Non-ablative fractional laser treatment for soft oral tissue regeneration
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13.08.2018 |
Shatilova K.
Aloian G.
Karabut M.
Ryabova V.
Tarasenko S.
Lyspak I.
Yaroslavsky I.
Altshuler G.
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Proceedings - International Conference Laser Optics 2018, ICLO 2018 |
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© 2018 IEEE. In this work, we present the first histological ex vivo (porcine gum) and in vivo (human) study of effects of fractional Er fiber laser (wavelength 1550 nm, peak power 25 W) on keratinized gum and alveolar mucosa in oral cavity.
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Mechanisms of LPS-induced acute kidney injury in neonatal and adult rats
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08.08.2018 |
Plotnikov E.
Brezgunova A.
Pevzner I.
Zorova L.
Manskikh V.
Popkov V.
Silachev D.
Zorov D.
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Antioxidants |
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© 2018 by the authors. Licensee MDPI, Basel, Switzerland. Neonatal sepsis is one of the major causes of mortality and morbidity in newborns, greatly associated with severe acute kidney injury (AKI) and failure. Handling of newborns with kidney damage can be significantly different compared to adults, and it is necessary to consider the individuality of an organism’s response to systemic inflammation. In this study, we used lipopolysaccharide (LPS)-mediated acute kidney injury model to study mechanisms of kidney cells damage in neonatal and adult rats. We found LPS-associated oxidative stress was more severe in adults compared to neonates, as judged by levels of carbonylated proteins and products of lipids peroxidation. In both models, LPS-mediated septic simulation caused apoptosis of kidney cells, albeit to a different degree. Elevated levels of proliferating cell nuclear antigen (PCNA) in the kidney dropped after LPS administration in neonates but increased in adults. Renal fibrosis, as estimated by smooth muscle actin levels, was significantly higher in adult kidneys, whereas these changes were less profound in LPS-treated neonatal kidneys. We concluded that in LPS-mediated AKI model, renal cells of neonatal rats were more tolerant to oxidative stress and suffered less from long-term pathological consequences, such as fibrosis. In addition, we assume that by some features LPS administration simulates the conditions of accelerated aging.
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Prospects of electrochemical urea elimination method for wearable 'artificial kidney'
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13.06.2018 |
Bazaev N.
Zhilo N.
Grinval'D V.
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Proceedings - 2018 Ural Symposium on Biomedical Engineering, Radioelectronics and Information Technology, USBEREIT 2018 |
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© 2018 IEEE. The work is focused on the research of urea elimination possibilities out of the waste dialysis solution by its electro-oxidation on the surface of platinum group metals and carbon materials. The work includes findings of experimental tests of various electrode materials for the specific urea elimination rate in a model solution.
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Comparative Study of the Severity of Renal Damage in Newborn and Adult Rats under Conditions of Ischemia/Reperfusion and Endotoxin Administration
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01.06.2018 |
Pevzner I.
Pavlenko T.
Popkov V.
Andrianova N.
Zorova L.
Brezgunova A.
Zorov S.
Yankauskas S.
Silachev D.
Zorov D.
Plotnikov E.
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Bulletin of Experimental Biology and Medicine |
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© 2018, Springer Science+Business Media, LLC, part of Springer Nature. Oxidative kidney injury was compared in newborn and adult rats under conditions of ischemia/reperfusion and in experimental model of systemic inflammation induced by endotoxin (LPS of bacterial cell wall) administration. Oxidative stress in the kidney accompanied both experimental models, but despite similar oxidative tissue damage, kidney dysfunction in neonates was less pronounced than in adult animals. It was found that neonatal kidney has a more potent regenerative potential with higher level of cell proliferation than adult kidney, where the level proliferating cell antigen (PCNA) increased only on day 2 after ischemia/reperfusion. The pathological process in the neonatal kidney developed against the background of active cell proliferation, and, as a result, proliferating cells could almost immediately replace the damaged structures. In the adult kidney, regeneration of the renal tissue was activated only after significant loss of functional nephrons and impairment of renal function.
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Perspective nerve conduits for stimulation of regeneration of damaged peripheral nerves
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01.01.2018 |
Miroshnikova P.
Lyundup A.
Batsalenko N.
Krasheninnikov M.
Zhang Y.
Feldman N.
Beregovykh V.
