Acute IL-1RA treatment suppresses the peripheral and central inflammatory response to spinal cord injury
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01.12.2021 |
Yates A.G.
Jogia T.
Gillespie E.R.
Couch Y.
Ruitenberg M.J.
Anthony D.C.
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Journal of Neuroinflammation |
10.1186/s12974-020-02050-6 |
0 |
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© 2021, The Author(s). Background: The acute phase response (APR) to CNS insults contributes to the overall magnitude and nature of the systemic inflammatory response. Aspects of this response are thought to drive secondary inflammatory pathology at the lesion site, and suppression of the APR can therefore afford some neuroprotection. In this study, we examined the APR in a mouse model of traumatic spinal cord injury (SCI), along with its relationship to neutrophil recruitment during the immediate aftermath of the insult. We specifically investigated the effect of IL-1 receptor antagonist (IL-1RA) administration on the APR and leukocyte recruitment to the injured spinal cord. Methods: Adult female C57BL/6 mice underwent either a 70kD contusive SCI, or sham surgery, and tissue was collected at 2, 6, 12, and 24 hours post-operation. For IL-1RA experiments, SCI mice received two intraperitoneal injections of human IL-1RA (100mg/kg), or saline as control, immediately following, and 5 hours after impact, and animals were sacrificed 6 hours later. Blood, spleen, liver and spinal cord were collected to study markers of central and peripheral inflammation by flow cytometry, immunohistochemistry and qPCR. Results were analysed by two-way ANOVA or student’s t-test, as appropriate. Results: SCI induced a robust APR, hallmarked by elevated hepatic expression of pro-inflammatory marker genes and a significantly increased neutrophil presence in the blood, liver and spleen of these animals, as early as 2 hours after injury. This peripheral response preceded significant neutrophil infiltration of the spinal cord, which peaked 24 hours post-SCI. Although expression of IL-1RA was also induced in the liver following SCI, its response was delayed compared to IL-1β. Exogenous administration of IL-1RA during this putative therapeutic window was able to suppress the hepatic APR, as evidenced by a reduction in CXCL1 and SAA-2 expression as well as a significant decrease in neutrophil infiltration in both the liver and the injured spinal cord itself. Conclusions: Our data indicate that peripheral administration of IL-1RA can attenuate the APR which in turn reduces immune cell infiltration at the spinal cord lesion site. We propose IL-1RA treatment as a viable therapeutic strategy to minimise the harmful effects of SCI-induced inflammation.
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Determining the sex-specific distributions of average daily alcohol consumption using cluster analysis: is there a separate distribution for people with alcohol dependence?
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01.12.2021 |
Jiang H.
Lange S.
Tran A.
Imtiaz S.
Rehm J.
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Population Health Metrics |
10.1186/s12963-021-00261-4 |
0 |
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Background: It remains unclear whether alcohol use disorders (AUDs) can be characterized by specific levels of average daily alcohol consumption. The aim of the current study was to model the distributions of average daily alcohol consumption among those who consume alcohol and those with alcohol dependence, the most severe AUD, using various clustering techniques. Methods: Data from Wave 1 and Wave 2 of the National Epidemiologic Survey on Alcohol and Related Conditions were used in the current analyses. Clustering algorithms were applied in order to group a set of data points that represent the average daily amount of alcohol consumed. Gaussian Mixture Models (GMMs) were then used to estimate the likelihood of a data point belonging to one of the mixture distributions. Individuals were assigned to the clusters which had the highest posterior probabilities from the GMMs, and their treatment utilization rate was examined for each of the clusters. Results: Modeling alcohol consumption via clustering techniques was feasible. The clusters identified did not point to alcohol dependence as a separate cluster characterized by a higher level of alcohol consumption. Among both females and males with alcohol dependence, daily alcohol consumption was relatively low. Conclusions: Overall, we found little evidence for clusters of people with the same drinking distribution, which could be characterized as clinically relevant for people with alcohol use disorders as currently defined.
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The mystery of claustral neural circuits and recent updates on its role in neurodegenerative pathology
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01.12.2021 |
Nikolenko V.N.
Rizaeva N.A.
Beeraka N.M.
Oganesyan M.V.
Kudryashova V.A.
Dubovets A.A.
