Clinical Trials Directory

Trials / Withdrawn

WithdrawnNCT04287842

Impact if Desflurane Preconditioning on the Content of the Phospho-GSK-3b in the Rat's Neurons in the Model of I/R

Neuroprotective Effect of Desflurane in the Experimental Study: the Impact if Desflurane Preconditioning on the Content of the Phosphorylated Form of GSK-3b in the Neurons of the Rat's Brain in the Model of Ischemia/Reperfusion

Status
Withdrawn
Phase
Phase 4
Study type
Interventional
Enrollment
0 (actual)
Sponsor
Negovsky Reanimatology Research Institute · Other Government
Sex
Male
Age
Healthy volunteers
Not accepted

Summary

Endpoint implementation of reactions initiated by ischemia is the mitochondrial transition pore permeability. Mitochondria pores opening results in a release of factors triggering apoptosis primarily the cytochrome С Inhibition of the pores opening protects ischemic damage of the cells. The key enzyme regulating the mitochondrial permeability transition pore is GSK-3b: the phosphorylation of the enzyme inactivates the enzyme and prevents pore opening. Aim of studi is to determine content of the phosphorylatcd GS K-3b in neurons of rat brain in the model of total tschemia/reperfusion.

Detailed description

Endpoint implementation of reactions initiated by ischemia is the mitochondrial transition pore permeability. Mitochondria pores opening results in a release of factors triggering apoptosis. primarily the cytochrome С Inhibition of the pores opening protects ischemic damage of the cells. The key enzyme regulating the mitochondrial permeability transition pore is glycogen synthase-kinase 3b (GSK-3b): the phosphorylation of the enzyme inactivates the enzyme and prevents pore opening. We have shown in previous study that preconditioning with sevoflurane increases the content of the phosphorylated form of 6SK-3b and protects the mitochondria of neurons in rats brain during ischemia/reperfusion. Aim of studi is to determine content of the phosphorylated GS K-3b in neurons of rat brain in the model of total ischemia/reperfusion influenced by: 1 MAC desflurane vs control group; 1 MAC desflurane vs 1 MAC sevoflurane and 1 MAC desflurane vs training ischemia.

Conditions

Interventions

TypeNameDescription
DRUGDesfluraneDesflurane anesthesia is introduced. This provides complete suppression of animal responses to pain, fixation, tracheal intubation and cardiac arrest.
DRUGSevofluraneDesflurane anesthesia is introduced. This provides complete suppression of animal responses to pain, fixation, tracheal intubation and cardiac arrest. After fixation of the animal in the supine position trachea is intubated and mechanic ventlation with air using an animal respirator is performed. Cardiac arrest is induced by intrathoracic clamping of the supracardiac bundle of vessels by means of a special hook. Period of cardiac arrest and absence of ventilation lasts 10 min. The animal is then resuscitated by means of chest compressions and mechanichal ventilation with air. Cardiac activity and systemic blood circulation recovers within 1 min; spontaneous respiration will be resumed after a period of 4-6 min.
PROCEDURECardiac arrestCardiac arrest is induced by intrathoracic clamping of the supracardiac bundle of vessels by means of a special hook. Period of cardiac arrest and absence of ventilation lasts 10 min. The animal is then resuscitated by means of chest compressions and mechanichal ventilation with air. Cardiac activity and systemic blood circulation recovers within 1 min; spontaneous respiration will be resumed after a period of 4-6 min.

Timeline

Start date
2015-05-01
Primary completion
2015-05-01
Completion
2015-06-01
First posted
2020-02-27
Last updated
2020-02-27

Source: ClinicalTrials.gov record NCT04287842. Inclusion in this directory is not an endorsement.