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Vestnik Rossiiskoi Akademii Meditsinskikh Nauk |
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© 2018 Izdatel'stvo Meditsina. All Rights Reserved. Nerve damage is a common severe trauma caused by a complete or partial disruption of the integrity of the nerve trunk and appropriate dissociation of the CNS and denervated tissue. «Golden standard» in the treatment of extensive injuries of peripheral nerves is the use of autografts of nerve fibers, but when they are used, pathological disturbances appear in the donor zone and the results of surgical treatment are not always satisfactory. Currently, an alternative to the traditional method is the use of nerve conduits (conductors) for directed regeneration of axons. In this work, the results of the application of nerve conductors from various materials and with various biologically active components in preclinical and clinical studies, as well as conduits used in clinical practice, were analyzed. The efficiency of regeneration was compared, on the basis of the analysis the conductor most suitable for successful nerve regeneration was selected, including approaches for creating innervated tissue engineered constructs. In this work, we have collected research on nerve conductors from various materials with various prescribed properties using certain factors used to treat damage to the peripheral nervous system, showing all the advantages and disadvantages of their use, which makes it possible to develop and create a conduit that meets all the requirements of modern regenerative medicine.
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Investigation of regenerative and tissue-specific activity of total RNA of bone marrow cells
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01.01.2018 |
Gonikova Z.
Nikolskaya A.
Kirsanova L.
Shagidulin M.
Onishchenko N.
Sevastyanov V.
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Vestnik Transplantologii i Iskusstvennykh Organov |
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© 2018 Russian Transplant Society. All rights reserved. Aim. To establish the ability of the total RNA extracted from the body’s bone marrow cells (BMCs), in which liver tissue was damaged, to serve as a carrier of targeted regenerative signals to this organ. Materials and methods. By method of adoptive transfer in rats (n = 37) the mitotic and proliferative activity of liver and kidney cells were studied in intact recipients after intraperitoneal injection: the mononuclear BMCs – 2,5×106; 5,0×106; 3,5×107 cells – group 1 and the total RNA of the same BMCs (30μg/100g of weight) – group 2 from donors in 12 hours after 70–75% of hepatectomy; in group 3 (control), a saline solution was injected. RNA from BMCs was extracted by the method developed by the «Evrogen» firm (Russia) with the reagent Extract RNA. Results. In group 2 in 48 and 72 h. there was the increasing of mitotic and proliferative cell activity in the liver, but not in the kidneys (control of the specificity of regenerative signals); in group 1 there was no transfer of regenerative signals to these organs. Conclusion. The authors believe that the total RNA from BMCs, activated by hepatectomy, accumulates targeted (hepatospecific) regeneration signals, but they are perceived only when RNA has been obtained by the damaged tissue.
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New local haemostatic technologies in surgical practice
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01.01.2018 |
Alekseyeva G.
Chilova R.
Kolobaev I.
Kukes V.
Vechorko V.
Tarasov I.
Proklova G.
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Voprosy Ginekologii, Akusherstva i Perinatologii |
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© 2018 Dynasty Publishing House. All rights reserved. One of the most important tasks of clinical medicine is to stop bleeding as soon as possible. Despite the broad spectrum of modern haemostatic materials, the available local blood-stopping products are not without certain limitations and shortcomings when used in various clinical situations. The article discusses the potential of «Polygemostat», a Russian haemostatic for external and local use, which simultaneously has an antiseptic and wound-healing effect.
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The technology of laser fabrication of cell 3D scaffolds based on proteins and carbon nanoparticles
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01.01.2018 |
Gerasimenko A.
Zhurbina N.
Kurilova U.
Polokhin A.
Ryabkin D.
Savelyev M.
Suetina I.
Mezentseva M.
Ichkitidze L.
Ignatov D.
Garcia-Ramirez M.
Guzman Gonzalez J.
Podgaetsky V.
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Proceedings of SPIE - The International Society for Optical Engineering |
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© 2018 SPIE. The technology of cell 3D scaffolds laser fabrication is developed. 3D scaffolds are designed to repair osteochondral defects, which are poorly restored during the organism's life. The technology involves the use of an installation, the laser beam of which moves along a liquid nanomaterial and evaporates it layer by layer. Liquid nanomaterial consists of the water-protein (collagen, albumin) suspension with carbon nanoparticles (single-walled carbon nanotubes). During laser irradiation, the temperature in the region of nanotubes defects increases and nanotubes are combined into the scaffold. The main component of installation is a continuous laser operating at wavelengh of 810 nm. The laser beam moves along 3 coordinates, which makes it possible to obtain samples of the required geometric shape. The internal and surface structure of the samples at the micro- A nd nanoscale levels were studied using the X-ray microtomography and scanning electron microscopy. In vitro studies of cell growth during 48 and 72 hours demonstrated the ability of cell 3D scaffolds to support the proliferation of osteoblasts and chondroblasts. Using fluorescence and atomic force microscopy, it was found that the growth and development of cells on a sample with a larger concentration of nanotubes occurred faster compared to samples with a smaller concentration of nanotubes.
