O2 dependence of in vivo brain cytochrome redox responses and energy metabolism in bloodless rats.
Oxygen-dependent changes in brain cytochrome redox state and cerebrocortical energy metabolism were evaluated in fluorocarbon-circulated rats at hematocrits of less than 1%. Redox levels of three respiratory chain cytochrome complexes, b, c, and a,a3 (cytochrome c oxidase), were continuously measured directly through the intact skulls of animals using reflectance spectrophotometry. The in vivo redox status of cytochromes at different FiO2 was directly compared with in vitro measured changes in cortical metabolites known to reflect energy production, i.e., glucose, pyruvate, lactate, phosphocreatine (PCr), ADP, and ATP. Lowering the FiO2 to less than 1.0 caused the cytochromes to become increasingly more reduced. This was associated with increased tissue accumulation of pyruvate and lactate and a concomitant increase in the lactate/pyruvate (L/P) ratio. At FiO2 = 0.6, cytochromes b, c, and a,a3 were 57, 53, and 46% reduced, respectively. There was no apparent cerebral energy deficit since changes in cortical PCr, ADP, and ATP concentrations were not statistically significant. Bloodless animals did not survive below FiO2 = 0.5. At this FiO2, the inability of the animals to sustain arterial pressure correlated (r = 0.87) with depletion of PCr and further increases in the L/P ratio (r = 0.66). Yet, the cortical ATP content was reduced by only 9% of control value. These data provide direct evidence that fluorocarbon emulsion (FC-43) sustains brain oxygenation and energy metabolism at high partial pressures of molecular O2. At lower FiO2, however, mitochondrial O2 uptake becomes limited as a function of decreasing perfusion pressure.
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- Rats, Inbred Strains
- Rats
- Oxygen
- Oxidation-Reduction
- Neurology & Neurosurgery
- Energy Metabolism
- Cytochromes
- Brain
- Animals
- Adenosine Triphosphate
Citation
Published In
DOI
ISSN
Publication Date
Volume
Issue
Start / End Page
Location
Related Subject Headings
- Rats, Inbred Strains
- Rats
- Oxygen
- Oxidation-Reduction
- Neurology & Neurosurgery
- Energy Metabolism
- Cytochromes
- Brain
- Animals
- Adenosine Triphosphate