Plasma fatty acid changes and increased lipid peroxidation in patients with adult respiratory distress syndrome
There is strong evidence that adult patients with acute respiratory distress syndrome (ARDS) are under severe oxidative stress, which leads to molecular damage.Design
Prospective, nonintervention, descriptive study. Limited statistics were applied to facilitate interpretation of the data.Setting
ICU of a postgraduate teaching hospital.Patients
Eighteen critically ill patients with an established diagnosis of ARDS requiring high FIO2 administered by mechanical ventilation were compared with ten normal, healthy controls and ten patients pre- and postcardiopulmonary bypass surgery at risk for developing ARDS.Interventions
None.Measurements and Main Results
Sixty percent of the patients with ARDS included in this study survived. Major changes in the plasma concentrations of fatty acids occurred in all patients during their stay in the ICU. Percentage decreases in plasma linoleic acid concentrations were accompanied by increases in plasma oleic and palmitoleic acid concentrations. Circulating linoleic acid concentrations were significantly (p equals .0001) lower in patients with ARDS than in the two control groups. The patients with ARDS who did not survive had lower (p equals .0056) plasma oleic acid values than normal healthy controls and patients at risk for ARDS as a consequence of undergoing cardiopulmonary bypass surgery. Changes in palmitoleic acid, however, did not reach significance within the different groups studied. Patients with ARDS showed higher plasma concentrations of 4-hydroxy-2-nonenal (0.433 plus minus 0.048 vs. 0.523 plus minus 0.069 nmol/mL plasma for survivors and nonsurvivors, respectively) when compared with normal healthy controls (0.205 plus minus 0.03 nmol/mL, p equals .0001) and cardiopulmonary bypass patients at risk for developing ARDS (0.279 plus minus 0.027 nmol/mL, p equals .034 prebypass).Conclusions
During intensive care treatment, patients with ARDS decrease their percentage plasma concentrations of total plasma linoleic acid, but increase their percentage concentrations of oleic and palmitoleic acids. As plasma linoleic acid concentrations decreased, there was usually an increase in plasma 4-hydroxy-2-nonenal values, one of its specific peroxidation products, suggestive of severe oxidative stress leading to molecular damage to lipids.