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Low-invasive reconstruction of spine discs under thermo-mechanical effect of fiber laser
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01.01.2018 |
Sobol E.
Baskov A.
Borshchenko I.
Shekhter A.
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Progress in Biomedical Optics and Imaging - Proceedings of SPIE |
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© COPYRIGHT SPIE. The paper considers physical processes and mechanisms of laser reparation of spine cartilage, presents results of investigations aimed to optimize laser settings and to develop feedback control system for laser reconstruction of spine discs. Possible mechanisms of laser-induced regeneration include: (1) Space and temporary modulated laser beam induces non-homogeneous and pulse repetitive thermal expansion and stress in the irradiated zone of cartilage. Mechanical effect due to controllable thermal expansion of the tissue and micro and nano gas bubbles formation in the course of the moderate (up to 50 °C) heating of the NP activate biological cells (chondrocytes) and promote cartilage regeneration. (2) Non-destructive laser radiation leads to the formation of nano and micro-pores in cartilage matrix in the in the immediate vicinity of chondrocytes. That promotes water permeability and increases the feeding of biological cells. Results provide the scientific and engineering basis for the novel low-invasive laser procedures to be used in neurosurgery and orthopedics for the treatment cartilages of spine. The technology and equipment for laser reconstruction of spine discs have been tested first on animals, and then in a clinical trial. Since 2001 the laser reconstruction of intervertebral discs have been performed (i) for more than 3,200 patients with chronic symptoms of low back or neck pain who failed to improve with non-operative care; and (ii) for 1100 patients underwent hernia removal surgery. Substantial relief of back pain was obtained in 92.5% of patients treated who returned to their daily activities. LRD allowed also to decrease secondary surgeries more than three times. Optical fiber technique based on light scattering measurements have been used to promote safety and efficacy of the laser procedures.
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Native and Activated Hepatic Stellate Cells Stimulate Liver Regeneration in Rats After Partial Hepatectomy and 2-Acetylaminofluorene Injection
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Шахмарданова С.А.
Замятнин А. А.
Несвижский Юрий Владимирович
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BioNanoScience |
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One the current challenges of modern hepatology is to find new approaches to stimulate liver regeneration and to find new methods for liver disease treatment. Cell therapies, which are based on using regional stem cells for disease treatment, are under active development. However, studies, devoted to their transplantation, are currently scarce. In recent years, hepatic stellate cells are considered to be hepatic stem cells. It is known that activated hepatic stellate cells can transdifferentiate into myofibroblasts and lead to liver fibrosis. The aim of our work was to study the influence of native and activated hepatic stellate cells in vivo by lead nitrate injection after transplantation into partial hepatectomized rats, which is considered to be a classical model to study liver regeneration. Injection of 2-acetylaminofluorene (AAF), which selectively eliminates hepatocyte proliferation, was used to understand the hepatic stellate cells role in liver regeneration process better. Our results suggest that transplanted native and activated hepatic stellate cells can differentiate into hepatocyte-like cells and positively influence liver regeneration without inducing liver fibrosis.
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Публикация |
Native and Activated Hepatic Stellate Cells Stimulate Liver Regeneration in Rats After Partial Hepatectomy and 2-Acetylaminofluorene Injection
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Шахмарданова С.А. (Доцент)
Замятнин А. А. (Директор)
Несвижский Юрий Владимирович (Профессор)
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BioNanoScience |
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One the current challenges of modern hepatology is to find new approaches to stimulate liver regeneration and to find new methods for liver disease treatment. Cell therapies, which are based on using regional stem cells for disease treatment, are under active development. However, studies, devoted to their transplantation, are currently scarce. In recent years, hepatic stellate cells are considered to be hepatic stem cells. It is known that activated hepatic stellate cells can transdifferentiate into myofibroblasts and lead to liver fibrosis. The aim of our work was to study the influence of native and activated hepatic stellate cells in vivo by lead nitrate injection after transplantation into partial hepatectomized rats, which is considered to be a classical model to study liver regeneration. Injection of 2-acetylaminofluorene (AAF), which selectively eliminates hepatocyte proliferation, was used to understand the hepatic stellate cells role in liver regeneration process better. Our results suggest that transplanted native and activated hepatic stellate cells can differentiate into hepatocyte-like cells and positively influence liver regeneration without inducing liver fibrosis.
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Публикация |