PENITENTIARY MEDICINE IN THE CONTEXT OF NATIONAL HEALTH CARE REFORM IN UKRAINE.

Objective: The aim: Identify the main issues in the penitentiary medicine functioning in the context of National Health Care Reform in Ukraine and determine the state of realization of the right to health care and medical assistance of convicts and detainees.

Patients And Methods: Materials and methods: This article used a set of general and special methods of scientific cognition. The empirical basis of the research consists of: inter¬national acts and standards in the penitentiary field and health care, statistics of the Ministry of Justice, reports of international organizations, the case law of the European Court of Human Rights (ECHR), scientific publications in databases of systematic reviews MEDLINE, PubMed, reports on the results of monitoring visits to prisons and pre-trial detention centers.

Synthetic terpenoids in the world of fragrances: Iso E Super is the showcase.

The history of fragrances is closely associated with the chemistry of terpenes and terpenoids. For thousands of years mankind mainly used plant extracts to collect ingredients for the creation of perfumes. Many of these extracts contain complex mixtures of terpenes, that show distinct olfactoric properties as pure compounds.

Maximum likelihood estimation of biophysical parameters of synaptic receptors from macroscopic currents.

Dendritic integration and neuronal firing patterns strongly depend on biophysical properties of synaptic ligand-gated channels. However, precise estimation of biophysical parameters of these channels in their intrinsic environment is complicated and still unresolved problem. Here we describe a novel method based on a maximum likelihood approach that allows to estimate not only the unitary current of synaptic receptor channels but also their multiple conductance levels, kinetic constants, the number of receptors bound with a neurotransmitter, and the peak open probability from experimentally feasible number of postsynaptic currents.

A model for the fast synchronous oscillations of firing rate in rat suprachiasmatic nucleus neurons cultured in a multielectrode array dish.

When dispersed and cultured in a multielectrode dish (MED), suprachiasmatic nucleus (SCN) neurons express fast oscillations of firing rate (FOFR; fast relative to the circadian cycle), with burst duration ∼10 min, and interburst interval varying from 20 to 60 min in different cells but remaining nevertheless rather regular in individual cells. In many cases, separate neurons in distant parts of the 1 mm recording area of a MED exhibited correlated FOFR. Neither the mechanism of FOFR nor the mechanism of their synchronization among neurons is known.

Different pools of postsynaptic GABAA receptors mediate inhibition evoked by low- and high-frequency presynaptic stimulation at hippocampal synapses.

Patterns of short-term synaptic plasticity could considerably differ between synapses of the same axon. This may lead to separation of synaptic receptors transmitting either low- or high-frequency signals and, therefore, may have functional consequences for the information transfer in the brain. Here, we estimated a degree of such separation at hippocampal GABAergic synapses using a use-dependent GABAA receptor antagonist, picrotoxin, to selectively suppress a pool of GABAA receptors monosynaptically activated during the low-frequency stimulation.

Efficient maximum likelihood estimation of kinetic rate constants from macroscopic currents.

A new method is described that accurately estimates kinetic constants, conductance and number of ion channels from macroscopic currents. The method uses both the time course and the strength of correlations between different time points of macroscopic currents and utilizes the property of semiseparability of covariance matrix for computationally efficient estimation of current likelihood and its gradient. The number of calculation steps scales linearly with the number of channel states as opposed to the cubic dependence in a previously described method.

Decoding glutamate receptor activation by the Ca2+ sensor protein hippocalcin in rat hippocampal neurons.

Hippocalcin is a Ca(2+)-binding protein that belongs to a family of neuronal Ca(2+)sensors and is a key mediator of many cellular functions including synaptic plasticity and learning. However, the molecular mechanisms involved in hippocalcin signalling remain illusive. Here we studied whether glutamate receptor activation induced by locally applied or synaptically released glutamate can be decoded by hippocalcin translocation.

Hippocalcin signaling via site-specific translocation in hippocampal neurons.

Hippocalcin is a Ca(2+)-binding protein, which belongs to the family of neuronal Ca(2+) sensors. It is highly expressed in the hippocampus but molecular mechanisms underlying its action in this part of the brain have not been investigated in detail. To study whether intrinsic neuronal activity could result in hippocalcin-mediated signal transduction we examined spontaneous and action potential (AP)-dependent changes in fluorescence of yellow fluorescent protein-tagged hippocalcin (HPCA-YFP) in transiently transfected hippocampal cultured neurons.

Estimating transmitter release rates and quantal amplitudes in central synapses from postsynaptic current fluctuations.

Several approaches recently introduced to analyze release rates in central synapses advanced our understanding of synaptic neurotransmission, however, leaving many questions still unresolved. In this work we present evidence that a new method recently developed by Sakaba and Neher to study neurotransmission in calyx of Held, a giant glutamatergic synapse, could be also applied for estimating release rate functions and averaged quantal sizes in small central synapses. By means of different simulation approaches applied to reproduce GABAergic neurotransmission in the hippocampus we have shown that possible problems with a spatial voltage clamp which can occur in synaptic connections distributed over a large area of dendritic tree are not crucial for applicability of the method when synapses are compactly distributed or located proximally and when release rates are below 1 ms(-1).