Yuriy E. Salkovskiy

TL;DR: In this paper, a novel electrospun nanofibrous material is proposed as a new material for burn dressing, which provides effective absorbtion of exudate, ventilation of the wound, protection from infection and stimulate the process of skin tissue regeneration.

TL;DR: In this paper, the design and properties of nanocomposite fibrous materials and methods for modification and functionalization of fiber surface are discussed, and the prospects for the application of non-woven materials for biotissue engineering and for the development of smart materials are considered.

TL;DR: Endarterectomy and Polytetrafluoroethylene patching produce considerable abnormalities in the hemodynamics of the repaired carotid, and advanced mechanical modeling can be used to evaluate differentCarotid revascularization approaches to obtain optimized biomechanical and hemodynamic results for the care of patients withcarotid bifurcation disease.

TL;DR: In this article, the composition of forming solution for formation of biopolymeric fibres includes polyethylene oxide, chitosan, organic acid and water, which is used for wound treatment.

TL;DR: 3D FEM models with fluid-structure interactions of carotid arteries with pathological tortuousities of four main types along with normal CA were built using a real 3D-geometry based on computer tomography data, showing significant differences in blood velocity and pressure fields between normal and tourtuous CAs that leads to the abnormal blood flow in diseased vessels.