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In healthy individuals, human rhinovirus (HRV) infections are the major cause of the common cold. These are generally uncomplicated infections except for occasional cases of otitis media or sinusitis. In individuals with asthma, however, HRV infections can have a major impact on disease development and progression. ⋯ Thus, a better understanding of the role of HRV in asthma is important if we are to develop more effective therapies. In the past decade, we have gained new insights into the role of HRV infections in the development and progression of airway remodeling as well as a new appreciation for the proinflammatory and host defense responses to HRV infections that may help to regulate susceptibility to asthma exacerbations. This article reviews the current understanding of the role HRV infections play in the pathogenesis of asthma and identifies possible avenues to new therapeutic strategies for limiting the effects of HRV infections in asthma.
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Selecting a strategy (surveillance, biopsy, resection) for pulmonary nodule evaluation can be complex given the absence of high-quality data comparing strategies and the important tradeoffs among strategies. Guidelines recommend a three-step approach: (1) assess the likelihood of malignancy, (2) evaluate whether the patient is a candidate for invasive intervention, and (3) elicit the patient's preferences and engage in shared decision-making. We sought to characterize how pulmonologists select a pulmonary nodule evaluation strategy and the extent to which they report following the guideline-recommended approach. ⋯ Although pulmonologists appear to routinely personalize pulmonary nodule evaluation strategies based on the individual patient's risk-benefit tradeoffs, they may not consistently take patient preferences into account during the decision-making process. In the absence of high-quality evidence regarding the optimal methods of pulmonary nodule evaluation, physicians should strive to ensure that management decisions are consistent with patients' values.
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COPD is characterized by chronic airway inflammation and remodeling, with serious modifications of the extracellular matrix (ECM). Hyaluronic acid (HA) is an abundant ECM molecule in the lung with various biologic functions that depend on its molecular weight (MW). High-MW HA exhibits antiinflammatory and immunosuppressive effects, whereas low-MW HA is proinflammatory. In this study, we investigated whether acute exacerbations of COPD (AECOPDs), which affect patient quality of life and survival, are associated with altered HA turnover in BAL. ⋯ AECOPDs are associated with increased HYAL activity in BAL and subsequent degradation of HA, which may contribute to airway inflammation and subsequent lung function decline during exacerbations.