Introduction: Prolonged air leak (PAL) is a common complication following pulmonary resection. It is associated with pneumonia, empyema, increased length of hospital stay and health-care costs. Intraoperative techniqu...Introduction: Prolonged air leak (PAL) is a common complication following pulmonary resection. It is associated with pneumonia, empyema, increased length of hospital stay and health-care costs. Intraoperative techniques have been developed to mitigate the risk of developing a PAL, but for their use to be efficient, identification of patients at risk for PAL is necessary. Aim: To determine the incidence of PAL following lobectomy and lesser pulmonary resections, risk factors for development of PALs, and the impact of PAL on hospital stay and readmission rates. Methods: The following variables were analyzed as PAL risk factors: patient characteristics of age, sex, body mass index (BMI), forced minute expiratory volume and capacity ratio (FEV1 and FEV1/FVC), diffusion capacity (DCLO), and transplant recipient status. Validated scoring systems included the Charlson Comorbidity Index (CCI), Medical Research Council (MRC) dyspnea score, and Eastern Cooperative Oncology Group (EGOC) score. Surgical factors included surgical technique, unplanned conversion from video-assisted thoracoscopic surgery (VATS) to thoracotomy, location and extent of resection, presence of adhesions, completeness of fissures, and method of fissure completion. Length of hospital stay and readmission rates were analyzed. Statistical tests performed on the data include univariate and multivariate logistic regression analyses. Results: Over the 9-month study duration there were 269 lung resections, of which 31 (11.52%) had an air leak lasting longer than 5 days. Mean length of stay in hospital was significantly longer in patients with PAL compared to the control group (13 vs 5 days, P P = 0.009), right upper lobectomy (P = 0.001), and unplanned conversion from video-assisted thoracoscopic surgery (VATS) to thoracotomy (P = 0.023). Conclusion: The incidence of PAL in our study population is similar to that found in previous studies. PAL prolongs hospital length of stay. Normal BMI, right upper lobectomy, and unplanned conversion from VATS to thoracotomy are risk factors for PAL.展开更多
Background: High chest tube drainage following lung surgery is a rate-limiting step to discharge, increasing length of hospital stay. There is a paucity of evidence-based clinical research on safe maximal daily chest ...Background: High chest tube drainage following lung surgery is a rate-limiting step to discharge, increasing length of hospital stay. There is a paucity of evidence-based clinical research on safe maximal daily chest tube drainage prior to removal. Objectives: To describe the practice patterns of Canadian thoracic surgeons with respect to daily chest tube drainage after routine pulmonary surgery. Methods: A self-reported electronic questionnaire was administered to members of the Canadian Association of Thoracic Surgeons (CATS). Data was tabulated on the primary outcome of acceptable maximal daily pleural output prior to chest tube removal, and secondary outcomes of: years in clinical practice, academic versus community setting and rational for chest tube management. Descriptive and univariate analysis was conducted for each response by maximal daily pleural drainage category. Results: A total of 124 surveys were distributed. Response rate was 56%, with a 93% completion rate. Acceptable maximal pleural drainage among surgeons was highly variable. Rationale for tube removal was also variable, including individual clinical experiences (n = 23, 33%), evidence based guidelines (n = 18, 26%), and group practice pattern (n = 12, 17%). Academic surgeons comprised 72% of respondents. Community based surgeons were more likely to remove tubes at a lower mean volume. Years in clinical practice did not influence acceptable daily pleural drainage. Conclusion: There is great variability in post-operative management of chest tube fluid output among Canadian thoracic surgeons. Future research on this topic is warranted, with the aim of developing an evidence-based chest tube management algorithm incorporating daily chest tube drainage volumes as a key variable.展开更多
文摘Introduction: Prolonged air leak (PAL) is a common complication following pulmonary resection. It is associated with pneumonia, empyema, increased length of hospital stay and health-care costs. Intraoperative techniques have been developed to mitigate the risk of developing a PAL, but for their use to be efficient, identification of patients at risk for PAL is necessary. Aim: To determine the incidence of PAL following lobectomy and lesser pulmonary resections, risk factors for development of PALs, and the impact of PAL on hospital stay and readmission rates. Methods: The following variables were analyzed as PAL risk factors: patient characteristics of age, sex, body mass index (BMI), forced minute expiratory volume and capacity ratio (FEV1 and FEV1/FVC), diffusion capacity (DCLO), and transplant recipient status. Validated scoring systems included the Charlson Comorbidity Index (CCI), Medical Research Council (MRC) dyspnea score, and Eastern Cooperative Oncology Group (EGOC) score. Surgical factors included surgical technique, unplanned conversion from video-assisted thoracoscopic surgery (VATS) to thoracotomy, location and extent of resection, presence of adhesions, completeness of fissures, and method of fissure completion. Length of hospital stay and readmission rates were analyzed. Statistical tests performed on the data include univariate and multivariate logistic regression analyses. Results: Over the 9-month study duration there were 269 lung resections, of which 31 (11.52%) had an air leak lasting longer than 5 days. Mean length of stay in hospital was significantly longer in patients with PAL compared to the control group (13 vs 5 days, P P = 0.009), right upper lobectomy (P = 0.001), and unplanned conversion from video-assisted thoracoscopic surgery (VATS) to thoracotomy (P = 0.023). Conclusion: The incidence of PAL in our study population is similar to that found in previous studies. PAL prolongs hospital length of stay. Normal BMI, right upper lobectomy, and unplanned conversion from VATS to thoracotomy are risk factors for PAL.
文摘Background: High chest tube drainage following lung surgery is a rate-limiting step to discharge, increasing length of hospital stay. There is a paucity of evidence-based clinical research on safe maximal daily chest tube drainage prior to removal. Objectives: To describe the practice patterns of Canadian thoracic surgeons with respect to daily chest tube drainage after routine pulmonary surgery. Methods: A self-reported electronic questionnaire was administered to members of the Canadian Association of Thoracic Surgeons (CATS). Data was tabulated on the primary outcome of acceptable maximal daily pleural output prior to chest tube removal, and secondary outcomes of: years in clinical practice, academic versus community setting and rational for chest tube management. Descriptive and univariate analysis was conducted for each response by maximal daily pleural drainage category. Results: A total of 124 surveys were distributed. Response rate was 56%, with a 93% completion rate. Acceptable maximal pleural drainage among surgeons was highly variable. Rationale for tube removal was also variable, including individual clinical experiences (n = 23, 33%), evidence based guidelines (n = 18, 26%), and group practice pattern (n = 12, 17%). Academic surgeons comprised 72% of respondents. Community based surgeons were more likely to remove tubes at a lower mean volume. Years in clinical practice did not influence acceptable daily pleural drainage. Conclusion: There is great variability in post-operative management of chest tube fluid output among Canadian thoracic surgeons. Future research on this topic is warranted, with the aim of developing an evidence-based chest tube management algorithm incorporating daily chest tube drainage volumes as a key variable.
