Abstract: Objective To explore the impact of obesity on postoperative morbidity and mortality after pneumonectomy. Methods Clinical data of 3 494 patients with pulmonary diseases who underwent pneumonectomy in Shanghai Pulmonary Hospital from September 2003 to December 2007 were retrospectively analyzed. All the 3 494 patients were divided into two groups according to the patients’ preoperative body mass index (BMI). There were 3 340 patients in the non-obesity group (BMI<28 kg/m2) including 2 502 males and 838 females with their average age of 61.9±10.7 years, and 154 patients in the obesity group (BMI≥28 kg/m2) including 87 males and 67 females with their average age of 59.7±9.6 years. Univariate analysis and logistic regression were used to analyze the impact of obesity (BMI≥28 kg/m2) on postoperative morbidity after pneumonectomy. Results There were a total of 26 cases of perioperative death, including 23 patients in the non-obesity group and 3 patients in the obesity group. There was no statistical difference in mortality between the two groups [0.7% (23/3 340) vs. 1.9% (3/154), P=0.118]. There was no statistical difference in any particular postoperative morbidity or incidence of pulmonary complications between the two groups (P>0.05). Other than pulmonary complications, the incidence of postoperative complication in other body systems of the obesity group was significant higher than that of the non-obesity group (P<0.05). The incidence of cerebrovascular accidents, myocardial infarction and acute renal failure of the obesity group was significant higher than those of the non-obesity group (P<0.05). Logistic regression showed that obesity (BMI≥28 kg/m2) was not an independent risk factor for postoperative morbidity after pneumonectomy [B=0.648, OR=1.911, 95% CI(0.711, 5.138),P=0.199]. Conclusion Obesity is not a significant risk factor of postoperative mortality or morbidity after pneumonectomy.
Pneumonectomy is known as an effective treatment of lung cancer, lung tuberculosis, and damaged lung. But the incidences of complications and mortality are significantly higher in patients undergoing pneumonectomy than those undergoing lobectomy. The complication rate within 30 days after pneumonectomy is 11%-49% and the mortality is 3%-25%. Mortality of right pneumonectomy is triple that of left pneumonectomy. Postpneumonectomy complications include cardiopulmonary failure, bronchopleural fistula and postpneumonectomy syndrome. Besides the symptomatic treatment, which includes flushing drainage, plugging and operation, observation and prompt diagnosis are necessary for prevention. This review is focused on the prevention and treatment of complications after pneumonectomy.
ObjectiveTo discuss the possibility and safety of video-assisted thoracoscope surgery for pulmonary aspergilloma. MethodsWe retrospectively analyzed the clinical data of 39 patients with pulmonary aspergilloma in Beijing Chaoyang Hospital between June 2009 and May 2014. The patients were divided into two groups according to their operation method including a conventional thoracotomy surgery group (open group, n=11) and a video-assisted thoracoscope pneumonectomy group (VATS group, n=28). There were 8 male patients and 3 female patients with age of 29-64 (50.7±9.7) years in the open group. There were 13 male patients and 15 female patients with age of 20-75 (55.4±15.3) years in the VATS group. We compared clinical effectiveness between the two groups. ResultsThe operations of all patients were performed successfully. There were statistical differences between the two groups in the average length of operative time (P=0.001), the loss of intraoperative blood (P=0.005), and the score of pain (P=0.001). There was no statistical difference in lead flow of postoperative chest (P>0.05) and the time of hospitalization (P>0.05). ConclusionVideo-assisted thoracoscope surgery in the treatment of pulmonary aspergilloma could be feasible, safe, and effective based on our study. It is worth of clinical application and popularization.
ObjectiveTo investigate the clinical significance of applying digitalis preparations after pneumonec-tomy. MethodsWe retrospectively analyzed the clinical data of 78 patients who underwent pneumonectomy in the Tangdu Hospital of The Fourth Military Medical University from August 2010 to August 2013. The patients were divided into a control group (39 patients with 27 males and 12 females at a mean age of 56.8±14.8 years) and a trial group (39 patients with 24 males and 15 females at a mean age of 57.4±10.1 years). After pneumonectomy, the trial group received low dose of digitalis treatment. On 3, 5, and 7 days, the arterial partial pressure of oxygen (PaO2), systolic pulmonary artery pressure (SPAP), mean arterial pressure (MAP), diastolic pulmonary artery pressure (DPAP), and the rate of complications were examined. ResultsAfter treatment with the low dose of digitalis, the SPAP, MAP, DPAP of the trial group were statistically lower than those of the control group (P < 0.05). Incidence of arrhythmia in the trial group was statistically lower than that of the control group (P < 0.05). There was no statistical difference between the two groups in the PaO2, the incidence of pulmonary infection, and circulation disorder (P > 0.05). ConclusionLow dose of digitalis preparations can improve cardiac function after pneumonectomy.
