BACKGROUND: RSV-infected children demonstrate various radiographic features, some of which are associated with worse clinical outcomes. OBJECTIVE: To investigate whether specific chest radiological patterns in RSV-infected children with acute respiratory failure (ARF) in the peri-intubation period are associated with prolonged duration of mechanical ventilation. MATERIALS AND METHODS: We included RSV-infected children <1 year of age admitted with ARF from 1996 through 2002 to the pediatric intensive care unit at Massachusetts General Hospital. Their chest radiographs were evaluated at three time-points: preintubation (day -1) and days 1 and 2 after intubation. Univariate and multiple logistic regressions models were utilized to investigate our objective. RESULTS: The study included 46 children. Using day 1 chest radiograph findings to predict duration of mechanical ventilation of >8 days, a backward stepwise regression arrived at a model that included age and right and left lung atelectasis. Using day 2 chest radiograph results, the best model included age and left lung atelectasis. A model combining the two days' findings yielded an area under the ROC curve of 0.92 with a satisfactory fit (P = 0.95). CONCLUSION: Chest radiological patterns around the time of intubation can identify children with RSV-associated ARF who would require prolonged mechanical ventilation.
BACKGROUND:RSV-infectedchildren demonstrate various radiographic features, some of which are associated with worse clinical outcomes. OBJECTIVE: To investigate whether specific chest radiological patterns in RSV-infectedchildren with acute respiratory failure (ARF) in the peri-intubation period are associated with prolonged duration of mechanical ventilation. MATERIALS AND METHODS: We included RSV-infectedchildren <1 year of age admitted with ARF from 1996 through 2002 to the pediatric intensive care unit at Massachusetts General Hospital. Their chest radiographs were evaluated at three time-points: preintubation (day -1) and days 1 and 2 after intubation. Univariate and multiple logistic regressions models were utilized to investigate our objective. RESULTS: The study included 46 children. Using day 1 chest radiograph findings to predict duration of mechanical ventilation of >8 days, a backward stepwise regression arrived at a model that included age and right and left lung atelectasis. Using day 2 chest radiograph results, the best model included age and left lung atelectasis. A model combining the two days' findings yielded an area under the ROC curve of 0.92 with a satisfactory fit (P = 0.95). CONCLUSION: Chest radiological patterns around the time of intubation can identify children with RSV-associated ARF who would require prolonged mechanical ventilation.
Authors: Mirna M Farah; Lisa B Padgett; David J McLario; Kevin M Sullivan; Harold K Simon Journal: Pediatr Emerg Care Date: 2002-10 Impact factor: 1.454