Borminskaya I.D.
Bulygin K.V.
Sinelnikov M.Y.
Aliev G.
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Behavioral and Brain Functions |
10.1186/s12993-021-00181-1 |
0 |
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Introduction: The claustrum is a structure involved in formation of several cortical and subcortical neural microcircuits which may be involved in such functions as conscious sensations and rewarding behavior. The claustrum is regarded as a multi-modal information processing network. Pathology of the claustrum is seen in certain neurological disorders. To date, there are not enough comprehensive studies that contain accurate information regarding involvement of the claustrum in development of neurological disorders. Objective: Our review aims to provide an update on claustrum anatomy, ontogenesis, cytoarchitecture, neural networks and their functional relation to the incidence of neurological diseases. Materials and methods: A literature review was conducted using the Google Scholar, PubMed, NCBI MedLine, and eLibrary databases. Results: Despite new methods that have made it possible to study the claustrum at the molecular, genetic and epigenetic levels, its functions and connectivity are still poorly understood. The anatomical location, relatively uniform cytoarchitecture, and vast network of connections suggest a divergent role of the claustrum in integration and processing of input information and formation of coherent perceptions. Several studies have shown changes in the appearance, structure and volume of the claustrum in neurodegenerative diseases, such as Parkinson’s disease (PD), Alzheimer’s disease (AD), autism, schizophrenia, and depressive disorders. Taking into account the structure, ontogenesis, and functions of the claustrum, this literature review offers insight into understanding the crucial role of this structure in brain function and behavior.
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The mystery of claustral neural circuits and recent updates on its role in neurodegenerative pathology
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01.12.2021 |
Nikolenko V.N.
Rizaeva N.A.
Beeraka N.M.
Oganesyan M.V.
Kudryashova V.A.
Dubovets A.A.
Borminskaya I.D.
Bulygin K.V.
Sinelnikov M.Y.
Aliev G.
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Behavioral and Brain Functions |
10.1186/s12993-021-00181-1 |
0 |
Ссылка
Introduction: The claustrum is a structure involved in formation of several cortical and subcortical neural microcircuits which may be involved in such functions as conscious sensations and rewarding behavior. The claustrum is regarded as a multi-modal information processing network. Pathology of the claustrum is seen in certain neurological disorders. To date, there are not enough comprehensive studies that contain accurate information regarding involvement of the claustrum in development of neurological disorders. Objective: Our review aims to provide an update on claustrum anatomy, ontogenesis, cytoarchitecture, neural networks and their functional relation to the incidence of neurological diseases. Materials and methods: A literature review was conducted using the Google Scholar, PubMed, NCBI MedLine, and eLibrary databases. Results: Despite new methods that have made it possible to study the claustrum at the molecular, genetic and epigenetic levels, its functions and connectivity are still poorly understood. The anatomical location, relatively uniform cytoarchitecture, and vast network of connections suggest a divergent role of the claustrum in integration and processing of input information and formation of coherent perceptions. Several studies have shown changes in the appearance, structure and volume of the claustrum in neurodegenerative diseases, such as Parkinson’s disease (PD), Alzheimer’s disease (AD), autism, schizophrenia, and depressive disorders. Taking into account the structure, ontogenesis, and functions of the claustrum, this literature review offers insight into understanding the crucial role of this structure in brain function and behavior.
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Quantifying model uncertainty for the observed non-Gaussian data by the Hellinger distance
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01.05.2021 |
Zheng Y.
Yang F.
Duan J.
Kurths J.
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Communications in Nonlinear Science and Numerical Simulation |
10.1016/j.cnsns.2021.105720 |
0 |
Ссылка
© 2021 Mathematical models for complex systems under random fluctuations often certain uncertain parameters. However, quantifying model uncertainty for a stochastic differential equation with an α-stable Lévy process is still lacking. Here, we propose an approach to infer all the uncertain non-Gaussian parameters and other system parameters by minimizing the Hellinger distance over the parameter space. The Hellinger distance measures the similarity between an empirical probability density of non-Gaussian observations and a solution (as a probability density) of the associated nonlocal Fokker-Planck equation. Numerical experiments verify that our method is feasible for estimating single and multiple parameters. Meanwhile, we find an optimal estimation interval of the estimated parameters. This method is beneficial for extracting governing dynamical system models under non-Gaussian fluctuations, as in the study of abrupt climate changes in the Dansgaard-Oeschger events.
