TY - JOUR
T1 - Oxidative stress, redox status and surfactant metabolism in mechanically ventilated patients receiving different approaches to oxygen therapy (MecROX): An observational study protocol for mechanistic evaluation
AU - Dushianthan, Ahilanandan
AU - Martin, Daniel
AU - Mouncey, Paul
AU - Shahid, Tasnin
AU - Lampro, Lamprini
AU - Johnson, Amelia francis
AU - Goss, Victoria
AU - Cazley, Angelica
AU - Herbert, William
AU - Jones, William
AU - Lamond, Mark
AU - Neyroud, Florence
AU - Salmon, Karen
AU - Lentaigne, Julian
AU - Minnion, Magdalena
AU - Panchal, Madhuri
AU - Koster, Grielof
AU - Moyses, Helen
AU - Postle, Anthony d
AU - Feelisch, Martin
AU - Grocott, Michael p w
PY - 2024/4/26
Y1 - 2024/4/26
N2 - Background: MecROX is a mechanistic sub-study of the UK-ROX trial which was designed to evaluate the clinical and cost-effectiveness of a conservative approach to oxygen therapy for invasively ventilated adults in intensive care. This is based on the scientific rationale that excess oxygen is harmful. Epithelial cell damage with alveolar surfactant deficiency is characteristic of hyperoxic acute lung injury. Additionally, hyperoxaemia (excess blood oxygen levels) may exacerbate whole-body oxidative stress leading to cell death, autophagy, mitochondrial dysfunction, bioenergetic failure and multi-organ failure resulting in poor clinical outcomes. However, there is a lack of in-vivo human models evaluating the mechanisms that underpin oxygen-induced organ damage in mechanically ventilated patients. Aim: The aim of the MecROX mechanistic sub-study is to assess lung surfactant composition and global systemic redox status to provide a mechanistic and complementary scientific rationale to the UK-ROX trial findings. The objectives are to quantify in-vivo surfactant composition, synthesis, and metabolism with markers of oxidative stress and systemic redox disequilibrium (as evidenced by alterations in the ‘reactive species interactome’) to differentiate between groups of conservative and usual oxygen targets. Methods and design: After randomisation into the UK-ROX trial, 100 adult participants (50 in the conservative and 50 in usual care group) will be recruited at two trial sites. Blood and endotracheal samples will be taken at 0, 48 and 72 hours following an infusion of 3 mg/kg methyl-D
9-choline chloride. This is a non-radioactive, stable isotope of choline (vitamin), which has been extensively used to study surfactant phospholipid kinetics in humans. This study will mechanistically evaluate the in-vivo surfactant synthesis and breakdown (by hydrolysis and oxidation), oxidative stress and redox disequilibrium from sequential plasma and bronchial samples using an array of analytical platforms. We will compare conservative and usual oxygenation groups according to the amount of oxygen administered. Trial registration: ISRCTN ISRCTN61929838, 27/03/2023 https://doi.org/10.1186/ISRCTN61929838.
AB - Background: MecROX is a mechanistic sub-study of the UK-ROX trial which was designed to evaluate the clinical and cost-effectiveness of a conservative approach to oxygen therapy for invasively ventilated adults in intensive care. This is based on the scientific rationale that excess oxygen is harmful. Epithelial cell damage with alveolar surfactant deficiency is characteristic of hyperoxic acute lung injury. Additionally, hyperoxaemia (excess blood oxygen levels) may exacerbate whole-body oxidative stress leading to cell death, autophagy, mitochondrial dysfunction, bioenergetic failure and multi-organ failure resulting in poor clinical outcomes. However, there is a lack of in-vivo human models evaluating the mechanisms that underpin oxygen-induced organ damage in mechanically ventilated patients. Aim: The aim of the MecROX mechanistic sub-study is to assess lung surfactant composition and global systemic redox status to provide a mechanistic and complementary scientific rationale to the UK-ROX trial findings. The objectives are to quantify in-vivo surfactant composition, synthesis, and metabolism with markers of oxidative stress and systemic redox disequilibrium (as evidenced by alterations in the ‘reactive species interactome’) to differentiate between groups of conservative and usual oxygen targets. Methods and design: After randomisation into the UK-ROX trial, 100 adult participants (50 in the conservative and 50 in usual care group) will be recruited at two trial sites. Blood and endotracheal samples will be taken at 0, 48 and 72 hours following an infusion of 3 mg/kg methyl-D
9-choline chloride. This is a non-radioactive, stable isotope of choline (vitamin), which has been extensively used to study surfactant phospholipid kinetics in humans. This study will mechanistically evaluate the in-vivo surfactant synthesis and breakdown (by hydrolysis and oxidation), oxidative stress and redox disequilibrium from sequential plasma and bronchial samples using an array of analytical platforms. We will compare conservative and usual oxygenation groups according to the amount of oxygen administered. Trial registration: ISRCTN ISRCTN61929838, 27/03/2023 https://doi.org/10.1186/ISRCTN61929838.
KW - Hyperoxia
KW - Mechanical ventilation
KW - Oxidative stress
KW - Oxygen
KW - Redox
KW - Surfactant
UR - http://www.scopus.com/inward/record.url?scp=85201003522&partnerID=8YFLogxK
M3 - Article
SN - 2633-4402
VL - 4
SP - 23
JO - NIHR Open Research
JF - NIHR Open Research
M1 - 23
ER -