Faculty Bibliography

An elevated diaphragm may be due to eventration or paralysis. Diaphragm elevation is often asymptomatic and found incidentally on imaging. Fluoroscopic testing can be used to differentiate eventration (no paradoxic motion) from paralysis (paradoxic motion). Regardless of etiology, a diaphragm plication is indicated in all symptomatic patients with an elevated diaphragm. Plication can be approached either from a thoracic or abdominal approach, though most thoracic surgeons perform minimally invasive thoracoscopic plication. The goal of plication is to improve lung volumes and decrease paradoxic elevation of the hemidiaphragm. Diaphragm plication is safe, has excellent outcomes, and is associated with symptom improvement.

OBJECTIVE/UNASSIGNED:Chest tubes cause pain and morbidity. METHODS/UNASSIGNED:This is a quality initiative study and review of patients who underwent robotic pulmonary resection by 1 surgeon (R.J.C.). The goal was to remove chest tubes within 4 to 12 hours after robotic segmentectomy and lobectomy. Primary outcome was removal without the need for reinsertion, thoracentesis, or any morbidity due to early removal of the chest tube. Secondary outcomes were symptomatic pneumothorax, pleural effusion, chylothorax, subcutaneous emphysema, and chest tube reinsertion or thoracentesis within 60 days of surgery. RESULTS/UNASSIGNED: = .001) were associated with chest tube removal within 4 to 12 hours of surgery. CONCLUSIONS/UNASSIGNED:Chest tubes can be safely removed within 4 to 12 hours after robotic segmentectomy and lobectomy. Factors associated with successful early chest tube removal are nonsmoking, segmentectomy, and team members becoming comfortable with the process.

BACKGROUND/UNASSIGNED:Neoadjuvant immunochemotherapy has been proven to be a successful therapeutic strategy for patients with locally advanced non-small cell lung cancer (NSCLC). Nevertheless, there is a paucity of information regarding surgical feasibility and safety as well as tumor response. The present study aimed to investigate the therapeutic and surgical outcomes for patients with stage III lung squamous cell carcinoma (LSCC). METHODS/UNASSIGNED:Patients with stage III potentially resectable LSCC treated with neoadjuvant immunochemotherapy at The First Affiliated Hospital of Ningbo University between March 2020 and June 2022 were retrospectively included. Oncologic outcomes and intraoperative and postoperative variables were assessed. RESULTS/UNASSIGNED:A total of 17 locally advanced LSCC patients were included in the study. Patients in stages IIIA and IIIB were represented by 10 (58.8%) and 7 (41.2%) cases, respectively. A minimally invasive procedure was successfully completed in 12 out of 17 cases (70.6%). A total of 10 patients (58.8%) had standard lobectomies performed, 1 (5.9%) had a bilobectomy, 3 (17.6%) had pneumonectomies, and 1 (5.9%) had a wedge resection. A total of 7 patients (41.2%) experienced postoperative complications, and there were no 30- or 90-day mortalities. The 2-year disease-free survival (DFS) and overall survival (OS) rates were 76.6% and 82.5%, respectively. The rate of major pathological response (MPR) was 70.6%. CONCLUSIONS/UNASSIGNED:Lung resection after immunochemotherapy for potentially resectable stage III LSCC is feasible and safe. This treatment strategy results in a significant pathologic response and promising rates of OS at 2 years.

BACKGROUND:The effect of prolonged allograft ischemic time on lung transplant outcomes remains controversial, with most studies associating it with increased mortality, but this effect is partly mitigated by center volume. This study sought to evaluate the mechanism of these findings and clarify the impact of ischemic time on short-term outcomes in a national sample. METHODS:Data on lung transplants (January 2010-Janary 2017) were extracted from the Scientific Registry of Transplant Recipients database. Ischemic time was dichotomized as prolonged ischemic time (PIT) or no PIT (N-PIT) at 6 hours. High-volume centers were defined as the top quintile. The primary outcome was 30-day, 1-year, and 3-year mortality; secondary outcomes included in-hospital complications and 72-hour oxygenation. RESULTS:Among 11,809 records, there were significant differences between PIT and N-PIT recipients by demographics, lung allocation score, and donor organ metrics. In a 1:1 propensity score-matched cohort (n = 6422), PIT recipients had reduced survival compared with N-PIT at 3 years (66.5% vs 68.8%, P = .031). On multivariable analysis, this effect persisted among low-volume but not high-volume centers. PIT recipients were more likely to require reintubation, prolonged (>5 days) mechanical ventilation, hemodialysis, longer stay, and acute rejection (all P < .01). Except for reintubation, these disparities were present at both high- and low-volume centers independently. Ischemic time had no effect on 72-hour oxygenation. CONCLUSIONS:PIT remains associated with higher rates of postoperative complications and reduced short-term survival. While center volume ameliorated the survival impact, this was not achieved by reducing postoperative complications. Further research is warranted before broadening ischemic time thresholds among low-volume centers.