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The plantaris muscle – Anatomical curiosity or a structure with important clinical value? – A comprehensive review of the current literature
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01.05.2021 |
Gonera B.
Kurtys K.
Paulsen F.
Polguj M.
LaPrade R.F.
Grzelecki D.
Karauda P.
Olewnik
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Annals of Anatomy |
10.1016/j.aanat.2021.151681 |
0 |
Ссылка
© 2021 Elsevier GmbH Purpose: Although the plantaris muscle is vestigial in humans, it is far too important to remain omitted. The aim of this study is to provide a comprehensive review of the existing literature focused on plantaris muscle clinical value, grafting usefulness and its morphological variations. Hopefully this study will be of great use for every medical practitioner due to its clarity and conciseness despite such broaden scope of this article. Material and Methods: The article is written based on 100 studies published since 1868 until 2020. During careful selection process 12 papers were dismissed due to their insufficient sample size, wrong methods used or results that were previously discovered. Results: Many aspects concerning the plantaris muscle are already well examined, summarized and described. However this study has shown how much we still do not know and which fields require further investigations. Conclusion: The anatomical variations of plantaris muscle morphology may cause mid-portion Achilles tendinopathy, tennis leg syndrome or increase the risk of failure while harvesting the tendons.
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The plantaris muscle – Anatomical curiosity or a structure with important clinical value? – A comprehensive review of the current literature
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01.05.2021 |
Gonera B.
Kurtys K.
Paulsen F.
Polguj M.
LaPrade R.F.
Grzelecki D.
Karauda P.
Olewnik
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Annals of Anatomy |
10.1016/j.aanat.2021.151681 |
0 |
Ссылка
© 2021 Elsevier GmbH Purpose: Although the plantaris muscle is vestigial in humans, it is far too important to remain omitted. The aim of this study is to provide a comprehensive review of the existing literature focused on plantaris muscle clinical value, grafting usefulness and its morphological variations. Hopefully this study will be of great use for every medical practitioner due to its clarity and conciseness despite such broaden scope of this article. Material and Methods: The article is written based on 100 studies published since 1868 until 2020. During careful selection process 12 papers were dismissed due to their insufficient sample size, wrong methods used or results that were previously discovered. Results: Many aspects concerning the plantaris muscle are already well examined, summarized and described. However this study has shown how much we still do not know and which fields require further investigations. Conclusion: The anatomical variations of plantaris muscle morphology may cause mid-portion Achilles tendinopathy, tennis leg syndrome or increase the risk of failure while harvesting the tendons.
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Adsorption and photocatalytic performance of Au nanoparticles decorated porous Cu<inf>2</inf>O nanospheres under simulated solar light irradiation
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15.04.2021 |
Zhao C.
Fu H.
Yang X.
Xiong S.
Han D.
An X.
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Applied Surface Science |
10.1016/j.apsusc.2021.149014 |
0 |
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© 2021 Elsevier B.V. In this work, pristine Cu2O and Au nanoparticle modified Cu2O (Au/Cu2O) spherical nanocomposites were prepared by a simple redox method at room temperature. The as-prepared Cu2O nanospheres with diameters of 150–200 nm show relatively large surface area. The dye removal abilities of the pure Cu2O and the Au/Cu2O nanocomposites were tested by evaluating their adsorption and photocatalytic activities towards different aromatic molecules (e.g., Congo red (CR), Methyl orange (MO), Methyl blue (MB), Rhodamine B (RhB)). The experimental results indicate that the Au/Cu2O nanocomposites exhibit much superior adsorption and photocatalytic properties to the pristine Cu2O nanospheres. Among the catalysts, 1 wt% Au/Cu2O nanocomposite shows the best removal abilities to various dyes. Besides, the removal abilities towards these dyes are quite different from each other. For deep understanding of the adsorption mechanism, molecular dynamics (MD) caculations were conducted to investigate the adsorption energy of the Cu2O spheres by simulating the porous structure and Au modification. The calculation results indicate that CR and MO are chemically adsorbed on the Cu2O materials while the adsorption of MB and RhB are physical adsorption, which are well consistent with the experimental results. This study demonstrates the porous Cu2O based nanocomposites are promising materials with high adsorption and solar light-photocatalytic performance. In the meanwhile, the underlying mechanism on the superior dye removal abilities of Au modified Cu2O nanospheres were systematically discussed.
