Abstract: Objective To compare clinical outcomes of complete video-assisted thoracoscopic surgery (cVATS) lobectomy with routine thoracotomy lobectomy for the treatment of bronchiectasis, and evaluate the feasibility, safety and specific considerations of cVATS lobectomy for the treatment of bronchiectasis. Methods We retrospectively analyzed the clinical data of 115 patients who underwent lobectomy for the treatment of bronchiectasis in Beijing Chaoyang Hospital from May 2009 to January 2012. According to the way of operation, these patients were divided into two groups (cVATS group and thoracotomy group). In the thoracotomy group, there were 62 patients (28 males and 34 females with an age of 46.2±11.9 years) who underwent routine thoracotomy lobectomy. In the cVATS group, there were 53 patients (19 males and 34 females with an age of 45.7±12.2 years) who underwent cVATS lobectomy. Operation time, intra-operative blood loss, postoperative thoracic drainage, complications and hospitalization, and cost of hospitalization were compared between the two groups. Results There was no perioperative death in all patients. There was no statistical difference in operation time between the two groups. Intra-operative blood loss of thoracotomy group patients was significantly higher than that of cVATS group patients (228.8±121.7 ml vs. 157.1±123.8 ml, t=2.592, P=0.011). Postoperative thoracic drainage (866.7±439.5 ml vs. 1 805.3±466.7 ml, t=9.003,P=0.000), duration of chest tube drainage (6.6±3.3 d vs. 9.8±4.6 d,t=3.339,P=0.001), and postoperative hospitalization (7.5±2.2 d vs. 11.2±5.4 d, t=3.424,P=0.001) of cVATS group were significantly lower than those of thoracotomy group. The cost of hospitalization of cVATS group was significantly higher than that of thoracotomy group (38 543.6±11 051.8 yuan vs. 30 523.4±10 028.5 yuan,t=3.423, P=0.001). There was no statistical difference in postoperative complications between the two groups (P>0.05). Forty-five patients in cVATS group were followed up for 2 to 14 months. Among them, 42 patients completely had no sputum or haemoptysis and 3 patients still intermittently had some sputum. Conclusion cVATS lobectomy is safe and feasible for the treatment of bronchiectasis. Compared with routine thoracotomy lobectomy, cVATS lobectomy does not increase surgical risk, but can significantly reduce operation injury and length of hospital stay. During cVATS, the lung residual should be handled cautiously especially for patients with nonanatomic pulmonary resection, and the non-single-order operation is recommended.
Objective To evaluate the survival outcomes of segmentectomy versus lobectomy for T1c non-small cell lung cancer (NSCLC). Methods We searched PubMed, EMbase, Cochrane Central Register of Controlled Trials (CENTRAL), CNKI (China National Knowledge Infrastructure), and Wanfang Data, with the search time limit set from the inception of the databases to February 2024. Three researchers independently screened the literature, extracted relevant information, and evaluated the risk of bias of the included literature according to the Newcastle-Ottawa Scale (NOS). Meta-analysis was conducted using STATA 15.1. Results A total of 8 retrospective cohort studies were included, involving 7 433 patients. The NOS scores of the included studies were all ≥7 points. Patients who underwent lobectomy had significantly higher five-year overall survival (OS) rates compared to those who underwent segmentectomy (adjusted HR=1.11, 95%CI 0.99-1.24, P=0.042). Compared with lobectomy, segmentectomy showed no significant difference in adjusted three-year OS rate (adjusted HR=0.88, 95%CI 0.62-1.24) and adjusted five-year lung cancer-specific survival (adjusted HR=1.10, 95%CI 0.80-1.51, P=0.556) of patients with T1c NSCLC. Moreover, there were no differences in the five-year adjusted relapse-free survival (adjusted HR=1.23, 95%CI 0.82-1.85, P=0.319), and adverse events (OR=0.57, 95%CI 0.37-0.90, P=0.015) in the segmentectomy group were significantly less than those in the lobectomy group. Subgroup analysis based on whether patients received neoadjuvant therapy showed that among studies that excluded patients who received neoadjuvant therapy, no significant difference in 5-year adjusted OS rate was observed between the segmentectomy group and lobectomy group (adjusted HR=1.02, 95%CI 0.81-1.28, P=0.870). Conclusion Segmentectomy and lobectomy show no significant difference in long-term survival in stage T1c NSCLC patients, with segmentectomy associated with fewer postoperative complications. Further high-quality research is needed to confirm the comparative efficacy and safety of lobectomy and segmentectomy for T1c NSCLC patients.