Objective To assess the effects of physiotherapy on pulmonary function in COPD patients with lung cancer after lobectomy or pneumonectomy. Methods Fifty-five COPD patients with lung cancer undergoing lobectomy or pneumonectomy from January 2005 to May 2014 were recruited in the study. They were divided into group A received comprehensive physiotherapy before surgery and group B without comprehensive physiotherapy before surgery. The changes of lung function and tolerance were compared before physiotherapy (T1 time point) and after physiotherapy (T2 time point) in the group A, and between two groups before lung resection (T2 time point) and after lung resection (T3 time point). Results In group A, the forced expiratory volume in one second (FEV1), vital capacity (VC), peak expiratory flow at 50% of vital capacity (FEF50) and FEF25 increased significantly respectively by 16.96%, 14.75%, 20.69% and 13.79% compared with those before physiotherapy. Meanwhile, six-minutes walking distance (6MWD) achieved a significant improvement. After resection of lung, FEV1 and VC appeared to reduce, and pulmonary small airway function, tolerance, and clinical features deteriorated significantly. The differences between T2 and T1 in FEV1, FEF50 and FEF25 in the patients with FEV1%pred ≥80% and 50%-80% were similar with those in the patients with FEV1%pred<50%. The differences between T2 and T3 in FEF50 and FEF25 in the patients with FEV1%pred≥80% and 50%-80% were higher than those with FEV1%pred<50%. For the patients with lobectomy, FEV1 and VC in the group B were lower than those in the group A (FEV1: 10.24% vs. 22.44%; VC: 10.13% vs. 20.87%). For the patients with pulmonary resection, FEV1 and VC had little differences (FEV1: 36.33% vs. 36.78%; VC: 37.23% vs. 38.98%). Conclusion Physiotherapy is very important for the preoperative treatment and postoperative nursing of COPD patients with primary lung cancer.
ObjectiveTo explore an effective and safe drainage method, by comparing open thoracic drainage and conventional thoracic drainage for lung cancer patients after thoracoscopic pneumonectomy.MethodsThe clinical data of 147 patients who underwent thoracoscopic pneumonectomy from January 2015 to March 2018 in our hospital were retrospectively analyzed, including 128 males and 19 females. Based on drainage methods, they were divided into an open drainage group (open group) and a conventional drainage group (regular group). The incidence of postoperative complications, chest tube duration, drainage volume at postoperative 3 days, postoperative hospital stay, hospitalization cost and quality of life were compared between the two groups.ResultsPostoperative complication rate was lower in the open group than that in the regular group (10.20% vs. 23.47%, P=0.04). The chest tube duration of the open group was longer compared with the regular group (5.57±2.36 d vs. 3.22±1.23 d, P<0.001). The drainage volume at postoperative 3 days was less in the regular group. In the open group, ambulation was earlier, thoracocentesis was less and re-intubation rate was lower (all P<0.001). The postoperative hospital stay in the regular group was significantly longer than that in the open group (8.37±2.56 d vs. 6.35±1.87 d, P<0.001) and hospitalization cost was significantly higher (66.2±5.4 thousand yuan vs. 59.6±7.3 thousand yuan, P<0.001). Besides, quality of life in 1 and 3 months after operation was significantly better than that in the open group (P<0.001).ConclusionCompared with the regular chest drainage, the effect of open thoracic drainage is better, which can help reduce postoperative complications, shorten the length of hospital stay, reduce the hospitalization cost and improve the quality of postoperative life. It is worthy of clinical promotion.
ObjectiveTo discuss the safety and feasibility of no chest tube (NCT) after thoracoscopic pneumonectomy.MethodsThe online databases including PubMed, EMbase, The Cochrane Library, Web of Science, China National Knowledge Infrastructure (CNKI), WanFang Database, VIP, China Biology Medicine disc (CBMdisc) were searched by computer from inception to October 2020 to collect the research on NCT after thoracoscopic pneumonectomy. Two reviewers independently screened the literature, extracted the data, and evaluated the quality of the included studies. The RevMan 5.3 software was used for meta-analysis.ResultsA total of 17 studies were included. There were 12 cohort studies and 5 randomized controlled trials including 1 572 patients with 779 patients in the NCT group and 793 patients in the chest tube placement (CTP) group. Meta–analysis results showed that the length of postoperative hospital stay in the NCT group was shorter than that in the CTP group (SMD=–1.23, 95%CI –1.59 to –0.87, P<0.000 01). Patients in the NCT group experienced slighter pain than those in the CTP group at postoperative day (POD)1 (SMD=–0.97, 95%CI –1.42 to –0.53, P<0.000 1), and POD2 (SMD=–1.10, 95%CI –2.00 to –0.20, P=0.02), while no statistical difference was found between the two groups in the visual analogue scale of POD3 (SMD=–0.92, 95%CI –1.91 to 0.07, P=0.07). There was no statistical difference in the 30-day complication rate (RR=0.93, 95%CI 0.61 to 1.44, P=0.76), the rate of postoperative chest drainage (RR=1.51, 95%CI 0.68 to 3.37, P=0.31) or the rate of thoracocentesis (RR=2.81, 95%CI 0.91 to 8.64, P=0.07) between the two groups. No death occurred in the perioperative period in both groups.ConclusionIt is feasible and safe to omit the chest tube after thoracoscopic pneumonectomy for patients who meet the criteria.