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Ultra-high sensitivity and selectivity of Au nanoparticles modified MoO<inf>3</inf> nanobelts towards 1-butylamine
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15.03.2021 |
Fu H.
Wu Z.
Yang X.
He P.
An X.
Xiong S.
Han D.
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Applied Surface Science |
10.1016/j.apsusc.2020.148721 |
0 |
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© 2020 This study demonstrates an ultra-sensitive material towards 1-butylamine. The material is composed of 4 wt% Au nanoparticles decorated on MoO3 nanobelts, which are prepared via the hydrothermal method and in-situ reduction. The related characterizations reveal that the nanobelts are highly crystallized layer structures with a width of ~ 200 nm, a thickness of 40 nm and a length of several micrometers. The Au/MoO3 composites exhibit ultra-high sensing response (~300) towards 100 ppm of 1-butylamine at the working temperature of 240 °C. Even without Au decoration, the pristine MoO3 nanobelts offer the response as high as ~ 90 toward the same concentration of 1-butylamine at the temperature of 340 °C, much higher than the existing materials. More importantly, the proposal materials have excellent selectivity towards 1-butylamine, which offers the possibility for practical use. The excellent sensing performance is attributed to the unique sensing mechanism of the layered MoO3 nanobelts via catalytic reaction between 1-butylamine and the lattice oxygen of MoO3. Besides, Au decoration enables to enhance the adsorption of 1-butylamine and facilitate the catalytic sensing process, resulting in further increase in sensing response and selectivity of 1-butylamine. This study may shield light on a promising high-performance gas sensing materials to detect amines in practical application.
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Rheumatic diseases in intensive care unit patients with COVID-19
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01.02.2021 |
Moiseev S.
Avdeev S.
Brovko M.
Yavorovskiy A.
Novikov P.I.
Umbetova K.
Akulkina L.
Tsareva N.
Fomin V.
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Annals of the Rheumatic Diseases |
10.1136/annrheumdis-2020-217676 |
8 |
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Thin-film contact systems for thermocouples operating in a wide temperature range
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25.01.2021 |
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Journal of Alloys and Compounds |
10.1016/j.jallcom.2020.156889 |
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© 2020 Elsevier B.V. For thermoelements operating on the Peltier and Seebeck effects, including multisection ones used at temperatures up to 900 K, the physicochemical principles of creating effective thin-film multilayer contact systems obtained by magnetron ion-plasma sputtering have been developed. The formation of contact systems was carried out on thermoelectric materials based on: Bi2Te3; Sb2Te3; PbTe; GeTe with the increased thermoelectric figure of merit. A structure of contact systems consisting of contact layers providing ohmic contact, adhesion, barrier and interconnection properties of contact systems is proposed and justified. The selection criteria for materials of contact layers are substantiated. For multisection thermoelements operating on the Seebeck effect at temperatures above 500 K, the necessity of introducing diffusion-barrier layers into the structure of contact systems providing reliability and invariability of the properties of contact systems is substantiated. Based on the physicochemical analysis, the thermodynamic and kinetic factors of the stability and degradation of diffusion-barrier layers are determined. The influence of methods for preparing the surface of thermoelectric materials on the adhesion, contact resistance, and thermal stability of contact systems is established. Using Auger electron spectroscopy, the analysis of the causes of thermal stability and degradation of contact systems was carried out. The deposition modes were determined. The effective contact systems were obtained and investigated. The respective systems are based on: Ni; Mo/Ni and Ni/(Ta–W–N)/Ni having the adhesive strength of more than 12 MPa; the contact resistance not exceeding 10−9 Ω m2 and thermal stability at temperatures up to 900 K.
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Thin-film contact systems for thermocouples operating in a wide temperature range
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25.01.2021 |
Shtern M.
Rogachev M.
Shtern Y.
Gromov D.
Kozlov A.
Karavaev I.
