THE INFLUENCE OF THE WAR FACTOR ON AGE CHANGES IN THE SUBPOPULATION STRUCTURE OF LEUCOCYTES AS A COMPONENT OF INFLAMMAGING IN THE GROUPS OF MILITARY PERSONNEL AND CLEAN-UP WORKERS OF THE CHORNOBYL ACCIDENT.

Objective: to evaluate the subpopulation structure of peripheral blood leukocytes as a component of inflammaging in the servicemen of the Armed Forces of Ukraine and clean-up workers of the accident at the Chornobyl nuclear power plant.

Materials And Methods: Three hundred ninety-seven males aged 30-82 (54.99 ± 8.

Insights into the Structure-Property-Activity Relationship of Zeolitic Imidazolate Frameworks for Acid-Base Catalysis.

Zeolitic imidazolate frameworks (ZIFs) have been extensively examined for their potential in acid-base catalysis. Many studies have demonstrated that ZIFs possess unique structural and physicochemical properties that allow them to demonstrate high activity and yield products with high selectivity. Herein, we highlight the nature of ZIFs in terms of their chemical formulation and the textural, acid-base, and morphological properties that strongly affect their catalytic performance.

STATUS OF THE CELLULAR IMMUNITY IN CLEAN-UP WORKERS OF THE CHORNOBYL ACCIDENT AND PATIENTS WITH CANCER OF THE MOUTH CAVITY, ORAL AND LARYNGEAL PART OF THE PHARYNX.

Objective: to establish cellular immunity in clean-up workers of the Chornobyl accident compared to patients with malignant neoplasms of the oral cavity, oral and laryngeal parts of the pharynx according to the subpopulation organization of peripheral blood leukocytes.

Materials And Methods: We examined 112 males, age (56,92 ± 6,17) years (M ± SD), including 26 male clean-up workers exposed at the radiation dose 10-500 mSv; 20 male clean-up workers exposed at the dose range 504-990mSv; 33 patients with malignant neoplasms of the oral cavity, oral and laryngeal parts of the pharynx and 33 non-exposed subjects of the control group. Immune cell subsets analysis was performed by the expression of differential and activation antigens of peripheral blood leukocytes using flow cytometry.

Blockchain-Enabled Supply Chain platform for Indian Dairy Industry: Safety and Traceability.

Conventional food supply chains are centralized in nature and possess challenges pertaining to a single point of failure, product irregularities, quality compromises, and loss of data. Numerous cases of food fraud, contamination, and adulteration are daily reported from multiple parts of India, suggesting the absolute need for an upgraded decentralized supply chain model. A country such as India, where its biggest strength is its demographic dividend, cannot afford to malnutrition a large population of its children by allowing them to consume contaminated and adulterated dairy products.

Blockchain-Cloud Integration: A Survey.

Over the last couple of years, Blockchain technology has emerged as a game-changer for various industry domains, ranging from FinTech and the supply chain to healthcare and education, thereby enabling them to meet the competitive market demands and end-user requirements. Blockchain technology gained its popularity after the massive success of Bitcoin, of which it constitutes the backbone technology. While blockchain is still emerging and finding its foothold across domains, Cloud computing is comparatively well defined and established.

A Social Network Analysis Approach to COVID-19 Community Detection Techniques.

Machine learning techniques facilitate efficient analysis of complex networks, and can be used to discover communities. This study aimed use such approaches to raise awareness of the COVID-19. In this regard, social network analysis describes the clustering and classification processes for detecting communities.

Riboflavin for COVID-19 Adjuvant Treatment in Patients With Mental Health Disorders: Observational Study.

COVID-19 treatment remains a challenge for medicine because of the extremely short time for clinical studies of drug candidates, so the drug repurposing strategy, which implies the use of well-known and safe substances, is a promising approach. We present the results of an observational clinical study that focused on the influence of riboflavin (vitamin B2) supplementation on the immune markers of COVID-19 severity in patients with mental health disorders. We have found that 10 mg of flavin mononucleotide (a soluble form of riboflavin) intramuscularly twice a day within 7 days correlated with the normalization of clinically relevant immune markers (neutrophils and lymphocytes counts, as well as their ratio) in COVID-19 patients.

Broadband terahertz generation by optical rectification of ultrashort multiterawatt laser pulses near the beam breakup threshold.

We identify the physical factors that limit the terahertz (THz) yield of an optical rectification (OR) of ultrashort multiterawatt laser pulses in large-area quadratically nonlinear crystals. We show that the THz yield tends to slow its growth as a function of the laser driver energy, saturate, and eventually decrease as the laser beam picks up a spatiotemporal phase due to the intensity-dependent refraction of the OR crystal. We demonstrate that, with a careful management of the driver intensity aimed at keeping the nonlinear length larger than the coherence length, OR-based broadband THz generation in large-area lithium niobate (LN) crystals is energy-scalable, enabling an OR of multiterawatt laser pulses, yielding ∼10µ/ of THz output energy per unit crystal area.

