Several birth cohorts have defined the pivotal role of early lower respiratory tract infections (LRTI) in the inception of pediatric respiratory conditions. However, the association between early LRTI and the development of obstructive sleep apnea (OSA) in children had not previously been made.
Now, for the first time, researchers at Children’s National Hospital have identified the association between early LRTI and the development of OSA in children, according to a study published in the journal SLEEP.
“These results suggest that respiratory syncytial virus LRTI may contribute to the pathophysiology of OSA in children,” said Gustavo Nino, M.D., director of sleep medicine at Children’s National.
The study also demonstrated that children with a history of severe respiratory syncytial virus (RSV) bronchiolitis during early infancy had more than double the odds of developing OSA during the first five years of life independently of other risk factors.
“The results suggest that RSV LRTI may contribute to the pathophysiology of OSA in children, raising concern for the possibility that primary prevention strategies can hinder the initial establishment of OSA following early viral LRTIs,” said Dr. Nino. “Primary prevention of OSA in children would have a dramatic effect in reducing the increasing incidence of this condition and in preventing its detrimental effects on childhood health and beyond.”
The novel findings also raise the possibility that anticipatory strategies and interventions can be developed to identify and prevent the initial establishment of OSA following viral respiratory infections during early infancy. This could provide a dramatic effect in reducing the increasing incidence of this condition and its multiple detrimental effects on childhood health and beyond.
“Our study offers a new paradigm for investigating mechanisms implicated in the early pathogenesis of OSA in the pediatric population,” said Dr. Nino.
“The findings from this study suggest that viral lower respiratory tract infections could predispose to the development of sleep-disordered breathing in later childhood,” Brown said. “More research to determine how these infections affect airway function could lead to a better understanding of how sleep apnea develops in pediatric patients.”
This study includes funding support from the NIH, including the NHLBI.