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Journal of Alloys and Compounds |
10.1016/j.jallcom.2020.156889 |
0 |
Ссылка
© 2020 Elsevier B.V. For thermoelements operating on the Peltier and Seebeck effects, including multisection ones used at temperatures up to 900 K, the physicochemical principles of creating effective thin-film multilayer contact systems obtained by magnetron ion-plasma sputtering have been developed. The formation of contact systems was carried out on thermoelectric materials based on: Bi2Te3; Sb2Te3; PbTe; GeTe with the increased thermoelectric figure of merit. A structure of contact systems consisting of contact layers providing ohmic contact, adhesion, barrier and interconnection properties of contact systems is proposed and justified. The selection criteria for materials of contact layers are substantiated. For multisection thermoelements operating on the Seebeck effect at temperatures above 500 K, the necessity of introducing diffusion-barrier layers into the structure of contact systems providing reliability and invariability of the properties of contact systems is substantiated. Based on the physicochemical analysis, the thermodynamic and kinetic factors of the stability and degradation of diffusion-barrier layers are determined. The influence of methods for preparing the surface of thermoelectric materials on the adhesion, contact resistance, and thermal stability of contact systems is established. Using Auger electron spectroscopy, the analysis of the causes of thermal stability and degradation of contact systems was carried out. The deposition modes were determined. The effective contact systems were obtained and investigated. The respective systems are based on: Ni; Mo/Ni and Ni/(Ta–W–N)/Ni having the adhesive strength of more than 12 MPa; the contact resistance not exceeding 10−9 Ω m2 and thermal stability at temperatures up to 900 K.
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Environmental influence on neurodevelopmental disorders: Potential association of heavy metal exposure and autism
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01.12.2020 |
Ijomone O.M.
Olung N.F.
Akingbade G.T.
Okoh C.O.A.
Aschner M.
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Journal of Trace Elements in Medicine and Biology |
10.1016/j.jtemb.2020.126638 |
0 |
Ссылка
© 2020 Elsevier GmbH Environmental factors have been severally established to play major roles in the pathogenesis of neurodevelopmental disorders including autism spectrum disorder (ASD). ASD is a neurodevelopmental disorder that is associated with symptoms that reduce the quality of life of affected individuals such as social interaction deficit, cognitive impairment, intellectual disabilities, restricted and repetitive behavioural patterns. ASD pathogenesis has been associated with environmental and genetic factors that alter physiologic processes during development. Here, we review literatures highlighting the environmental impact on neurodevelopmental disorders, and mechanisms by which environmental toxins may influence neurodevelopment. Furthermore, this review discusses reports highlighting neurotoxic metals (specifically, lead, mercury, cadmium, nickel and manganese) as environmental risk factors in the aetiology of ASD. This work, thus suggests that improving the environment could be vital in the management of ASD.
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The rationale for a method of auditing medical organizations
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01.12.2020 |
Stasevich N.Y.
Basilyeva T.P.
Grizanchuk A.M.
Latynin E.O.
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Systematic Reviews in Pharmacy |
10.31838/srp.2020.12.8 |
0 |
Ссылка
© 2020 EManuscript Technologies. All rights reserved. Relevance In the context of the global financial crisis, there is a shortage of budgetary resources that exacerbates the problem of meeting the social needs of the Russian citizens, including medical services. Currently, there is an active reform of audit activities associated with changes in the system of relations between countries, integration processes, restructuring of the institutional structure of business entities in the country and their assets. The central problem in these conditions is the further development of the organization and methodology of audit activity and its methodological binding to business entities of different organizational and legal forms. Purpose: To analyse the current situation on the audit of medical organizations and to justify the need to create a methodology for its implementation.
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The rationale for a method of auditing medical organizations
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01.12.2020 |
Stasevich N.Y.
Basilyeva T.P.
Grizanchuk A.M.
Latynin E.O.
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Systematic Reviews in Pharmacy |
10.31838/srp.2020.12.8 |
0 |
Ссылка
© 2020 EManuscript Technologies. All rights reserved. Relevance In the context of the global financial crisis, there is a shortage of budgetary resources that exacerbates the problem of meeting the social needs of the Russian citizens, including medical services. Currently, there is an active reform of audit activities associated with changes in the system of relations between countries, integration processes, restructuring of the institutional structure of business entities in the country and their assets. The central problem in these conditions is the further development of the organization and methodology of audit activity and its methodological binding to business entities of different organizational and legal forms. Purpose: To analyse the current situation on the audit of medical organizations and to justify the need to create a methodology for its implementation.
