Frequency of EGFR mutations in non-small cell lung cancer patients: screening data from West Siberia

BACKGROUN

Multiple effects of bariatric surgery on human biochemical status

Beneficial effect of bariatric surgery is expressed not only in reducing body weight, but also in improving the functioning of the body as a whole. On the one hand, numerous studies devoted to the investigations of specific mechanisms of the influence of bariatric surgery on the general condition of an organism testify to the enormous interest of scientists in this problem. On the other hand, the range of changes is so vast that it covers almost all physiological and biochemical processes. The most noticeable response to bariatric surgery is from the digestive (including the composition of the microbiota), immune (reducing the level of systemic and local inflammation), cardiovascular (reducing the risks of atherosclerosis and other diseases) systems. Partial or complete compensation of type 2 diabetes mellitus and metabolic syndrome also occurs. Among the variety of data, there is insufficient research on only standard biomarkers: leptin, C-reactive protein, interleukin 6, etc. A detailed study of the profiles of both circulating biomarkers and local ones is necessary. At the same time, it is obligate to continue to accumulate evidence on the positive effect of bariatric surgery, since this type of surgical intervention has come into practice relatively recently. Unfortunately, at the present time in Russia bariatric surgery is not an affordable and popular treatment for morbid obesity (MO). Nevertheless, it is extremely important to change the current situation, since bariatric treatment is an optimal and effective solution to socially significant diseases such as MO or type 2 diabetes mellitus

Crystal structure and spin-trimer magnetism of Rb-2.3(H2O)(0.8)Mn-3[B4P6O24(O,OH)(2)]

The title borophosphate is characterized by a rare combination of the magnetic high-spin Mn2+ ions in both octahedral and tetrahedral coordinations. The crystal structure and magnetic properties are presented.</p

Temperature- and field-induced transformation of the magnetic state in Co2.5Ge0.5BO5

A tetravalent-substituted cobalt ludwigite Co2.5Ge0.5BO5 has been synthesized using the flux method. The compound undergoes two magnetic transitions: a long-range antiferromagnetic transition at TN1 = 84 K and a metamagnetic one at TN2 = 36 K. The sample-oriented magnetization measurements revealed a fully compensated magnetic moment along the a- and c-axes and an uncompensated one along the b-axis leading to high uniaxial anisotropy. A field-induced enhancement of the ferromagnetic correlations at TN2 is observed in specific heat measurements. The DFT+GGA calculation predicts the spin configuration of (↑↓↓↑) as a ground state with a magnetic moment of 1.37 μB/f.u. The strong hybridization of Ge(4s, 4p) with O (2p) orbitals resulting from the high electronegativity of Ge4+ is assumed to cause an increase in the interlayer interaction, contributing to the long-range magnetic order. The effect of two super–superexchange pathways Co2+-O-B-O-Co2+ and Co2+-O-M4-O-Co2+ on the magnetic state is discussed.This work has been financed by the Russian Foundation for Basic Research (project no. 20-02-00559). The authors acknowledge financial support from the Spanish Agencia Estatal de Investigación, through projects MAT2017-83468-R (AEI/FEDER, UE) and PID2020-115159GB-I00/AEI/10.13039/501100011033, the Aragonese project RASMIA E12_20R (co-funded by Fondo Social Europeo), and of the European Union FEDER (ES).Peer reviewe

Centrality evolution of the charged-particle pseudorapidity density over a broad pseudorapidity range in Pb-Pb collisions at root s(NN)=2.76TeV

Peer reviewe