[Nitrogen and oxygen levels in placenta - a predictor for retinopathy of prematurity].

Purpose: To study the distribution of chemical elements in the placenta of pregnant women at 24-35 and 39-40 weeks of gestation, and to assess the possibility of using data on the levels of principle chemicals for predicting clinical manifestation of retinopathy of prematurity (ROP).

Material And Methods: The study examined 375 placenta tissue fragments of pregnant women for levels of the following chemical elements: carbon (C), nitrogen (N), oxygen (O), calcium (Ca), chlorine (Cl), potassium (K), sodium (Na) and phosphorus (P). Subjects were divided into 3 groups: 1st group consisted of 41 pregnant females (205 fragments of placenta tissue) at weeks 24-35 of gestation, whose children would not develop ROP; 2nd group included 14 mothers (70 fragments of placenta tissue) at weeks 39-40 of gestation; 3rd group - 20 pregnant (100 fragments of placenta tissue) at weeks 24-35 of gestation, whose children would be diagnosed with ROP.

Deoxygenation Affects Composition of Membrane-Bound Proteins in Human Erythrocytes.

Background/aims: ATP release from erythrocyte plays a key role in hypoxia-induced elevation of blood flow in systematic circulation. We have previously shown that hemolysis contributes to erythrocyte ATP release triggered by several stimuli, including hypoxia, but the molecular mechanisms of hypoxia-increased membrane fragility remain unknown.

Methods: In this study, we compared the action of hypoxia on hemolysis, ATP release and the composition of membrane-bound proteins in human erythrocytes.

[Anatomical parameters of emmetropic and varyingly myopic eyes].

This article summarizes the results of a study on ocular anatomy in emmetropia and different degrees of myopia conducted in the Smolensk State Medical Academy. Data of 233 patients (408 eyes) is presented. Five size parameters were measured in all cases.

Probing cytochrome c in living mitochondria with surface-enhanced Raman spectroscopy.

Selective study of the electron transport chain components in living mitochondria is essential for fundamental biophysical research and for the development of new medical diagnostic methods. However, many important details of inter- and intramembrane mitochondrial processes have remained in shadow due to the lack of non-invasive techniques. Here we suggest a novel label-free approach based on the surface-enhanced Raman spectroscopy (SERS) to monitor the redox state and conformation of cytochrome c in the electron transport chain in living mitochondria.