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тезис
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The rationale for a method of auditing medical organizations
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01.12.2020 |
Stasevich N.Y.
Basilyeva T.P.
Grizanchuk A.M.
Latynin E.O.
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Systematic Reviews in Pharmacy |
10.31838/srp.2020.12.8 |
0 |
Ссылка
© 2020 EManuscript Technologies. All rights reserved. Relevance In the context of the global financial crisis, there is a shortage of budgetary resources that exacerbates the problem of meeting the social needs of the Russian citizens, including medical services. Currently, there is an active reform of audit activities associated with changes in the system of relations between countries, integration processes, restructuring of the institutional structure of business entities in the country and their assets. The central problem in these conditions is the further development of the organization and methodology of audit activity and its methodological binding to business entities of different organizational and legal forms. Purpose: To analyse the current situation on the audit of medical organizations and to justify the need to create a methodology for its implementation.
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The earthworm species Eisenia fetida accelerates the decomposition rate of cigarette butts on the soil surface
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01.12.2020 |
Korobushkin D.I.
Garibian P.G.
Pelgunova L.A.
Zaitsev A.S.
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Soil Biology and Biochemistry |
10.1016/j.soilbio.2020.108022 |
0 |
Ссылка
© 2020 Cigarette butts (CBs) represent the most common, though poorly biodegradable, type of waste on Earth. Thrown on the soil surface, they can remain unchanged for years, poisoning surrounding ecosystems with toxins accumulated during the smoking process. However, there is practically no data on the effect of smoked CBs on soil biota or soil animals in particular, nor on the potential of edaphic fauna to facilitate their decomposition. One of the most promising agents among soil animals are earthworms, which are known to be beneficial in the processes of recalcitrant organic matter degradation and stimulation of microbial activity in detrital food webs. In a microcosm experiment with the sod podzolic soil, we aimed at testing the effect of the commonly cultured epigeic earthworm Eisenia fetida (Savigny 1826) on the biodegradation rate of CBs and the possible adverse effects of this waste on the species. The experiment had a full-factorial design with three categorical predictors: CB number (0, 1 and 3 per microcosm); smoking condition (smoked and unsmoked CBs) and two levels of earthworm amendment (0 and 4 per microcosm). During 70 days of the experiment, we did not observe any smoked CB-induced mortality of earthworms. The addition of E. fetida significantly increased the CB mass loss across all treatment combinations. Specifically, earthworms improved the decomposition rate from 30 to 36% (p < 0.05), on average. However, this improvement was mainly associated with CB paper wrapping consumption. The inhibition of CO2 emission in microcosms with CBs and earthworms suggested the direct consumption of this waste by E. fetida, rather than modulation of the degradation potential of a microbial community. E. fetida appears to thus be a moderately promising agent for CB biodegradation with the simultaneous reduction in carbon loss from soil through the microbial channel in the studied soil type. These results open perspectives for the further evaluation of the role of soil macroinvertebrates in recalcitrant organic waste management in general and CBs in particular. We demonstrated that earthworms can efficiently decompose smoked and unsmoked cigarette butts regardless of their toxic potential and simultaneously reduce associated microbial activity.
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Biomechanics of starting, sprinting and submaximal running in athletes with brain impairment: A systematic review
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01.12.2020 |
Fiorese B.A.
Beckman E.M.
Connick M.J.
Hunter A.B.
Tweedy S.M.