Four hundred and eighty two paients suffering from intrahepatic bile duct stone undergoing lobectomy and segmental resection (from 1975 to 1994,9) has reported. 63% of the patient in this group underwent 1-5 operations, including different types of biliary-intestinal anastomosis (21.6%). 482 cases underwent different types of hepatectomy, including left lateral-lobetomy 321 cases (66.6%),left hemihepatectomy 80 cases(16.6%), right hemihepatectomy 19 cases (3.9%), and multiple segmental resections 39 cases (8.1%, including Ⅴ+Ⅷ 11 cases, Ⅵ+Ⅶ 28 cases). Other type hepatectomy combined with guadrate lobectomy 20 cases (4.1%). Postoperative complication rate was 10.2%, including diliary fistula. hemobilia and subdiaphragmatic and resectional surface infectioin, 85% of the patients were followed up with an excellent result of 88%. The authors emphsize that hepatic lobectomy nad segmental resection is the core of treatment and selection of operative methods depends on clinical-patholigic types of the disease.
Abstract: Objective To evaluate the safety, feasibility, and clinical outcome of complete video-assisted thoracoscopic surgery (VATS) lobectomy for patients with early-stage non-small cell lung cancer (NSCLC). Methods We retrospectively analyzed the clinical data of 160 consecutive patients(the VATS group, 83 males and 77 females with average age at 60.8 years)with early-stage NSCLC who underwent complete VATS lobectomy between January 2005 andDecember 2008 in Zhongshan Hospital of Fudan University,and compared them with 357 patients(the thoracotomy group, 222 males and 135 females with average age at 59.5 years)who underwent open thoracotomy in the same period. Results The conversion rate of the VATS group was 5.0%(8/160). The operation time of the VATS group was significantly shorter than that of the thoracotomy group(113.0 min vs.125.0 min, P=0.039). Length of postoperative hospital stay was not statistically different between the two groups(10.3±4.3 d vs.9.1±4.6 d,P=0.425). The postoperative morbidity of the VATS lobectomy group and the thoracotomy group was 9.4%(15/160)and 10.1% (36/357) respectively,and the postoperative mortality of the two groups was 0.6%(1/160)and 2.0%(7/357)respectively. There was no statistical difference in the mean group of lymph node dissection (2.4±1.5 groups vs.2.4±1.7 groups,P=0.743) and the mean number of lymph node dissection (9.8±6.3 vs.10.1±6.4,P=0.626) between the two groups. The overall 5-year survival rate of the VATS group was significantly higher than that of the thoracotomy group (81.5% vs.67.8%, P=0.001). Subgroup analysis showed that the 5-year survival rate of pⅠa stage, pⅠb stage, and pⅢa stage was 86.0%, 84.5%, and 58.8% respectively in the VATS group, and 92.9%, 76.4%, and 25.3% respectively in the thoracotomy group. Conclusion Complete VATS lobectomy is technically safe and feasible for patients with early-stage NSCLC. The lymph node dissection extension of complete VATS lobectomy is similar to that of open thoracotomy, and long-term outcome of complete VATS lobectomy is superior to that of open thoracotomy. Randomized controlled trials of large sample size are further needed to demonstrate superiority.
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 investigate the efficacy of total thoracoscopy (VATS) lobectomy and the thoracotomy for the treatment of benign lung disease. MethodsWe retrospectively analyzed the clinical data of 70 patients with benign lung diseases in the First People's Hospital of Qujing between January 2012 and September 2013. According to the surgical way, the patients were divided into two groups including a total VATS group involved in 35 patients with 25 males and 10 females, aged 18 to 71 years, mean age of 41.3±6.4 years and a thoracotomy group involved in 35 patients with 26 males and 9 females, aged 19 to 72 years, mean age of 42.4±5.6 years. Then we compared the efficacy of the two groups. ResultsThere was no statistical difference (P > 0.05) in operative time and postoperative survival rate comparison. While in the total VATS group, the total thoracoscopic incision length, bleeding volume or pain time, postoperative day time of analgesia, thoracic drainage volume, postoperative drainage tube pulling time and hospitalization time were all lower than those in the thoracotomy group with statistical differeces (P < 0.05). ConclusionThe thoracoscopic lobectomy for treatment of benign pulmonary lesions is superior to the conventional thoracotomy with much less bleeding and pain, more faster postoperative recovery and less impact on the patient's body. It's suitable for clinical application in normal hospital.
