The influence of ultrafine-grained structure on the mechanical properties and biocompatibility of austenitic stainless steels.

In this study, equal-channel angular pressing (ECAP) of austenitic 316L and Cr-Ni-Ti stainless steels was carried out. Effect of ECAP at 400°C on the evolution of the microstructure, mechanical properties, and biocompatibility of these steels was investigated. The biocompatibility of samples with the ultrafine grain structure obtained in the ECAP process did not deteriorate in comparison with an austenitic 316L stainless steel in coarse-grained state.

Influence of Flavonoids on the Cytotoxic Activity of Mononuclear Blood Cells in Model Tests.

Background: The spread of phytocomplex application and justification of its selective effects on tumour cells (mainly due to the presence of flavonoids) require research of its cytotoxic and immunomodulatory activity.

Aim: The goal wa`s to study the direct cytotoxic effect of the phytocomplex and its modulating effect on the cytotoxic activity of the donor's mononuclear blood cells in in vitro experiments.

Methods: The phytocomplex was a dry extract from marsh cinquefoil, creeping alfalfa and common hop; its main active ingredients were flavonoids.

Immunological monitoring for prediction of clinical response to antitumor vaccine therapy.

Immunotherapy has shown promising results in a variety of cancers, including melanoma. However, the responses to therapy are usually heterogeneous, and understanding the factors affecting clinical outcome is still not achieved. Here, we show that immunological monitoring of the vaccine therapy for melanoma patients may help to predict the clinical course of the disease.

[PROSPECTIVE SYNTHETIC MATRICES FOR THE RECONSTRUCTION OF TRACHEAL DEFECTS IN CANCER PATIENTS].

A replacement of major defects of the trachea remains a challenge despite numerous attempts to use for this purpose various options of autologous and allogeneic implants as well as synthetic matrixes. The most prospective direction is to create tracheal matrixes based on biocompatible porous or fibrous materials that mimic native tissues and provide the proliferation of multipotent cells. This review summarizes current data regarding the development of experimental research and clinical testing of biocompatible tracheal matrixes, which were created using innovative technologies.

Fabrication method, structure, mechanical, and biological properties of decellularized extracellular matrix for replacement of wide bone tissue defects.

The present paper was focused on the development of a new method of decellularized extracellular matrix (DECM) fabrication via a chemical treatment of a native bone tissue. Particular attention was paid to the influence of chemical treatment on the mechanical properties of native bones, sterility, and biological performance in vivo using the syngeneic heterotopic and orthotopic implantation models. The obtained data indicated that after a chemical decellularization treatment in 4% aqueous sodium chlorite, no noticeable signs of the erosion of compact cortical bone surface or destruction of trabeculae of spongy bone in spinal channel were observed.