Lung
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Advanced pulmonary arterial hypertension is characterized by extensive vascular remodeling that is usually resistant to vasodilator therapy. As the major component of the vascular media, decreased apoptosis of pulmonary arterial smooth muscle cell (PASMC) plays key roles during pulmonary vascular remodeling. ⋯ Enhancement of apoptosis of PASMC is becoming a novel strategy to reverse severe pulmonary arterial hypertension. This review analyzes some potential strategies to reverse pulmonary vascular remodeling.
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Bronchopleural (BPF) and alveolar-pleural (APF) fistulas are frequently encountered in clinical practice with persistent air leaks that can lead to significant morbidity, prolonged hospital stay, and potentially increased mortality. BPF and APF are commonly related to pulmonary resections. Other etiologies include minimally invasive procedures (thoracentesis and image-guided biopsies), and spontaneous fistulas related to an underlying structural lung disease (e.g., emphysema) or a necrotizing pulmonary process (e.g., infection or malignancy). ⋯ A variety of minimally invasive bronchoscopic approaches can be considered for selected nonsurgical candidates. The use of one-way endobronchial valves to manage severe and persistent air leaks can be considered a minimally invasive option in selected patients. The valves selectively block inspiratory airflow to a specific segmental or subsegmental airway but allow expiratory flow with drainage of air and secretions from the corresponding distal airways and lung parenchyma.