In vivo nano-biosensing element of red blood cell-mediated delivery
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01.03.2021 |
Zhu R.
Avsievich T.
Popov A.
Bykov A.
Meglinski I.
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Biosensors and Bioelectronics |
10.1016/j.bios.2020.112845 |
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© 2020 Biosensors based on nanotechnology are developing rapidly and are widely applied in many fields including biomedicine, environmental monitoring, national defense and analytical chemistry, and have achieved vital positions in these fields. Novel nano-materials are intensively developed and manufactured for potential biosensing and theranostic applications while lacking comprehensive assessment of their potential health risks. The integration of diagnostic in vivo biosensors and the DDSs for delivery of therapeutic drugs holds an enormous potential in next-generation theranostic platforms. Controllable, precise, and safe delivery of diagnostic biosensing devices and therapeutic agents to the target tissues, organs, or cells is an important determinant in developing advanced nanobiosensor-based theranostic platforms. Particularly, inspired by the comprehensive biological investigations on the red blood cells (RBCs), advanced strategies of RBC-mediated in vivo delivery have been developed rapidly and are currently in different stages of transforming from research and design to pre-clinical and clinical investigations. In this review, the RBC-mediated delivery of in vivo nanobiosensors for applications of bio-imaging at the single-cell level, advanced medical diagnostics, and analytical detection of biomolecules and cellular activities are presented. A comprehensive perspective of the technical framework of the state-of-the-art RBC-mediated delivery systems is explained in detail to inspire the design and implementation of advanced nanobiosensor-based theranostic platforms taking advantage of RBC-delivery modalities.
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Abnormal microcirculation and red blood cell function as a cardiovascular risk factor in metabolic syndrome
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01.01.2018 |
Podzolkov V.
Koroleva T.
Pisarev M.
Kudryavtseva M.
Zateyshchikova D.
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Rational Pharmacotherapy in Cardiology |
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© 2018 Stolichnaya Izdatelskaya Kompaniya. The metabolic syndrome is a highly prevalent condition associated with increased cardiovascular risk in the population. Microvasculature is the terminal part of the cardiovascular system which primarily reacts to the increased secretion of the pro inflammatory adipokines typical for the metabolic syndrome. Microcirculation and blood cell abnormalities are the leading mechanisms of cardiovascular events development in this condition. Prevalence of microcirculation abnormalities and red blood cell dysfunction in metabolic syndrome and their role in the increased blood viscosity and cardiovascular events development are covered by the paper. The microcirculation abnormalities with a special focus on red blood cell dysfunction (impaired aggregation, stiffness) seen in metabolic syndrome and associated conditions are discussed in detail. The impact of abnormal red blood cell deformability (secondary to cholesterol accumulation in the cellular membranes) on the hemorheological abnormalities is revealed. Abnormal red blood cell surface charge due to proinflammatory changes associated with insulin resistance in diabetes mellitus is highlighted. These abnormalities lead to increased red blood cell aggregation and plasma viscosity that are the essential components of cardiovascular events pathogenesis. Their timely diagnosis is crucial for effective cardiovascular prevention.
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Effects of succinate-based antioxidant on in vitro conversion of methemoglobin in oxyhemoglobin
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01.01.2018 |
Chernysh A.
Kozlova E.
Moroz V.
Sergunova V.
Gudkova O.
Manchenko E.
Kozlov A.
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Obshchaya Reanimatologiya |
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© 2018, V.A. Negovsky Research Institute of General Reanimatology. All rights reserved. The purpose of the study - to determine the feasibility of using the succinate-based antioxidant for the in vitro reduction of excessive methemoglobin to oxyhemoglobin in blood. Materials and Methods. Blood sampling was performed in five healthy donors in microvettes containing EDTA during prophylactic examinations. NaNO2 solution was added to blood samples in vitro in order to yield methemoglobin (MetHb). The complex drug containing the following active ingredients: succinic acid, inosine, riboflavin, nicotinamide, was used as an antioxidant. The absorption spectrum of red cell suspensions with different drug content Dl(λl) exper was measured with 1 nm increments. The non-linear regression method was used to calculate concentrations of hemoglobin derivatives in suspensions. Results. In our experiments, when methemoglobin reacted with drug the optical density of peaks typical for oxyhemoglobin increased and the spectral peak of methemoglobin decreased. The greater the concentration of drug, the more was the incubation time, the more efficient was the process of reduction of MetHb to HbO2. Conclusion. We proved experimentally that while the baseline concentration of MetHb was an average of 91-93%, addition of drug decreased its concentration to 25-7%. Without drug, due to autoreduction, the concentration of MetHb decreases only to 84%. The revealed effect provide a potential for practical applications in critical illness, during the storage of donor blood, in blood transfusions, and under the action of physico-chemical factors on blood.
