Your search keyword '"Panina LV"' showing total 8 results

1. Temperature Effects on the Magnetization and Magnetoimpedance in Ferromagnetic Glass-Covered microwires

Author

Uddin, A, primary, Evstigneeva, S A, additional, Dzhumazoda, A, additional, Salem, M M, additional, Nematov, M G, additional, Adam, A M, additional, Panina, LV, additional, and Morchenko, A T, additional

Published

2017

2. Gold/cobalt ferrite nanocomposite as a potential agent for photothermal therapy.

Author

Motorzhina AV, Pshenichnikov SE, Anikin AA, Belyaev VK, Yakunin AN, Zarkov SV, Tuchin VV, Jovanović S, Sangregorio C, Rodionova VV, Panina LV, and Levada KV

Subjects

Humans, Cell Survival drug effects, Temperature, Nanocomposites chemistry, Cobalt chemistry, Cobalt pharmacology, Gold chemistry, Gold pharmacology, Ferric Compounds chemistry, Photothermal Therapy

Abstract

The study encompasses an investigation of optical, photothermal and biocompatibility properties of a composite consisting of golden cores surrounded by superparamagnetic CoFe 2 O 4 nanoparticles. Accompanied with the experiment, the computational modeling reveals that each adjusted magnetic nanoparticle redshifts the plasmon resonance frequency in gold and nonlinearly increases the extinction cross-section at ~800 nm. The concentration dependent photothermal study demonstrates a temperature increase of 8.2 K and the photothermal conversion efficiency of 51% for the 100 μg/mL aqueous solution of the composite nanoparticles, when subjected to a laser power of 0.5 W at 815 nm. During an in vitro photothermal therapy, a portion of the composite nanoparticles, initially seeded at this concentration, remained associated with the cells after washing. These retained nanoparticles effectively heated the cell culture medium, resulting in a 22% reduction in cell viability after 15 min of the treatment. The composite features a potential in multimodal magneto-plasmonic therapies., (© 2024 Wiley‐VCH GmbH.)

Published

2024

3. Spatial Manipulation of Particles and Cells at Micro- and Nanoscale via Magnetic Forces.

Author

Panina LV, Gurevich A, Beklemisheva A, Omelyanchik A, Levada K, and Rodionova V

Subjects

Cell Separation, Magnetic Fields, Magnets, Magnetics, Nanoparticles

Abstract

The importance of magnetic micro- and nanoparticles for applications in biomedical technology is widely recognised. Many of these applications, including tissue engineering, cell sorting, biosensors, drug delivery, and lab-on-chip devices, require remote manipulation of magnetic objects. High-gradient magnetic fields generated by micromagnets in the range of 10 3 -10 5 T/m are sufficient for magnetic forces to overcome other forces caused by viscosity, gravity, and thermal fluctuations. In this paper, various magnetic systems capable of generating magnetic fields with required spatial gradients are analysed. Starting from simple systems of individual magnets and methods of field computation, more advanced magnetic microarrays obtained by lithography patterning of permanent magnets are introduced. More flexible field configurations can be formed with the use of soft magnetic materials magnetised by an external field, which allows control over both temporal and spatial field distributions. As an example, soft magnetic microwires are considered. A very attractive method of field generation is utilising tuneable domain configurations. In this review, we discuss the force requirements and constraints for different areas of application, emphasising the current challenges and how to overcome them.

Published

2022

4. Morphology and Microstructure Evolution of Gold Nanostructures in the Limited Volume Porous Matrices.

Author

Yakimchuk DV, Bundyukova VD, Ustarroz J, Terryn H, Baert K, Kozlovskiy AL, Zdorovets MV, Khubezhov SA, Trukhanov AV, Trukhanov SV, Panina LV, Arzumanyan GM, Mamatkulov KZ, Tishkevich DI, Kaniukov EY, and Sivakov V

Abstract

The modern development of nanotechnology requires the discovery of simple approaches that ensure the controlled formation of functional nanostructures with a predetermined morphology. One of the simplest approaches is the self-assembly of nanostructures. The widespread implementation of self-assembly is limited by the complexity of controlled processes in a large volume where, due to the temperature, ion concentration, and other thermodynamics factors, local changes in diffusion-limited processes may occur, leading to unexpected nanostructure growth. The easiest ways to control the diffusion-limited processes are spatial limitation and localized growth of nanostructures in a porous matrix. In this paper, we propose to apply the method of controlled self-assembly of gold nanostructures in a limited pore volume of a silicon oxide matrix with submicron pore sizes. A detailed study of achieved gold nanostructures' morphology, microstructure, and surface composition at different formation stages is carried out to understand the peculiarities of realized nanostructures. Based on the obtained results, a mechanism for the growth of gold nanostructures in a limited volume, which can be used for the controlled formation of nanostructures with a predetermined geometry and composition, has been proposed. The results observed in the present study can be useful for the design of plasmonic-active surfaces for surface-enhanced Raman spectroscopy-based detection of ultra-low concentration of different chemical or biological analytes, where the size of the localized gold nanostructures is comparable with the spot area of the focused laser beam.

Published

2020

5. Preclinical Studies of Immunogenity, Protectivity, and Safety of the Combined Vector Vaccine for Prevention of the Middle East Respiratory Syndrome.