Regularities of Structure Formation in 30 mm Rods of Thermoelectric Material during Hot Extrusion.

In this study, Ingots of (Bi, Sb)Te thermoelectric material with p-type conductivity have been obtained by hot extrusion. The main regularities of hot extrusion of 30 mm rods have been analyzed with the aid of a mathematical simulation on the basis of the joint use of elastic-plastic body approximations. The phase composition, texture and microstructure of the (Bi, Sb)Te solid solutions have been studied using X-ray diffraction and scanning electron microscopy.

Effects of Macromolecular Crowding on Nanoparticle Diffusion: New Insights from Mössbauer Spectroscopy.

In this work, we used Mössbauer spectroscopy as a new approach for experimental quantification of the self-diffusion coefficient () and hydrodynamic (HD) size of iron-containing nanoparticles (NPs) in complex crowded solutions, mimicking cell cytoplasm. As a probe, we used 9 nm cobalt ferrite NPs (CFNs) dispersed in solutions of bovine serum albumin (BSA) with a volume fraction (φ) of 0-0.2.

Hybrid x-ray laser-plasma/laser-synchrotron facility for pump-probe studies of the extreme state of matter at NRC "Kurchatov Institute".

We developed a hybrid optical pump-x-ray probe facility based on the "Kurchatov's synchrotron radiation source" and terawatt (TW) femtosecond laser. The bright x-ray photon source is based on either synchrotron radiation [up to 6 × 10 photons/(s mm mrad 0.1% bandwidth)] or laser-plasma generators (up to 10 photons/sr/pulse).

Nanosized Anti-Stokes Phosphors for Antitumor Drug Delivery and Solid Tumor Theranostics.

Abstract-Theranostics is the direction in modern biomedicine aimed at developing drugs that combine the capabilities of diagnosis and therapy of tumors in one agent. Upconversion nanophosphors (UCNPs) are inorganic crystalline materials that can be used to create a nanoplatform providing diagnostic and therapeutic modalities. They have been proposed as luminescent markers for optical imaging of biological tissue due to their anti-Stokes luminescence, lack of photodegradation and low toxicity.

One-pot synthesis of sorbitol via hydrolysis-hydrogenation of cellulose in the presence of Ru-containing composites.

The aim of this work was to study the one-pot synthesis of sorbitol via hydrolysis-hydrogenation of cellulose in the presence of Ru-containing composites based on HPWO supported on ZrO and NbO (Ru-PW/ZrO and Ru-PW/NbO). The main parameters impacted the reaction rate and yield of sorbitol, i.e.

One-pot synthesis of formic acid hydrolysis-oxidation of potato starch in the presence of cesium salts of heteropoly acid catalysts.

Solid bifunctional catalysts based on cesium salts of V-containing heteropoly acids (CsHPA: CsHPWVO, CsHSiWVO, CsHPMoVO) and CsHPMoO were used for studying one-pot hydrolysis-oxidation of potato starch to formic acid at 413-443 K and 2 MPa air mixture. It was shown that the optimum process temperature that prevents formic acid from destruction is 423 K. The studies were focused on the influence of the composition of heteropoly anions on the yield and selectivity of formic acid.

New Insight into Titanium-Magnesium Ziegler-Natta Catalysts Using Photoluminescence Spectroscopy.

This paper presents the results of study of titanium-magnesium catalysts often used in polymerization processes, by photoluminescence spectroscopy (PL) in combination with diffuse reflectance infrared Fourier transform spectroscopy (DRIFTS). The interaction of dibutyl phthalate (DBP) with MgCl was studied at DBP/Mg = 0-1 (mol/mol). The luminescence spectra with excitation at 278 nm and the excitation spectra for main emission bands were recorded.

F MRI of human lungs at 0.5 Tesla using octafluorocyclobutane.

Purpose: The aim of this study was to demonstrate the feasibility of fluorine-19 ( F) MRI of the human lungs using octafluorocyclobutane (OFCB, C F ). This gas has 8 magnetically equivalent fluorine nuclei and relatively long T and T (˜50 ms), which render it suitable as an MRI contrast agent. Previous experiments in small laboratory animals showed that OFCB could be successfully used as an alternative to the gases often used for F MRI (sulfur hexafluoride and perfluoropropane).

Catalyst Speciation During -Zirconocene-Catalyzed Polymerization of 1-Hexene Studied by UV-vis Spectroscopy-Formation and Partial Re-Activation of Zr-Allyl Intermediates.

