Electrical control of optical orientation of neutral and negatively charged excitons in n-type semiconductor quantum well

We report a giant electric field induced increase of spin orientation of excitons in n-type GaAs/AlGaAs quantum well. It correlates strongly with the formation of negatively charged excitons (trions) in the photoluminescence spectra. Under resonant excitation of neutral heavy-hole excitons, the polarization of excitons and trions increases dramatically with electrical injection of electrons within the narrow exciton-trion bias transition in the PL spectra, implying a polarization sensitivity of 200 % per Volt. This effect results from a very efficient trapping of neutral excitons by the quantum well interfacial fluctuations (so-called "natural" quantum dots) containing resident electrons.Comment: 18 pages, 4 figure

On the Theory of Quantum Oscillations of the Elastic Moduli in Layered Conductors

In this paper we study theoretically how the local geometry of the Fermi surface (FS) of a layered conductor can affect quantum oscillations in the thermodynamic observables. We introduce a concrete model of the FS of a layered conductor. The model permits us to analyze the characteristic features of quantum oscillatory phenomena in these materials which occure due to local anomalies of the Gaussian curvature of the FS. Our analysis takes into account strong interaction among quasiparticles and we study the effect of this interaction within the framework of Fermi-liquid theory. We show that the Fermi-liquid interaction strongly affects the density of states of quasiparticles (DOS) on the FS. As a result DOS can have singularities near the peaks of its oscillations in a strong magnetic field. These singularities can be significantly strengthened when the FS of the layered conductor is locally flattened. This can lead to magnetic and lattice instabilities of a special kind which are considered in the final part of the work.Comment: 11 pages, 2 figures, minor changes in the title are made, published versio

Innovative technologies in pelvic fractures management

The article is based on our clinical experience and modern tendencies of development of minimally invasive surgery. It contains analysis of percutaneus osteosynthesis of pelvic fractures with various metal fixation devices. We analyzed 74 cases of pelvic fractures in which minimally invasive osteosynthesis was used. The patients underwent operative treatment with cannulated screws and new metal fixation devices - CITO screws. The innovative technology showed its high clinical efficiency, its advantages and weak points were analyzed. The majority of pelvic ring injuries are life-threatening and are often accompanied by fractures of other parts of the skeleton and injuries of internal organs. High quality operative treatment of pelvic fractures is often limited by severe general condition of patients and the necessity of simultaneous operative treatment of internal organs and injured parts of musculoskeletal system. Thus, on the one hand, it is necessary to provide high quality fixation of pelvic bone fragments, on the other hand, it is important to reduce surgical aggression during osteosynthesis. The most serious conditions are pelvic ring fractures associated with acetabular fractures, when there is need for intracapsular acetabular fracture stabilization for successful pelvic functional recovery. Acetabular fractures still remain one of the most crucial issues of modern traumathology. Disability, low life quality, hip arthroplasty are the main sequences of inadequate treatment of such fractures. Conservative treatment results in disability in 22-66.7% cases, that is 3 times more frequent compared to the level of disability after operative treatment (1, 2, 3). Only operative treatment makes it possible to achieve successful longtime functional recovery (4). Open reduction with internal fixation is associated with large surgical incision, massive intraoperative blood loss and high risk of infectious complications. The main recognized condition for bone fracture consolidation is intact blood supply of fragments, that is provided only by minimal surgical invasion (5, 6, 7, 8). Thus, development and implementation of implants and minimally invasive methods of bone fragments stabilization are main innovative tendencies of internal osteosynthesis development. The aim of our research was to develop minimally invasive osteosynthesis technologies and to invent a new metal fixation device

Experimental study of the strength characteristics of fixation of the symphysis pubis with an original plate for the reconstruction of the anterior pelvic semi-ring

The destabilization of bone fixators has led to repeated surgical interventions that increased the risk of migrations of metal fixators, infectious and inflammatory complications as well. The modern trends in hip bone injury surgery are related to developing and using of metal fixators, which are effective in acute injury; however, sometimes the condition of the patient and the technical support of hospitals don’t allow performing surgery in the acute period, and these metal fixators are ineffective for chronic damage. Consequently, until now, the problem of finding the optimal design of structures for fixing chronic damage of anterior pelvic semi-ring which will be able to exclude its destabilization, is still of current interest.The purpose of the study: developing and experimental researching of durable features of original plate for reconstruction of the anterior pelvic semi-ring.Materials and methods: In order to ensure stable fixation of chronic pelvic injuries, the original metal plates have been worked out. They are made individually in accordance with the anatomical and functional structures of the anterior pelvic semi-ring of the patient with using additive technologies. The study of the reliability of the different variants of ostiosynthesis of the anterior pelvic semi-ring with using well-known pelvic plates and a new original design was carried out. Stability tests for different plate fixing methods and mechanical strength of metallophyxators were carried out on a universal test machine of LFM-50kN series.Results: one plate fixation in tensile test showed the lowest result – 0.341 kN, a low result of shear loads was received with the same object. The best result was shown by the polyaxial monolithic plate fixation in case of stretching – 0.51 kN at the shear loads – 0.591 kN. Necessary force applied to destabilizing of the metal structure while using a polyaxial monolithic plate was a half-higher than stretched, and a third higher than at shear loads, it demonstrates the benefits of using these metal fixators.Conclusion: It is experimentally confirmed that the polyaxial monolithic plate provides the highest stability of fixing anterior pelvic semi-ring indicator in contrast with fixing of one or two plates

GAPDH binders as potential drugs for the therapy of polyglutamine diseases: Design of a new screening assay

AbstractProteins with long polyglutamine repeats form a complex with glyceraldehyde-3-phosphate dehydrogenase (GAPDH), which enhances aggregation and cytotoxicity in models of Huntington disease. The aim of this study was to develop a novel assay for the screening of anti-aggregation compounds with a focus on the aggregation-promoting capacity of GAPDH. The assay includes a pure Q58 polyglutamine fragment, GAPDH, and a transglutaminase that links the two proteins. The feasibility of the new assay was verified using two GAPDH binders, hydroxynonenal and −(−)deprenyl, and the benzothiazole derivative PGL-135 which exhibits anti-aggregation effect. All three substances were shown to reduce aggregation and cytotoxicity in the cell and in the fly model of Spinocerebellar ataxia