ObjectiveTo evaluate the safety and efficacy of segmentectomy for early stage non-small cell lung cancer. MethodsWe retrospectively analyzed the clinical data of 88 patients with pulmonary malignant or benign lung tumor who underwent segmentectomy in our hospital between January 2007 and December 2012. There were 45 male and 43 female patients. There were 29 patients in the segmentectomy group and 59 patients in the lobectomy group. Nonsmall cell lung cancer patients underwent segmentectomy were matched with non-small cell lung cancer patients who underwent lobectomy. Perioperative factors and tumor relative prognosis were analyzed. ResultsSegmentectomy were performed in 29 patients in our institution. Average operation time was 210 minutes. Intraoperative blood loss was 166 ml. Postoperative drainage was 2 147 ml. The average extubation duration was 6 days. No significant difference was found in operation time (P>0.999), intraoperative blood loss (P=0.207), postoperative drainage (P=0.946), extubation duration (P=0.804), and postoperative complication (P>0.999) between segmentectomy pulmonary benign disease and segmentectomy lung cancer groups. Compared with lobectomy, segmentectomy showed similar operation time (P=0.462), intraoperative blood loss (P=0.783), extubation duration (P=0.072), complication ratio (P>0.999), and postoperative recurrence/metastasis ratio (P=0.417). While the number of N1 lymph nodes (P=0.033) and N1 station (P=0.024) were fewer in the segmentectomy group than those in the lobectomy group. The overall survival rate (P=0.340) and disease free survival rate (P=0.373) were both comparable between the segmentectomy and the lobectomy group. ConclusionSegmentectomy could be an alternate of lobectomy for patients with selective pulmonary benign disease, and for some early stage non-small cell lung cancer patients with restricted pulmonary function.
Abstract: Objective To investigate strategies for prevention,early diagnosis,and prompt treatment for acute pulmonary embolism(PE)after video-assisted thoracoscopic surgery(VATS)lobectomy. Methods From January 2007 to November 2010, 1 115 patients with lung cancer underwent VATS lobectomy in the First Affiliated Hospital of Guangzhou Medical College. Among them, 13 patients had acute PE postoperatively, including 6 male patients and 7 female patients with their mean age of 62.3 years(ranging from 42 to 73 years).All the patients were diagnosed by spiral CT pulmonary artery angiography(SCTPA), and received anticoagulation therapy with low molecular weight heparin and warfarin. Results The incidence of acute PE after VATS lobectomy was 1.17%(13/1 115), and the patients with low PE-related early mortality risk accounted for a large proportion(11/13). There were 12 patients with right-side PE. All the patients’ signs and symptoms were significantly alleviated after administration of anticoagulation therapy. Nine patients received SCTPA review after treatment which showed that their PE had disappeared or been significantly absorbed. No hematological complications including thoracic hemorrhage or wound errhysis occurred after treatment. All surviving patients were followed up for 1 month to 3 months. During follow-up, these patients were alive without PE recurrence. Conclusion SCTPA is the first-choice examination for the diagnosis of acute PE after VATS lobectomy. Prophylaxis against PE and prompt treatment are necessary depending on individual manifestations. VATS lobectomy should be favored as a minimally invasive surgical treatment for patients with lung cancer, for the low incidence of postoperative PE and low PE-related early mortality risk.
An retrospective analysis of 112 cases with localized left hepatolithiasis (LLH) treated in our center in recent two decades was made. The results showed: ①Coexisting involvements of both left external hepatic duct (LEHD) and left medial hepatic duct (LMHD) were the most common pathological pattern (83.08%), came next the only LEHD involvement (12.31%). There was no localized LMHD caculi in this group. ②The rate of concomitant LHD stricture was 59.82% and that of LMHD or LEHD were 84.85% and 84.00% respectively, in which severe degrees dominate. ③Lateral segmentectomy was the most common clinical practice for LLH (58.93%), and left lebectomy was much less frequently used (12.50%), although the latter led to a significantly smaller rate of residual (7.14% vs 21.21%) and had a satification follow-up rate of 85.71% being superior to lateral segmentectomy (46.97%), or cholangiojejunostomy (40.00%), bile duct exploration and drainage (0). ④The most common prognostic factors were residual or recurrent stones of LMHD (62.50%) and residual LHD stricture (37.50%). ⑤There was no significant difference between left lobectomy and lateral segmentectomy in length of operation, intraoperative bleeding, and postoperative complications. The results indicate that too much dependence on lateral segmentectomy in the management of LLH is one of the most important factors affecting the longterm results, for which left lobectomy is an applicable and safe therapy of choice.
Abstract: Lung torsion is a very rare clinical event and characterized by rotation of entire lung or individual lobes around the proximal bronchus or blood vessel pedicle in a single direction. The outcomes of lung torsion vary according to different rotation degree. Mild lung rotation may cause hemodynamic changes of the rotated pulmonary tissue. Severe lung rotation may lead to pulmonary venous congestion, lung infarction, systemic intoxication symptoms, ischemia, hypoxia, respiratory failure, severe infection or even death. There are a number of causes of lung torsion, including thoracic surgery, blunt chest trauma, pneumonia, pneumothorax, pleural effusion and lung transplantation. The majority of lung torsion cases occur after thoracic surgeries especially lobectomy, with the right middle lobe being most easily endangered after right upper lobectomy. Lung torsion does not have typical clinical manifestations and thus is difficult to be differentiated from other diseases. Patients with lung torsion often cannot receive correct diagnosis, proper intervention and treatment in time, which may lead to a high mortality. This review focuses on the morbidity, pathogenesis, clinical manifestations, diagnosis, prevention and treatment of lung torsion.