Effects of Oxygen Treatment on Mechanisms Involved in Ischemia-reperfusion Injury: A Pilot Study in Healthy Volunteers

HYPOTHESIS The main hypothesis is that oxygen treatment can increase oxidative stress, systemic inflammation, markers of apoptosis, matrix metalloproteinases (MMPs) and their tissue inhibitor (TIMPs) in individuals subjected to endotoxin-induced inflammation. The investigators also hypothesize that pretreatment with statins can prevent this oxygen effect.

AIMS

• To evaluate whether oxygen treatment can increase oxidative stress in healthy volunteers subjected to vaccine-induced inflammation.
• To assess the effect of oxygen treatment on plasma levels of soluble markers of apoptosis, MMPs and TIMPs in healthy volunteers with vaccine-induced inflammation.
• To study the effect of oxygen treatment on systemic inflammatory activity and leukocyte subset distribution in healthy volunteers with vaccine-induced inflammation.
• To evaluate the effect of oxygen treatment on platelet aggregation in healthy volunteers with vaccine-induced inflammation.
• To determine whether a potential oxygen effect on these cellular- and biomarkers can be prevented by pretreatment with Atorvastatin.
• To serve as a pilot study and basis for power calculations for a future planned study: "Effects of oxygen treatment on biomarkers of reperfusion damage and infarct size in ST-elevation myocardial infarction patients undergoing primary PCI".

DESIGN The present study is an experimental randomized pilot study in healthy volunteers.

STUDY POPULATION The investigators intend to include 36 healthy male volunteers. Females will not be included, due to the potential risk of hazardous effects of Salmonella typhi vaccine and Atorvastatin to a fetus in case of pregnancy.

STUDY DESIGN

At the time of inclusion all study participants will be randomised into one of three intervention groups:

Group 1) Salmonella typhi vaccine Group 2) Salmonella typhi vaccine + oxygen treatment Group 3) Salmonella typhi vaccine + oxygen treatment + Atorvastatin At 8.00 am on study day a peripheral venous catheter will be inserted. This catheter will be used to collect blood sample during the study day. In addition, peripheral oxygen saturation will be measured by pulse oximetry. After baseline venous blood samples have been collected, all study participants will receive 0.5 mL of the Salmonella typhi vaccine as an intramuscular injection (Typhim Vi®, Sanofi Pasteur MSD, injection solution 25 microgram/0.5 mL).

Half an hour after vaccination is administered, oxygen treatment will be initiated (in group 2 and 3) at 6 L/min via Oxymask® and continued for 6 hours. During oxygen treatment peripheral oxygen saturation will be measured by pulsoximetry. In group 3, a single dose of Atorvastatin 80 mg will be given immediately prior to start of oxygen. Venous blood samples will be collected at 3, 6 and 8 hours after baseline. After the 8-hour blood sampling, the peripheral venous catheter will be removed and the study day ended.

An experienced registered nurse and a resident or specialist in Cardiology and Internal Medicine will be present during the entire study day taking care of all study interventions, collecting blood samples and register data into the case report form (CRF) including potential adverse events.

EFFICACY OUTCOMES

• To determine the effect of oxygen treatment on biomarkers of oxidative stress, apoptosis, matrix metalloproteinases, markers of inflammation and platelet aggregation in healthy volunteers with Salmonella typhi vaccine-induced inflammation.
• To compare levels of these cellular- and biomarkers over time during an 8-hour study day.

SUMMARY The presented study is an experimental randomized pilot study performed in healthy volunteers with a Salmonella typhi vaccine-induced inflammation with the purpose of studying to date unknown effects of oxygen treatment on biological systems involved in the pathogenesis of IR- injury. As part of the DETO2X trial series, this study aims to contribute essential knowledge to clarifying the role of oxygen in treatment of acute myocardial infarction.