Objective To investigate prognostic factors of surgery treatment for pulmonary metastasis from rectal cancer. Methods From September 1973 to September 2007,43 patients, 12 women and 31 men with mean age of 58 years (ranged 36-77 years) were diagnosed and performed 45 curative resections of pulmonary metastases from rectal cancer in this hospital.Followup informations were collected including:the clinical parameters include age, sex, pTNM/UICC stage,the number, maximum diameter of lung metastases,the preoperative serum carcinoembryonic antigen(CEA) levels, the interval between resection of primary tumor and diagnosis of lung metastasis (disease-free interval (DFI),the presence of hilar/mediastinal tumorinfiltrated lymph nodes,intraoperative blood loss and postoperative chemotherapy schemes. After lung metastasectomy,probability of survival was calculated according to the method of KaplanMeier.All factors that may have affected the survival were entered into Cox’s proportional hazards regression model to identify significant variables associated with survival. Results Fourty-three patients were selected fully follow-up cases, with mean period ranged from 1-103 months (median 54 months). There was 1 early postoperative mortality from cardiac complications (2.3%). The probability of survival at 1, 3, and 5 years was 91.3%,56.4% and 32.2%, respectively,Median overall survival was 42.6 months. The DFI was found to be 28.6 months(ranged 0-114 months). Hilar or mediastinal tumorinvolvedlymph nodes were found in 9 patients. Fiveyear survival was 42.6% for patients with CEA<5ng/ml and 18.0% for those with CEA≥5ng/ml (P=0.009).Fiveyear survival rate was 53.3% for patients with DFI≥3 years, 32.3% for those with1 year<DFI<3 years and 15.1% for those with DFI ≤1 year (P=0.036). In the multivariate analysis,the overall survival was significantly correlated with the preoperative serum CEA level and DFI (P=0.013,0.016),respectively. Conclusion Patients with pulmonary metastases from colorectal carcinoma will benefit from pulmonary metastasectomy. Patients with preoperative serum CEA <5ng/ml and DFI ≥3 years have an significantly long-term survival.
Objective To investigate the indication of carina reconstruction surgery for locally advanced non-small cell lung cancer through analyzing the clinicopathological characteristics and prognosis of these patients.Methods Fifteen patients were involved in this retrospective analysis. One patient underwent carina resection and reconstruction, 6 patients underwent right pneumonectomy plus carina resection and reconstruction, 3 patients underwent right upper lobe and carina resection plus carina reconstruction, and 5 patients underwent left pneumonectomy plus carina resection and carina reconstruction. Kaplan-Meier method was used to calculate the survival rate, and Logrank test was used to compare the survival difference between groups. Results The mean duration time for operation was 410 min(261.3±81.6min). The number of resected mediastinal lymph nodes was 10.8±3.7. No perioperative death occurred. Two patients complicated with pneumonitis after surgery, both of them recovered through machine supported respiratory combined with antibiotics administering; 1 patient complicated with chylothorax and recovered through noninvasive procedure; 1 patient underwent thoracotomy exploration due to the persistant air leak and cured by suturing the air leaking lung tissue.The median survival time for whole group was 39 months, 3-year and 5-year survival rate were 52.5%,22.5%, respectively. The median survival time for the patients underwent right pneumonectomy was 12 months, compared 40 months with that of other patients. Conclusion Carina reconstruction is necessary for some patients with locally advanced nonsmall cell lung cancer with main bronchus or carina invasion, despite the sophisticated operation procedure and high morbidity rate. While the right pneumonectomy plus carinal reconstruction should be avoided due to the poor prognosis.
The postpericardiotomy syndrome (PPS) is an inflammation of the pericardium or pleura following a variety of pericardial injuries. The potential pathogenic factors of the PPS are autoimmune, special virus and latent virus infection. PPS is self-limited, but may lead to prolonged hospital stay, readmissions, and need for invasive interventions. The therapy for PSS is mainly empiric anti-inflammatory therapy. The perioperative use of colchicine could reduce the incidence of PPS but is not effective for postoperative atrial fibrillation or postoperative pericardial/pleural effusion. This article mainly analyzes the incidence, risk factors, clinical features, diagnosis and treatment standards, preventive measures and prognosis of PPS.
With the development of thin section axial computed tomography scan, the detection rate of pulmonary ground-glass nodules (GGN) continues increasing. GGN has a special natural growth history: pure ground-glass nodules (PGGN) smaller than 10 mm can hold steady for a long term, surgery resection is unnecessary, patients need regular follow up. Larger part solid ground-glass nodules (PSN) with a solid component can be malignant early stage lung cancer, which requires early surgery intervention. Establishment of a standard definition of GGN growth, investments in the long term natural growth history of GGN, validation of the clinical, radiology and genetic risk factors would be beneficial for the management of GGN patients.
Quality control of general thoracic surgery contains many links including the qualification and technical conditions of medical institutions, preoperative diagnostic system, surgery, postoperative management, pathological diagnosis and follow-up. Standards of quality control should be based on evidence-based medicine, and general rules with detailed criteria. As one of the core concepts of quality control, fine management is ought to strictly follow clinical practice guideline of thoracic surgery, to be clear with quality standards of each key link in clinical pathway, and to improve the clinical quality control system that combines self-evaluation and supervision and inspection.
Acute pulmonary embolism (PE) is a common disorder with significant morbidity and mortality in patients who underwent pulmonary ground-glass nodules (GGN) resection. We should make efforts to increase surgeons' awareness of risk factors of PE and their understanding of the effectiveness of prevention strategies. Using the optimal risk assessment model to identify high-risk patients and give them the individualized prophylaxis. Early diagnosis and accurate risk stratification is mandatory to reduce the rates of PE, to decrease health care costs and shorten the length of stay. This article summarizes the risk factors, diagnostic process, risk assessment models, prophylaxis and therapy for the PE patients who underwent GGN resection.
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.
Pulmonary adenocarcinoma in situ is reclassified as precursor glandular lesions in the fifth edition of WHO classification of thoracic tumours, causing widespread attention and heated debate among domestic thoracic oncologists, radiologists, pathologists and surgeons. We would like to comment on the topic and make a few suggestions on the management of pulmonary nodule during lung cancer screening. We are open to all suggestion and welcome debates.
With the widespread application of high-resolution and low-dose computed tomography (CT), especially the increasing number of people participating in lung cancer screening projects or health examinations, the detection of pulmonary nodules is increasing. At present, the relevant guidelines for pulmonary nodules focus on how to follow up and diagnose, but the treatment is vague. And the guidelines of European and American countries are not suitable for East Asia. In order to standardize the diagnosis and treatment of pulmonary nodules and address the issue of disconnection between existing guidelines and clinical practice, the Lung Cancer Medical Education Committee of the Chinese Medicine Education Association has organized domestic multidisciplinary experts, based on literature published by experts from East Asia, and referring to international guidelines or consensus, the "Chinese expert consensus on multidisciplinary minimally invasive diagnosis and treatment of pulmonary nodules" has been formed through repeated consultations and thorough discussions. The main content includes epidemiology, natural course, malignancy probability, follow-up strategies, imaging diagnosis, pathological biopsy, surgical resection, thermal ablation, and postoperative management of pulmonary nodules.