Background Of the 1.5 million people diagnosed with pleural effusion annually in the U.S., approximately 178,000 undergo thoracentesis. While it is known that malignant pleural effusion portends a poor prognosis, mortality of patients with nonmalignant effusions has not been well studied. Methods This prospective cohort study evaluated 308 patients undergoing thoracentesis. Chart review was performed to obtain baseline characteristics. The etiology of the effusions was determined using standardized criteria. Mortality was determined at 30-days and 1-year. Results 247 unilateral and 61 bilateral thoracenteses were performed. Malignant effusion had the highest 30-day (37%) and 1 year (77%) mortality. There was substantial patient 30-day and 1-year mortality with effusions due to multiple benign etiologies (29% and 55%), CHF (22% and 53%), and renal failure (14% and 57%). Patients with bilateral pleural effusion, relative to unilateral, were associated with higher risk of death at 30 days and 1 year (17% versus 47%; HR 2.58 CI [1.44–4.63] and 36% versus 69%; HR 2.32 CI [1.55–3.48]). Conclusions Patients undergoing thoracentesis for pleural effusion have high short and long-term mortality. Patients with malignant effusion had the highest mortality followed by multiple benign etiologies, CHF and renal failure. Bilateral pleural effusion is distinctly associated with high mortality.
Both benign and MPEs are associated with high mortality. Prognostic models and studies comparing treatment modality effect on survival will continue to guide management of these complex problems.
Background: Pleural effusions may be aspirated manually or via vacuum during thoracentesis. This study compares the safety, pain level, and time involved in these techniques. Methods: We randomized 100 patients receiving ultrasound-guided unilateral thoracentesis in an academic medical center from December 2015 through September 2017 to either vacuum or manual drainage. Without using pleural manometry, the effusion was drained completely or until the development of refractory symptoms. Measurements included self-reported pain before and during the procedure (from 0 to 10), time for completion of drainage, and volume removed. Primary outcomes were rates of all-cause complications and of early termination of the procedure with secondary outcomes of change in pain score, drainage time, volume removed, and inverse rate of removal. Results: Patient characteristics in the manual (n=49) and vacuum (n=51) groups were similar. Rate of all-cause complications was higher in the vacuum group (5 vs. 0; P=0.03): pneumothorax (n=3), surgically treated hemothorax with subsequent death (n=1) and reexpansion pulmonary edema causing respiratory failure (n=1), as was rate of early termination (8 vs. 1; P=0.018). The vacuum group exhibited greater pain during drainage (P<0.05), shorter drainage time (P<0.01), no association with volume removed (P>0.05), and lower inverse rate of removal (P≤0.01). Conclusion: Despite requiring less time, vacuum aspiration during thoracentesis was associated with higher rates of complication and of early termination of the procedure and greater pain. Although larger studies are needed, this pilot study suggests that manual aspiration provides greater safety and patient comfort.
Because the incidence of organ fibrosis increases with age, various fibrosing disorders are projected to account for significant increases in morbidity, mortality, and healthcare costs in the years to come. Treatments for these diseases are scarce and better understanding of the immunopathogenesis of fibrosis and its relationship to aging are sorely needed. One area of interest in this field is the role that fibrocytes might play in the development of tissue remodeling and fibrosis. Fibrocytes are mesenchymal progenitor cells presumed to be of monocyte origin that possess the tissue remodeling properties of tissue resident fibroblasts such as extracellular matrix production and α-SMA-related contractile properties, as well as the immunologic functions typically attributed to macrophages including production of cytokines and chemokines, antigen presentation, regulation of leukocyte trafficking, and modulation of angiogenesis. Fibrocytes could participate in the development of age-related fibrosing disorders through any or all of these functions. This chapter presents methods that have been developed for the study of circulating human fibrocytes. Protocols for the quantification of fibrocytes in the human circulation will be presented along with discussion of the technical challenges that are frequently encountered in this field. It is hoped that this information will facilitate further investigation of the relationship between fibrocytes, aging, and fibrosis, and perhaps uncover new areas of study in these difficult-to-treat and deadly diseases.
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