High total antioxidant activity and uric acid in tracheobronchial aspirate fluid of preterm infants during oxidative stress: an adaptive response to hyperoxia?

The effect of O2 exposure, expressed by mean daily fractional inspired oxygen concentration (FiO2), was evaluated during the first 6 d of life in the tracheobronchial aspirate fluid of 16 mechanically ventilated preterm infants in terms of both antioxidant response and oxidative damage, by measuring...

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Published in:Acta Paediatrica 2000-03, Vol.89 (3), p.336-342
Main Authors: Vento, G, Mele, MC, Mordente, A, Romagnoli, C, Matassa, PG, Zecca, E, Zappacosta, B, Persichilli, S
Format: Article
Language:English
Subjects:
Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy
Antioxidants - metabolism
Biological and medical sciences
Bronchi - chemistry
Bronchi - metabolism
Carbonyl content
Emergency and intensive care: neonates and children. Prematurity. Sudden death
Exudates and Transudates - chemistry
Feasibility Studies
Female
Humans
Hyperoxia - metabolism
Infant, Low Birth Weight
Infant, Newborn
Infant, Premature - metabolism
Intensive care medicine
Linear Models
Male
Medical sciences
Oxidative Stress - physiology
Oxygen - administration & dosage
Oxygen - analysis
Respiration, Artificial
Respiratory Distress Syndrome, Newborn - therapy
Surface-Active Agents - therapeutic use
total antioxidant activity
Trachea - chemistry
Trachea - metabolism
tracheobronchial aspirate fluid
uric acid
Uric Acid - analysis
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creator Vento, G
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Mordente, A
Romagnoli, C
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Zecca, E
Zappacosta, B
Persichilli, S
description The effect of O2 exposure, expressed by mean daily fractional inspired oxygen concentration (FiO2), was evaluated during the first 6 d of life in the tracheobronchial aspirate fluid of 16 mechanically ventilated preterm infants in terms of both antioxidant response and oxidative damage, by measuring total antioxidant activity, uric acid concentrations and protein carbonyl content. Each day linear regression analysis was performed and a positive correlation was found between total antioxidant activity and FiO2 during the study period, especially on day 2 of life (r= 0.91, p < 0.0001), but uric acid correlated only in the first 3 d, especially on the 2nd day (r= 0.83, p < 0.0001). No correlation was found between carbonyl content and FiO2. The highest values of total antioxidant activity (416 and 790 μmol l−1) were found in 2 babies ventilated with highest FiO2: 1 and 0.80, respectively. Total antioxidant activity was not detectable or was very low in the babies not requiring O2 therapy. The highest value of uric acid (270 μmol l−1) was found in the baby ventilated with 100% oxygen. Uric acid concentrations obtained in these babies were much higher then those reported in the bronchoalveolar lavage fluid of adults. Preterm babies seem to have an antioxidant response in the tracheobronchial aspirate fluid following an oxidative stress and uric acid may be physiologically important as an antioxidant of the respiratory tract, especially during the first days of life.
doi_str_mv 10.1111/j.1651-2227.2000.tb01336.x
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subjects Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy
Antioxidants - metabolism
Biological and medical sciences
Bronchi - chemistry
Bronchi - metabolism
Carbonyl content
Emergency and intensive care: neonates and children. Prematurity. Sudden death
Exudates and Transudates - chemistry
Feasibility Studies
Female
Humans
Hyperoxia - metabolism
Infant, Low Birth Weight
Infant, Newborn
Infant, Premature - metabolism
Intensive care medicine
Linear Models
Male
Medical sciences
Oxidative Stress - physiology
Oxygen - administration & dosage
Oxygen - analysis
Respiration, Artificial
Respiratory Distress Syndrome, Newborn - therapy
Surface-Active Agents - therapeutic use
total antioxidant activity
Trachea - chemistry
Trachea - metabolism
tracheobronchial aspirate fluid
uric acid
Uric Acid - analysis
title High total antioxidant activity and uric acid in tracheobronchial aspirate fluid of preterm infants during oxidative stress: an adaptive response to hyperoxia?
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