Author

Dolzhikova IV, Grousova DM, Zubkova OV, Tukhvatulin AI, Kovyrshina AV, Lubenets NL, Ozharovskaia TA, Popova O, Esmagambetov IB, Shcheblyakov DV, Evgrafova IM, Nedorubov AA, Gordeichuk IV, Gulyaev SA, Botikov AG, Panina LV, Mishin DV, Loginova SY, Borisevich SV, Deryabin PG, Naroditsky BS, Logunov DY, and Gintsburg AL

Abstract

The Middle East Respiratory Syndrome (MERS) is an acute inflammatory disease of the respiratory system caused by the MERS-CoV coronavirus. The mortality rate for MERS is about 34.5%. Due to its high mortality rate, the lack of therapeutic and prophylactic agents, and the continuing threat of the spread of MERS beyond its current confines, developing a vaccine is a pressing task, because vaccination would help limit the spread of MERS and reduce its death toll. We have developed a combined vector vaccine for the prevention of MERS based on recombinant human adenovirus serotypes 26 and 5. Studies of its immunogenicity have shown that vaccination of animals (mice and primates) induces a robust humoral immune response that lasts for at least six months. Studies of the cellular immune response in mice after vaccination showed the emergence of a specific CD4 + and CD8 + T cell response. A study of the vaccine protectivity conducted in a model of transgenic mice carrying the human DPP4 receptor gene showed that our vaccination protected 100% of the animals from the lethal infection caused by the MERS-CoV virus (MERS-CoV EMC/2012, 100LD 50 per mouse). Studies of the safety and tolerability of the developed vaccine in rodents, rabbits, and primates showed a good safety profile and tolerance in animals; they revealed no contraindications for clinical testing., (Copyright ® 2020 National Research University Higher School of Economics.)

Published

2020

6. Investigation into the structural features and microwave absorption of doped barium hexaferrites.

Author

Trukhanov SV, Trukhanov AV, Kostishyn VG, Panina LV, Trukhanov AV, Turchenko VA, Tishkevich DI, Trukhanova EL, Yakovenko OS, and Matzui LY

Abstract

BaFe 12-x Ga x O 19 (x ≤ 1.2) hexaferrites were synthesized via the usual ceramic technology. It has been established that with an increase in x, the unit cell and magnetic parameters monotonically decrease. The frequency of natural ferromagnetic resonance firstly decreases from 49.6 GHz down to 49.1 GHz when x = 0.6, and then it increases up to 50.5 GHz. The line width monotonically increases from 3.5 GHz up to 5 GHz. The peak amplitude of the resonant curve changes slightly with the exception of when x = 0.9, when it reaches -16 dB. The 1.3 GHz kOe -1 frequency shift in the bias field is more intensive for small values, when x = 0.3. The decreasing values of the magnetic parameters are a result of the dilution of Fe 3+ -O 2- -Fe 3+ superexchange interactions. The behavior of the amplitude-frequency characteristics is largely determined through the reduction of uniaxial exchange anisotropy. The prospects of Ga-substituted hexaferrites acting as a material that effectively absorbs the high-frequency electromagnetic radiation are shown.

Published

2017

7. Super MI sensor: recent advances of amorphous wire and CMOS-IC magneto-impedance sensor.

Author

Mohri K, Honkura Y, Panina LV, and Uchiyama T

Abstract

We indicate that the Magneto-Impedance sensor using amorphous wires has reached a new stage to view "Super MI sensor technology" based on three main advantageous factors of (i) micro sized head and micro power consumption chip, (ii) ultra-high sensitivity micro magnetic sensor with 1 pico-Tesla resolution at the room temperature without any electromagnetic shielding, and (iii) ultra-quick response magnetic sensor with GHz operation. We summarize systematically the magneto-impedance technology with the basic principle and mechanisms of three advantageous features for constitution of various high performance new sensor devices such as the electronic compass chip for mobile phones and smart phones and portable sensors for the magneto-encephalography, the magneto-spinography, and various bio-cell magnetic measurements. Possibility of new application to MI antenna in magnetic telecommunications is also discussed.

Published

2012

8. [Functional and metabolic basis of sodium nitrite modulatory influence in the brain in hemic hypoxia].

Author

Hzhehots'kyĭ MR, Panina LV, Terlets'ka OI, and Koval'chuk SM

Subjects

Adaptation, Physiological, Animals, Hypoxia chemically induced, Hypoxia enzymology, Hypoxia physiopathology, Male, Rats, Antioxidants metabolism, Brain enzymology, Brain metabolism, Brain physiology, Free Radicals metabolism, Hypoxia metabolism, Mitochondria metabolism, Sodium Nitrite toxicity

Abstract

Free radical homeostasis parameters of rat's brain mitochondria under conditions of sodium nitrite administration at the peak of hypoxia had been studied. Prior to study experimental animals have been divided into two groups depending on resistance to hypobaric hypoxia. In brain mitochondria of high-resistant to hypoxia rats increase of the nitrites-ions contents and also intensification of pro- and antioxidative processes were registered in comparison with the control group. Decrease of all investgated free radical homeostasis parameters in brain mitochondria of low-resistant to hypoxia animals in comparison with the control group was determined. Administration of pro-hypoxic factor in toxic dose allowed us to reveal specific peculiarities of redox processes development in the brain mitochondria of experimental animals with different resistance to hypoxia.

Published

2007