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Nonlinear local deformations of red blood cell membranes: Effects of toxins and pharmaceuticals (part 2)
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01.01.2018 |
Chernysh A.
Kozlova E.
Moroz V.
Sergunova V.
Gudkova O.
Kozlov A.
Manchenko E.
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Obshchaya Reanimatologiya |
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© 2018, V.A. Negovsky Research Institute of General Reanimatology. All rights reserved. Modifiers of membranes cause local defects on the cell surface. Measurement of the rigidity at the sites of local defects can provide further information about the structure of defects and mechanical properties of altered membranes. The purpose of the study: a step-by-step study of the process of a nonlinear deformation of red blood cells membranes under the effect of modifiers of different physico-chemical nature. Materials and methods. The membrane deformation of a viscoelastic composite erythrocyte construction inside a cell was studied by the atomic force spectroscopy. Nonlinear deformations formed under the effect of hemin, Zn 2+ ions, and verapamil were studied. Results. The process of elastic deformation of the membrane with the indentation of a probe at the sites of local defects caused by modifiers was demonstrated. The probe was inserted during the same step of the piezo scanner Δz displacement; the probe indentation occured at the different discrete values of Δh, which are the functions of the membrane structure. At the sites of domains, under the effect of the hemin, tension areas and plasticity areas appeared. A mathematical model of probe indentation at the site of membrane defects is presented. Conclusion. The molecular mechanisms of various types of nonlinear deformations occurring under the effect of toxins are discussed. The results of the study may be of interest both for fundamental researchers of the blood cell properties and for practical reanimatology and rehabilitology.
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The use of a specialized food product based on fermented milk whey to enhance the adaptive potential of athletes (skiers-riders)
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01.01.2018 |
Litvin F.
Bruk T.
Klochkova S.
Kalosha A.
Nikityuk D.
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Voprosy Pitaniia |
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© 2018 Nutritec. All rights reserved. Specialized sports nutrition is one of the most important factors in the extension of the functional potential of athletes, providing adaptive resistance to physical stress, which determines the high physical performance and prolongs athletic longevity of the athletes. The study involved 30 skiers-racers (the average age of 19.5±1.8 years). 12 skiers of the main group within 21 days consumed a specialized food product, obtained on the basis of fermented milk whey containing amino acids, several vitamins, minerals and trace elements, live culture of lactic acid bacteria: L. lactis, L. thermophilus, L. bulgaricus (1.2 × 10s CFU/cm3). The control group consisted of 18 skiers, those taking the placebo (food starch of the same consistency). After a course of product intake, blood level of hemoglobin increased by 6%, of leukocytes - by 10% due to an increase in the number of granulocytes by 32%, and segmented neutrophils by 16% (p<0.05), there was a tendency to increase the number of red blood cells by 7% with a significant decrease in lymphocyte count by 19%. Erythrocyte sedimentation rate in blood of the skiers from the comparison group increased by 41% (p<0.05), while in the athletes of the main group it decreased by 16% (p>0.05). After product intake it has been established by the method of laser Dopplerflowmetry that there was a tendency to increase blood perfusion by 15%, a statistically reliable increase in the flux by 53%, which is based on the improvement of the internal mechanisms of microcirculation regulation. According to the mathematical analysis of cardiac rhythm, centralization of regulation decreased while the activity of an autonomous mechanism for controlling the work of the heart increased. The revealed functional changes ensured an increase of absolute (by 31%, p<0.05) and relative (by 33%, p<0.05) physical performance and aerobic endurance of skiers, contributed to the improvement of short-Term memory. The conclusion is made about the expediency of the intake of the specialized food product to enhance the adaptive capacity of athletes under the influence of systematic physical loads.
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