Objective To explore the relationship between preoperative fasting plasma glucose (FPG) and postoperative pulmonary complications (PPCs) in type 2 diabetic patients undergoing elective thoracoscopic lung resection, and provide a reference for prediction and prevention of PPCs in the clinic. Methods A retrospective analysis was performed on the type 2 diabetic patients who underwent elective thoracoscopic lung resection for the first time in our hospital from January 2017 to March 2021. According to the level of FPG one day before the operation, the patients were divided into three groups: a hypoglycemia group (<6.1 mmol/L), a medium level blood glucose group (≥6.1 mmol/L and <8.0 mmol/L) and a high blood glucose group (≥8.0 mmol/L). Besides, the patients were divided into a PPCs group and a non-PPCs group according to whether PPCs occurred. The risk factors for PPCs were analyzed by logistic regression analysis, and the predictive value of preoperative FPG level on PPCs was estimated by the area under the receiver operating characteristic curve (AUC). Results A total of 130 patients were included, including 75 (57.7%) males and 55 (42.3%) females with an average age of 63.5±9.0 years. Logistic regression analysis showed that compared to non-PPCs patients, the level of preoperative FPG (P=0.023) and smoking history ratio (P=0.036) were higher and the operation time was longer (P=0.004) in the PPCs patients. High FPG level on preoperative day 1 and longer operation time were associated with PPCs risk. Besides, the preoperative FPG of 6.79 mmol/L was the threshold value to predict the occurrence of PPCs [AUC=0.653, 95%CI (0.559, 0.747), P=0.003]. Conclusion There is a certain correlation between preoperative FPG level and postoperative PPCs, which may be used as an index to predict the occurrence of PPCs.
ObjectiveTo systematically evaluate the risk factors forpersistent cough after pneumonectomy and to provide a theoretical basis for the prevention of persistent cough after surgery. MethodsResearches on risk factors of persistent cough after pneumonectomy were retrieved from The Cochrane Library, Web of Science, Embase, PubMed, CBM, Wanfang, CNKI and VIP from inception to March 30, 2023. Two researchers screened the literature, extracted data, and conducted quality evaluation. Meta-analysis was performed using RevMan 5.3 software. ResultsSeventeen studies with a total of 3 698 patients were finally included. Meta-analysis results showed that: female [OR=3.10, 95%CI (1.99, 4.81), P<0.001], age<63 years [OR=1.72, 95%CI (1.33, 2.21), P<0.001], right lung surgery [OR=2.36, 95%CI(1.80, 3.10), P<0.001], lobectomy [OR=3.40, 95%CI (2.47, 4.68), P<0.001], upper lobectomy [OR=8.19, 95%CI (3.87, 17.36)], lymph node dissection [OR=3.59, 95%CI(2.72, 4.72), P<0.001], bronchial stump approach [OR=5.19, 95%CI(1.79, 16.07), P=0.002], and postoperative acid reflux [OR=6.24, 95%CI(3.27, 11.91), P<0.001] were all risk factors for persistent cough after pneumonectomy (P<0.05). Smoking history [OR=0.59, 95%CI(0.45, 0.77), , P<0.001] was a protective factor for postoperative cough. In addition, the quality of life score (LCQ-MC) of patients with cough after surgery was lower than that before surgery [MD=1.50, 95%CI(0.14,2.86), P=0.03]. ConclusionAvailable evidence suggests that female, age <63 years, right lung surgery, lobectomy, lymph node dissection, bronchial stump approach (suture clamp closure), and postoperative acid reflux are independent risk factors for persistent postoperative cough in patients undergoing lung resection, while smoking history may be a protective factor forpostoperative cough. It provides an evidence-based evidence for clinical medical staff to prevent and reduce postoperative persistent cough and improve the quality of life of patients in the future.