Activity

Humans primarily interact with information technology through glass touch screens, and the world would indeed be unrecognizable without glass. However, the low toughness of oxide glasses continues to be their Achilles heel, limiting both future applications and the possibility to make thinner, more environmentally friendly glasses. Here, we show that with proper control of plasticity mechanisms, record-high values of fracture toughness for transparent bulk oxide glasses can be achieved. Through proper combination of gas-mediated permanent densification and rational composition design, we increase the glasses’ propensity for plastic deformation. Specifically, we demonstrate a fracture toughness of an aluminoborate glass (1.4 MPa m0.5) that is twice as high as that of commercial glasses for mobile devices. Atomistic simulations reveal that the densification of the adaptive aluminoborate network increases coordination number changes and bond swapping, ultimately enhancing plasticity and toughness upon fracture. Our findings thus provide general insights into the intrinsic toughening mechanisms of oxide glasses.The biographical article is dedicated to the memory of Boris Petrovich Ugryumov, a graduate of the Imperial Military Medical Academy (1914), a prominent military pathologist, the First Head of the Department of Pathological Anatomy, Ryazan Medical Institute. The paper presents the major milestones in the life of B.P. Proteases inhibitor Ugryumov; his service on the fronts of the First and Second World Wars and his teaching activity at the Military Medical Academy and the Naval Medical Academy occupy an important place. For about 10 years, he was in charge of the Pathology Department, S.P. Botkin Clinical Infectious Diseases Hospital in Leningrad, which largely determined the area of his professional interests, such as the pathomorphology of infectious diseases, tuberculosis in particular. The archiving and personal photographic documents that have been previously unknown to the public are published for the first time.The paper presents the life and career of Aleksander Aleksandrovich Bogomolets, outstanding pathophysiologist of the country; famous statesman and public figure; founder of a large scientific school; Academician and Vice-President of the USSR Academy of Sciences; Academician of the UkrSSR Academy of Sciences; Academician of the BelSSR Academy of Sciences; Academician of the USSR Academy of Medical Sciences; Honored Scientist of the RSFSR and UkrSSR; USSR State Prize Winner, and Hero of Socialist Labor.The article dedicated to the 120th anniversary of the birth of Academician A.I. Strukov shows his role in the development of Russian and European pathological anatomy and describes his life and merits in the modernization of teaching pathological anatomy at medical universities. In addition, A.I. Strukov is shown as the standard of a teacher and a public figure.Hypoxia is a typical pathological process characterized by the occurrence of oxygen deficiency in tissues and cells and accompanied by the development of immediate and delayed compensatory and adaptive reactions. Reprogramming of the mitochondrial electron transport chain (ETC) function is one the most essential regulatory mechanisms that allow for immediate adaptation to hypoxia. Succinic acid, or succinate, is involved in this process not only as one of the intermediates of the tricarboxylic acid (TAC) cycle, but also as a signaling molecule. In this connection, the purpose of this review was to systematize the available data on the molecular mechanisms for the development of hypoxia and its adaptation at the ETC/TAC coupling site, as well as on the role of succinic acid in these processes.Triple negative breast cancer (BC) is a heterogeneous group of carcinomas that substantially differ in clinical, morphological, and molecular genetic characteristics, tumor response to chemotherapy, and prognosis. These features define triple negative BC today as a special clinical problem that has not yet been completely solved. The review is devoted to the description and systematization of the currently available literature data concerning molecular and genetic features and differences in a fairly significant group of breast carcinomas with a severe, aggressive course and an extremely poor prognosis. The review presents the existing molecular genetic classification of triple negative BC based on the results of studies conducted by M.D. Burstein (2015) and B.D. Lehmann (2016), which determines the presence of 4 tumor-specific subtypes basal-like type (type 1 and type 2), mesenchymal, and luminal androgen receptor types. The paper reflects the main stages of transformation of the proposed classification over the past decade and an attempt has been make to describe the molecular characteristics of each subtype of these carcinomas.

To discuss the possibilities and prospects of using artificial intelligence (AI) in the diagnosis of prostate cancer (PC). The laboratory diagnosis of PC is considered and prostate images are analyzed according to transrectal ultrasound and magnetic resonance imaging using AI algorithms. Particular emphasis is placed on prostate histologic evaluation.

To discuss the possibilities and prospects of using artificial intelligence (AI) in the diagnosis of prostate cancer (PC). The laboratory diagnosis of PC is considered and prostate images are analyzed according to transrectal ultrasound and magnetic resonance imaging using AI algorithms. Particular emphasis is placed on prostate histologic evaluation.Teratomas belong to a group of germ cell tumors and consist of tissues that are derived from 3 germ layers. The localization of teratomas is extremely diverse. The main task of a morphological study is to diagnose the type of teratoma. According to the WHO classification, there are mature and immature teratomas (ICD-O codes 9080/0 and 9080/3, respectively). It is deemed that the disease prognosis does not depend on the composition of mature tissue components. This paper describes two sectional observations of congenital immature teratomas in a premature live birth infant and a stillborn one. One teratoma, such as epignathus, is a very rare tumor in localization. Emphasis is laid on the need for a thorough teratoma morphological study that defines the tactics of patient management. The described observations demonstrate the importance of timely prenatal diagnosis and an interdisciplinary approach, as well as the need for clear routing of patients with diagnosed fetal space-occupying lesions.