[An outline of pulmonary hemorrhage - A pulmonologists perspective]. / Eine Einführung in die pulmonale Hämorrhagie aus Sicht der Pneumologie.

Hemoptysis resembles a clinical emergency and necessitates a fast and well-coordinated diagnostic and therapeutic approach. While up to 50% of the underlying causes remain unidentified, the majority of cases in the western world can be attributed to respiratory infections and pulmonary neoplasm. While 10% of the patients present with massive, life-threatening hemoptysis, which require a timely airway protection in order to secure a sustained pulmonary gas-exchange, the vast majority presents with non-critical pulmonary bleeding events. Most critical pulmonary bleeding events arise from the bronchial circulation. An early chest imaging is key for identifying the bleeding cause and localization. While chest x-rays are widely implemented in the clinical work-flow and rapidly applicable, computed tomography and computed tomography angiography exhibit the highest diagnostic yield. Bronchoscopy can add diagnostic information especially in pathologies of the central airways, while offering multiple therapeutic options to maintain pulmonary gas exchange. The initial therapeutic regimen comprises early supportive care, but treatment of the underlying etiology is of prognostic relevance and avoids recurrent bleeding events. Bronchial arterial embolization usually is the therapy of choice in patients with massive hemoptysis, while definitive surgery is reserved for patients with refractory bleeding and complex pathologies.

A Case Report and Review of the Literature: Infectious Aneurysm Formation in the Pulmonary Arteries-A Rare but Perilous Sequela of Persisting Infection With Klebsiella pneumoniae.

Septic aneurysms of the pulmonary artery are rare conditions, with few cases having been reported worldwide. They are assumed to result from septic emboli that cause a local inflammatory reaction of the arterial wall, ultimately leading to degenerative changes. We report the case of a 63-year-old female patient presenting with Klebsiella pneumoniae urosepsis and first diagnosis of diabetes mellitus, who developed a life-threatening infectious pulmonary artery aneurysm secondary to bacteremia with Klebsiella pneumoniae. The patient required a lobectomy due to pulmonary hemorrhage. We review the clinical hallmarks of Klebsiella pneumoniae related septic pulmonary embolic disease and summarize currently known risk factors for the development of infectious aneurysmatic disease including diabetes mellitus and other states of immunosuppression. The featured case aims to increase the awareness for this seldom but life-threatening complication of infectious diseases such as Klebsiella pneumoniae urosepsis.

Corrigendum: Alveolar Dynamics and Beyond - the Importance of Surfactant Protein C and Cholesterol in Lung Homeostasis and Fibrosis.

[This corrects the article DOI: 10.3389/fphys.2020.00386.].

Alveolar Dynamics and Beyond - The Importance of Surfactant Protein C and Cholesterol in Lung Homeostasis and Fibrosis.

Surfactant protein C (SP-C) is an important player in enhancing the interfacial adsorption of lung surfactant lipid films to the alveolar air-liquid interface. Doing so, surface tension drops down enough to stabilize alveoli and the lung, reducing the work of breathing. In addition, it has been shown that SP-C counteracts the deleterious effect of high amounts of cholesterol in the surfactant lipid films. On its side, cholesterol is a well-known modulator of the biophysical properties of biological membranes and it has been proven that it activates the inflammasome pathways in the lung. Even though the molecular mechanism is not known, there are evidences suggesting that these two molecules may interplay with each other in order to keep the proper function of the lung. This review focuses in the role of SP-C and cholesterol in the development of lung fibrosis and the potential pathways in which impairment of both molecules leads to aberrant lung repair, and therefore impaired alveolar dynamics. From molecular to cellular mechanisms to evidences in animal models and human diseases. The evidences revised here highlight a potential SP-C/cholesterol axis as target for the treatment of lung fibrosis.

Air Space Distension Precedes Spontaneous Fibrotic Remodeling and Impaired Cholesterol Metabolism in the Absence of Surfactant Protein C.

Surfactant protein (SP)-C deficiency is found in samples from patients with idiopathic pulmonary fibrosis, especially in familial forms of this disease. We hypothesized that SP-C may contribute to fibrotic remodeling in aging mice and alveolar lipid homeostasis. For this purpose, we analyzed lung function, alveolar dynamics, lung structure, collagen content, and expression of genes related to lipid and cholesterol metabolism of aging SP-C knockout mice. In addition, in vitro experiments with an alveolar macrophage cell line exposed to lipid vesicles with or without cholesterol and/or SP-C were performed. Alveolar dynamics showed progressive alveolar derecruitment with age and impaired oxygen saturation. Lung structure revealed that decreasing volume density of alveolar spaces was accompanied by increasing of the ductal counterparts. Simultaneously, septal wall thickness steadily increased, and fibrotic wounds appeared in lungs from the age of 50 weeks. This remarkable phenotype is unique to the 129Sv strain, which has an increased absorption of cholesterol, linking the accumulation of cholesterol and the absence of SP-C to a fibrotic remodeling process. The findings of this study suggest that overall loss of SP-C results in an age-dependent, complex, heterogeneous phenotype characterized by a combination of overdistended air spaces and fibrotic wounds that resembles combined emphysema and pulmonary fibrosis in patients with idiopathic pulmonary fibrosis. Addition of SP-C to cholesterol-laden lipid vesicles enhanced the expression of cholesterol metabolism and transport genes in an alveolar macrophage cell line, identifying a potential new lipid-protein axis involved in lung remodeling.