Catalyst speciation during polymerization of 1-hexene in benzene or toluene solutions of the catalyst precursor SBIZr(μ-Me)AlMe B(CF)(SBI = -dimethylsilyl-bis(1-indenyl)) at 23 °C is studied by following the accompanying UV-vis-spectral changes. These indicate that the onset of polymerization catalysis is associated with the concurrent formation of two distinct zirconocene species. One of these is proposed to consist of SBIZr-σ-polyhexenyl cations arising from SBIZr-Me (formed from SBIZr(μ-Me)AlMe by release of AlMe) by repeated olefin insertions, while the other one is proposed to consist of SBIZr-η-allyl cations of composition SBIZr-η-(1-R-CH) (R = npropyl), [.

[Additive technologies in neurosurgery].

Modern achievements of technical progress, in particular additive technologies (ATs) and three-dimensional printing, have been increasingly introduced in neurosurgical practice. The increasing complexity of surgical interventions requires thorough planning of surgery and a high level of training of young neurosurgeons. Creation of full-scale three-dimensional models for planning of surgery enables visualization of the anatomical region of interest.

Free-beam spectral self-compression at supercritical peak powers.

We demonstrate free-beam spectral self-compression of ~100-GW femtosecond laser pulses due to self-phase modulation (SPM) in a transparent dielectric. While all the earlier studies of SPM-induced spectral narrowing have been performed using optical fibers, experiments and simulations presented in this Letter show that this type of spectral transformation can be implemented as a part of a full three-dimensional field-waveform dynamics and can be extended to peak powers ∼10 times higher than the critical power of self-focusing. With a properly chosen initial chirp, spectral self-compression is accompanied by pulse compression, providing spectral-temporal mode self-compression as a whole.

Riboflavin photoactivation by upconversion nanoparticles for cancer treatment.

Riboflavin (Rf) is a vitamin and endogenous photosensitizer capable to generate reactive oxygen species (ROS) under UV-blue irradiation and kill cancer cells, which are characterized by the enhanced uptake of Rf. We confirmed its phototoxicity on human breast adenocarcinoma cells SK-BR-3 preincubated with 30-μM Rf and irradiated with ultraviolet light, and proved that such Rf concentrations (60 μM) are attainable in vivo in tumour site by systemic intravascular injection. In order to extend the Rf photosensitization depth in cancer tissue to 6 mm in depth, we purpose-designed core/shell upconversion nanoparticles (UCNPs, NaYF:Yb:Tm/NaYF) capable to convert 2% of the deeply-penetrating excitation at 975 nm to ultraviolet-blue power.

Formation of Neural Networks in 3D Scaffolds Fabricated by Means of Laser Microstereolithography.

We developed and tested new 3D scaffolds for neurotransplantation. Scaffolds of predetermined architectonic were prepared using microstereolithography technique. Scaffolds were highly biocompatible with the nervous tissue cells.

Angle-resolved multioctave supercontinua from mid-infrared laser filaments.

Angle-resolved spectral analysis of a multioctave high-energy supercontinuum output of mid-infrared laser filaments is shown to provide a powerful tool for understanding intricate physical scenarios behind laser-induced filamentation in the mid-infrared. The ellipticity of the mid-infrared driver beam breaks the axial symmetry of filamentation dynamics, offering a probe for a truly (3+1)-dimensional spatiotemporal evolution of mid-IR pulses in the filamentation regime. With optical harmonics up to the 15th order contributing to supercontinuum generation in such filaments alongside Kerr-type and ionization-induced nonlinearities, the output supercontinuum spectra span over five octaves from the mid-ultraviolet deep into the mid-infrared.

Zirconium-allyl complexes as resting states in zirconocene-catalyzed α-olefin polymerization.

UV-vis spectroscopic data indicate that zirconocene cations with Zr-bound allylic chain ends are generally formed during olefin polymerization with zirconocene catalysts. The rates and extent of their formation and of their re-conversion to the initial pre-catalyst cations depend on the types of zirconocene complexes and activators used.

Post-filament self-trapping of ultrashort laser pulses.

Laser filamentation is understood to be self-channeling of intense ultrashort laser pulses achieved when the self-focusing because of the Kerr nonlinearity is balanced by ionization-induced defocusing. Here, we show that, right behind the ionized region of a laser filament, ultrashort laser pulses can couple into a much longer light channel, where a stable self-guiding spatial mode is sustained by the saturable self-focusing nonlinearity. In the limiting regime of negligibly low ionization, this post-filamentation beam dynamics converges to a large-scale beam self-trapping scenario known since the pioneering work on saturable self-focusing nonlinearities.