Bronchopulmonary dysplasia (BPD) is a chronic inflammatory lung disease of very-lowbirth-weight (VLBW) preterm infants, associated with arrested lung development and a need for supplemental oxygen. Over the past few decades, the incidence of BPD has significantly raised as a result of improved survival of VLBW infants requiring mechanical ventilation. While early disease detection is critical to prevent chronic lung remodeling and complications later in life, BPD is often difficult to diagnose and prevent due to the lack of good biomarkers for identification of infants at risk, and overlapping symptoms with other diseases, such as pulmonary hypertension (PH). Due to the current lack of effective treatment available for BPD and PH, research is currently focused on primary prevention strategies, and identification of biomarkers for early diagnosis, that could also represent potential therapeutic targets. In addition, novel histopathological, biochemical, and molecular factors have been identified in the lung tissue and in biological fluids of BPD and PH patients that could associate with the disease phenotype. In this review, we provide an overview of biomarkers for pediatric BPD and PH that have been identified in clinical studies using various biological fluids. We also present a brief summary of the information available on current strategies and guidelines to prevent and diagnose BPD and PH, as well as their pathophysiology, risk factors, and experimental therapies currently available.
Background: Cystic Fibrosis (CF) is the most common life limiting genetic disorder, characterized by chronic respiratory failure secondary to inflammation and chronic bacterial lung infection. Pseudomonas aeruginosa lung infection is associated with more severe lung disease and rapid progression of respiratory failure when compared to Staphylococcus aureus infection. We hypothesized that a specific signature of epigenetic factors targeting specific gene transcripts contributes to the increased morbidity seen in CF patients with chronic Pseudomonas infection. Methods: We collected exhaled breath condensate (EBC) from 27 subjects and evaluated miRNA signatures in these samples using commercial PCR array. We identified predicted mRNA targets and associated signaling pathways using Ingenuity Pathway Analysis. Results: We found 11 differentially expressed miRNAs in EBC of patients infected with Pseudomonas aeruginosa compared to EBC from CF patients who were not chronically infected with Pseudomonas aeruginosa (p < 0.05). Six of these miRNAs (hsa-miRNA-1247, hsa-miRNA-1276, hsa-miRNA-449c, hsa-miRNA-3170, hsa-miRNA-432-5p and hsa-miR-548) were significantly different in the CF Pseudomonas positive group when compared to both the CF Pseudomonas negative group and healthy control group. Ingenuity pathway analysis (IPA) revealed organismal injury and abnormalities, reproductive system disease and cancer as the top diseases and bio functions associated with these miRNAs. IPA also detected RELA,
Accumulating evidence indicates that exposure to air pollution is associated with increased mortality from respiratory disease. Exposure to ambient pollutants, such as ozone, particulate matter, sulfur dioxide, nitrogen dioxide, and other agents has been associated with decrease in lung function and immunity, and with increased rates of hospitalization for lung disease, including pneumonia. Furthermore, sex differences in frequency and severity of pulmonary disease and infection have been reported, suggesting a role of sex hormones in mediating these differences. Pneumonia, which is commonly caused by bacterial infection and subsequent lung inflammation leading to hospitalization and death, occurs at different rates in men and women. In this context, male and female hormones can have direct effects on the immunity system by binding to receptors in immune cells, and these responses can be modulated by environmental exposures. This chapter summarizes clinical, animal, and epidemiological studies linking exposure to air pollution and pneumonia in both males and females. Understanding sex-specific mechanisms in pneumonia pathogenesis and environmental responses can help in the development of more effective therapeutics and treatment options to reduce negative health outcomes in men and women.
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