Articles: respiratory-distress-syndrome.
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Pediatric pulmonology · Jan 1991
Birthweight, early passive respiratory system mechanics, and ventilator requirements as predictors of outcome in premature infants with respiratory failure.
Early respiratory mechanics have been reported to predict outcome in newborns with respiratory failure. However, it remains unknown whether measurements of pulmonary function add significantly to the predictive value of more readily available variables The present study was designed to answer this question. Passive respiratory system mechanics were measured by an airway occlusion technique in 104 ventilator-dependent premature infants between 6 and 48 hours of life and corrected for infant size. ⋯ Respiratory system conductance (P = 0.15) and compliance (P = 0.93) entered on the third and last step, respectively. We conclude that in premature infants with respiratory failure, birthweight is a strong predictor of outcome. Early ventilator requirements but not respiratory system mechanics, add significantly to this predictive model.
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Pediatric pulmonology · Jan 1991
Relationship of symptoms to lung function abnormalities in preterm infants at follow-up.
Recurrent respiratory symptoms are common in preterm infants in the first 2 years of life. The aim of this study was to determine the lung function abnormalities associated with such symptoms. Forty preterm infants, with a median gestational age of 29 weeks were studied at a median postnatal age of 12 months. ⋯ Lung function was assessed by measurement of functional residual capacity (FRC), using a helium gas dilution technique, and airway resistance (Raw) and thoracic gas volume (TGV) plethysmographically. No significant difference was found in TGV between symptomatic and asymptomatic infants, but the median FRC was lower (P less than 0.01), Raw higher (P less than 0.01), and FRC:TGV ratio lower (P less than 0.001) in the symptomatic infants. These lung function abnormalities in the symptomatic infants are suggestive of gas trapping.
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Diffuse atelectasis often occurs in the dorsal region of the lung of critically ill patients under long term mechanical ventilation. Conventional physical therapies (ex. PEEP, Sigh) have little effect on diffuse dorsal atelectasis. ⋯ It was assumed that the prone position was the factor responsible for the improvement of pulmonary V/Q ratio, the change of movement pattern of the diaphragm, and the ease of postural drainage of sputum. There were no complications. We conclude that prone position respiratory care has high utility for critically ill patients with diffuse dorsal atelectasis.
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Serial pulmonary function tests were performed in 13 preterm infants with severe RDS and 16 premature neonates with healthy lungs (8 intubated because of hypovention after birth, 8 were breathing spontaneously). Airflow was measured by a pneumotachograph, pressure changes were determined by airway pressure in ventilated infants or esophageal pressure in spontaneously breathing neonates. Pulmonary mechanics were calculated by a computerized system (PEDS/Medical Associated Services, Hatfield, Pennsylvania). ⋯ In the course of the disease, improvement in gas exchange preceded increase of compliance. Intraindividual comparisons in the acute and recovery phase of RDS and in infants with normal lungs showed higher values for compliance and lower values for airway pressure and resistance during spontaneous breaths. The differences between dynamic compliance of the respiratory system measured during mechanical ventilation, and dynamic lung compliance recorded during spontaneous breaths are due to influences of the respirator on the infant's lung.