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Journal of Science and Medicine in Sport |
10.1016/j.jsams.2020.05.006 |
0 |
Ссылка
© 2020 Sports Medicine Australia Objectives: Para athletes with brain impairment are affected by hypertonia, ataxia and athetosis, which adversely affect starting, sprinting and submaximal running. The aim was to identify and synthesise evidence from studies that have compared the biomechanics of runners with brain impairments (RBI) and non-disabled runners (NDR). Design: Systematic review. Methods: Five journal databases were systematically searched from inception to March 2020. Included studies compared the biomechanics of RBI (aged > 14 years) and NDR performing either block-starts, sprinting, or submaximal running. Results: Eight studies were included, analysing a total of 100 RBI (78M:22F; 18–38 years) diagnosed with either cerebral palsy (n = 44) or traumatic brain injury (n = 56). Studies analysed block-starts (n = 3), overground sprinting (n = 3) and submaximal running (n = 2), and submaximal treadmill running (n = 1). Horizontal velocity during starts, sprinting and self-selected submaximal speeds were lower in RBI. During sprinting and submaximal running, compared with NDR, RBI had shorter stride length, step length, and flight time, increased ground-contact time, increased cadence, and reduced ankle and hip range of motion. In submaximal running, RBI had decreased ankle-power generation at toe-off. Conclusions: There is limited research and small sample sizes in this area. However, preliminary evidence suggests that RBI had lower sprint speeds and biomechanical characteristics typical of submaximal running speeds in NDR, including increased ground-contact times and reduced stride length, step length, and flight times. Meaningful interpretation of biomechanical findings in RBI is impeded by impairment variability (type, severity and distribution), and methods which permit valid, reliable impairment stratification in larger samples are required.
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Biomechanics of starting, sprinting and submaximal running in athletes with brain impairment: A systematic review
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01.12.2020 |
Fiorese B.A.
Beckman E.M.
Connick M.J.
Hunter A.B.
Tweedy S.M.
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Journal of Science and Medicine in Sport |
10.1016/j.jsams.2020.05.006 |
0 |
Ссылка
© 2020 Sports Medicine Australia Objectives: Para athletes with brain impairment are affected by hypertonia, ataxia and athetosis, which adversely affect starting, sprinting and submaximal running. The aim was to identify and synthesise evidence from studies that have compared the biomechanics of runners with brain impairments (RBI) and non-disabled runners (NDR). Design: Systematic review. Methods: Five journal databases were systematically searched from inception to March 2020. Included studies compared the biomechanics of RBI (aged > 14 years) and NDR performing either block-starts, sprinting, or submaximal running. Results: Eight studies were included, analysing a total of 100 RBI (78M:22F; 18–38 years) diagnosed with either cerebral palsy (n = 44) or traumatic brain injury (n = 56). Studies analysed block-starts (n = 3), overground sprinting (n = 3) and submaximal running (n = 2), and submaximal treadmill running (n = 1). Horizontal velocity during starts, sprinting and self-selected submaximal speeds were lower in RBI. During sprinting and submaximal running, compared with NDR, RBI had shorter stride length, step length, and flight time, increased ground-contact time, increased cadence, and reduced ankle and hip range of motion. In submaximal running, RBI had decreased ankle-power generation at toe-off. Conclusions: There is limited research and small sample sizes in this area. However, preliminary evidence suggests that RBI had lower sprint speeds and biomechanical characteristics typical of submaximal running speeds in NDR, including increased ground-contact times and reduced stride length, step length, and flight times. Meaningful interpretation of biomechanical findings in RBI is impeded by impairment variability (type, severity and distribution), and methods which permit valid, reliable impairment stratification in larger samples are required.
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Changes in Autofluorescence Level of Live and Dead Cells for Mouse Cell Lines
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01.12.2020 |
Kozlova A.A.
Verkhovskii R.A.
Ermakov A.V.
Bratashov D.N.
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Journal of Fluorescence |
10.1007/s10895-020-02611-1 |
0 |
Ссылка
© 2020, Springer Science+Business Media, LLC, part of Springer Nature. Label-free characterization of cell subpopulations is a very promising biomedical approach. Nowadays, there are several label-free methods based on different physical properties such as size, density, stiffness, etc. allowing the characterization of biological objects. However, fluorescence properties are the most suitable feature for the label-free study of tissue and cells. Understanding the autofluorescence level peculiarities of normal and pathological / live and dead cells can become a helpful tool for cells’ metabolic activity, viability evaluation, and diagnostics of a number of diseases. In this study, we applied a series of mouse cell lines (RAW 264.7 - macrophages, L929 - fibroblasts, C2C12 – myoblasts, and B16-F10 – melanoma) to compare cell autofluorescence of live and dead cells under 488 nm laser excitation and found the difference between their autofluorescence depending on a cell state and type.
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