Hyperoxia Clinical Trial
Official title:
Proteomics for Identification of Hyperoxia-induced Changes in Protein Expression
Aim of the present study is to investigate the influence of hyperoxia on the protein
expression using the differential analysis of protein expression in tissues (proteomics). In
the study, blood and urine samples will be collected from participants who undergo a short
term hyperoxia using 100% oxgen for 3 hours.
Here, gel electrophoresis, protein separation and mass spectroscopy allow to identify
affected proteins. Based on these results, different induction factors of proteins will be
determined and then assessed using a bioinformatic network analysis regarding the cellular
influence.
Oxygen is necessary to sustain human life and is used for energy production by oxidation in
the mitochondria. Application of oxygen not only increases saturation in the patient's
blood, but also has various secondary effects. It is therefore used to treat diseases that
impairs body's ability to take up and use oxygen. But even healthy people can suffer from
hypoxia when they ascend to high altitude. Here, altitude sickness can lead to potentially
fatal complications such as high altitude cerebral edema or high altitude pulmonary edema.
Since hypoxia can have disastrous consequences, hyperoxia is often tolerated in many pre-
and in-hospital situations.
Whereas the effects of hypoxia are well studied, especially publications in the last decade
have led to a new perspective on oxygen application. Besides pathophysiological changes as
the peripheral vasoconstriction or reduction of contractility, especially changes on
cellular level seem to be of great importance. Here, oxidative stress and change of protein
synthesis in various organ are focus of current studies.
The differential analysis of protein expression in tissues (proteomics) is an important
approach for better understanding of the negative effects of hyperoxia. Especially for
patients with long-term high oxygen demand the knowledge of cellular changes during
hyperoxia can result in new therapeutic approaches and a reduction in the rate of
complications.
In the present molecular biology study urine and blood samples of healthy volunteers will be
collected at specified times after short-term exposure to oxygen. These samples will be
analyzed after the study using the differential analysis of protein expression. The aim of
this study is to investigate the effects of oxygen on the cell functions by analyzing and
subsequent bioinformatic processing of differentially regulated proteins in the blood and
urine.
After checking the inclusion and exclusion criteria biometric data of the test persons are
collected.
Before short-term hyperoxia a sample collection of blood and urine will be performed. Here
the participants are taken 5 ml of venous blood from the cephalic vein under sterile
conditions. To obtain the urine sample spontaneous urine of participants is used. The
samples are immediately centrifuged and flash frozen at -80°C. In order to exclude
impairment of the lung prior to the short-term hyperoxia a pulmonary function test is
carried out by using a hand spirometer.
To induce hyperoxia subjects inhale 100% oxygen for 3 hours through a face mask.
After carrying out the short term hyperoxia the follow up phase takes place. In this phase
blood and urine samples from the subjects will be obtained directly after the hyperoxia
(T0), on day 1 (T1), day 3 (T3), day 7 (T7), day 14 (T14), day 21 (T21) and day 28 (T28)
after oxygen exposure. All samples will be centrifuged immediately after collection and
flash frozen at -80 ° C. To exclude hyperoxia-induced lung impairments, a spirometry is
performed during the follow up.
After the samples of all subjects were collected the analysis of the samples will be carried
out using Proteomics.
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Endpoint Classification: Safety Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Basic Science
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