BACKGROUND/UNASSIGNED:In China, lung cancer mainly affects the elderly population. Surgery remains the standard treatment for lung cancer in elderly patients, however, postoperative pulmonary complications (PPCs) are major contributors to morbidity and mortality following lung resection. This study aimed to identify perioperative predictors of PPCs among elderly patients undergoing pulmonary resection for lung cancer to provide evidence for better prevention and intervention for PPCs. METHODS/UNASSIGNED:A retrospective study was conducted with 456 patients (age >65 years) undergoing pulmonary resection for lung cancer in Yunnan, China from January 2016 to March 2019. Propensity score matching (PSM) was performed to compare preoperative data and clinical characteristics between the PPC and non-PPC groups, followed by binary logistic regression to evaluate predictors of PPCs. RESULTS/UNASSIGNED:Pulmonary complications occurred in 142/456 (31.1%) patients age >65 years, with pneumonia being the most common event (21.7%). Both PSM and binary logistic regression analysis identified American Society of Anesthesiologists (ASA) class <II [odds ratio (OR): 0.177, 95% confidence interval (CI): 0.037-0.854] and video-assisted thoracoscopic surgery (VATS) (OR: 0.576, 95% CI: 0.334-0.992) as protective factors for PPCs. CONCLUSIONS/UNASSIGNED:PPCs following lung cancer resection in elderly patients were associated with a higher ASA classification and open thoracotomy. An adequate and comprehensive evaluation of the operative strategies and enhanced recovery methods should be implemented among elderly patients undergoing lung resection with an ASA class > II or those undergoing an open thoracotomy to help prevent the occurrence of PPCs.

Lung transplantation is the only potentially curative treatment for end-stage lung failure and successfully improves both long-term survival and quality of life. However, lung transplantation is limited by the shortage of suitable donor lungs. This discrepancy in organ supply and demand has prompted researchers to seek alternative therapies for end-stage lung failure. Tissue engineering (bioengineering) organs has become an attractive and promising avenue of research, allowing for the customized production of organs on demand, with potentially perfect biocompatibility. While breakthroughs in tissue engineering have shown feasibility in practice, they have also uncovered challenges in solid organ applications due to the need not only for structural support, but also vascular membrane integrity and gas exchange. This requires a complex engineered interaction of multiple cell types in precise anatomical locations. In this article, we discuss the process of creating bioengineered lungs and the challenges inherent therein. We summarize the relevant literature for selecting appropriate lung scaffolds, creating decellularization protocols, and using bioreactors. The development of completely artificial lung substitutes will also be reviewed. Lastly, we describe the state of current research, as well as future studies required for bioengineered lungs to become a realistic therapeutic modality for end-stage lung disease. Applications of bioengineering may allow for earlier intervention in end-stage lung disease and have the potential to not only halt organ failure, but also significantly reverse disease progression.

Objectives/UNASSIGNED:Proning patients with acute respiratory distress syndrome (ARDS) has been associated with increased survival, though little data exists evaluating the safety and feasibility of proning ARDS patients on extracorporeal membrane oxygenation (ECMO). Methods/UNASSIGNED:, 2020 was performed. All proning events were evaluated for complications, as well as change in compliance, sweep, oxygenation and flow. The primary outcome of this study was the rate major morbidity associated with proning while on ECMO. Results/UNASSIGNED:of 86 pre to 103 post (p<0.0001). Mean ECMO flow was unchanged. Conclusions/UNASSIGNED:Proning in patients with ARDS on ECMO is safe with an associated improvement in lung mechanics. With careful planning and coordination, these data support the practice of appropriately proning patients with severe ARDS, even if they are on ECMO.