[Megapolis medical rehabilitation system of elderly patients with severe cranio-cerebral injury.]

The capacities of systemic standard graded medical rehabilitation were assessed in 469 patients carried out surgical intervention for severe craniocerebral injury at Saint-Petersburg hospitals in 2010-2017. As a result of neurorehabilitation system introduction rates of infectious-inflammatory complications associated with physical inactivity were significantly decreased. An average length of stay at hospital was decreased from 34±5 to 23±4 days. At discharge from neurosurgical hospital the Barthel index of activities of daily living was 42±8 points. After inpatient rehabilitation course an average Barthel index was increased to 70±6 points. And after outpatient rehabilitation course an average Barthel index had reached 70±6 points.

Effect of nematic ordering on electronic structure of FeSe.

Electronically driven nematic order is often considered as an essential ingredient of high-temperature superconductivity. Its elusive nature in iron-based superconductors resulted in a controversy not only as regards its origin but also as to the degree of its influence on the electronic structure even in the simplest representative material FeSe. Here we utilized angle-resolved photoemission spectroscopy and density functional theory calculations to study the influence of the nematic order on the electronic structure of FeSe and determine its exact energy and momentum scales. Our results strongly suggest that the nematicity in FeSe is electronically driven, we resolve the recent controversy and provide the necessary quantitative experimental basis for a successful theory of superconductivity in iron-based materials which takes into account both, spin-orbit interaction and electronic nematicity.