Description

Oxygen therapy is widely used in hospitals and critical care, but excessive oxygen levels (hyperoxemia) can have both beneficial and harmful effects. In the brain, high oxygen may improve oxygen delivery, but it can also trigger oxidative stress, inflammation, and vascular dysfunction, potentially worsening outcomes. Antioxidants, such as vitamin C (ascorbic acid), may counteract these harmful effects by neutralizing reactive oxygen species and restoring redox balance. The CHE-OX-ANT study aims to investigate the physiological effects of a short normobaric hyperoxic stimulus (30 minutes of 100% oxygen breathing) in healthy volunteers, with and without prior antioxidant administration. The primary focus is on oxidative stress markers and microparticle production, while secondary objectives include effects on cerebral blood flow, sublingual microcirculation, and skin perfusion.

This is a prospective, interventional, single-center, randomized, single-blind, placebo-controlled physiological trial conducted at Erasme Hospital, Brussels. Each subject will serve as their own control, undergoing two study sessions one week apart. The study will recruit 10-15 healthy adult volunteers. Eligible participants must be \>18 years old, in good health, with no cardiovascular, neurological, hematological, or immunological disease. Exclusion criteria include smoking, pregnancy, BMI \>25, or contraindications to oxygen or vitamin

At each session, participants will receive one of two randomized pre-treatments, administered intravenously 30-60 minutes before oxygen exposure:

Vitamin C group: 1-3 g ascorbic acid in 500 mL saline infused over 20 minutes. Placebo group: 500 mL of saline infused over 20 minutes. Following this, participants will breathe 100% oxygen for 30 minutes through a reservoir mask. Measurements will be obtained at three timepoints: baseline (t0), immediately after oxygen (t1), and 2 hours post-exposure (t2).

Cerebral hemodynamics: Transcranial Doppler ultrasonography. Skin perfusion: laser Doppler or infrared techniques. Blood samples: venous and arterial blood for oxidative stress, antioxidant status, microparticles, and arterial blood gas analysis.

Blood pressure: continuous invasive monitoring via a radial arterial catheter. Endpoints Primary endpoint: Change in oxidative stress and microparticle levels. Secondary endpoints: Changes in cerebral hemodynamics and skin perfusion. This exploratory study will provide new insights into how oxygen affects the brain and peripheral perfusion, and whether antioxidant administration modifies these effects. The results may contribute to optimizing oxygen therapy in critically ill patients, where oxygen is widely used but may sometimes cause harm.