmune neutropenia was characterized by disorders in neutrophil phagocytic activity (mainly, due to decreased digestive capacity of cells), inhibition of colony-forming capacity of precursor-cells of granulocytopoiesis; a tendency to T-lymphocytopenia was noted during the study of cellular immunity parameters. Prognosis was favourable in all the cases of neutropenia. The maximum term of neutropenia duration was 6 months. The catamnesis has shown that the development of the infants is normal and they fall ill not often.

[Evaluation of hematopoietic and stromal cells-precursors in children with neutropenia]. / Otsenka krovetvornykh i stromal'nykh kletok-predshestvennikov pri neitropeniiakh u detei.

The content of hemopoietic and stromal precursor-cells was studied in the bone marrow of 46 children with congenital neutropenia and of 2 children with chronic benign neutropenia. It was found that the number of GM-CFC and F-CFC in the bone marrow of patients with chronic benign neutropenia did not differ from that in the control group of normal children, and the lowering of the neutrophil number in the blood was, probably, associated with their redistribution mechanism or increased destruction in the body. Multiple defects of hemopoietic and stromal tissue were detected in children with a hereditary form of congenital neutropenia when anomalous proliferation of F-CFC and disorders in GM-CFC differentiation led to hypoplasia of granulocytic growth stem and neutropenia.

[The anthropometric and functional characteristics of the nasal cartilage in children with congenital cleft upper lip and palate in the late period following rhinocheilopasty]. / Antropometricheskaia i funktsional'naia kharakteristika khriashchevogo otdela nosa u detei s vrozhdennymi rasshchelinami verkhnei guby i neba v otdalennye sroki posle rinokheiloplastiki.

Based on anthropometric measurements, a classification of the severity of secondary deformations of the nasal cartilagenous portion of the nose in children with cleft lip and palate is suggested; cheiloplasty was carried out by various methods in these children 6 to 24 months prior to measurements. Working schemes of these disorders are given and regularities in the development of secondary deformations established.

[Precursor cells of the granulomonocytopoiesis in children with immune neutropenia]. / Kletki-predshestvenniki granulomonotsitopoéza u detei s immunnoi neitropeniei.

The study of precursor cells of granulocytes and macrophages has shown that in children with immune neutropenia the higher division of granulopoiesis-committed precursor cells is not affected, while the defect is localized in the periphery of hemopoiesis, and it is induced by increased destruction of neutrophils.