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: The principles of 2010 National Comprehensive Cancer Network(NCCN) clinical practice guidelines in non-small cell lung cancer address that anatomic pulmonary resection is preferred for the majority of patients with non-small cell lung cancer and video-assisted thoracic surgery (VATS) is a reasonable and acceptable approach for patients with no anatomic or surgical contraindications. By reviewing the literatures on general treatment, pulmonary segmentectomy, pulmonary function reserve, and the anatomic issue of early stage non-small cell lung cancer surgery, the feasibility and reliability of thoracoscopic pulmonary segmentectomy are showed.
Abstract: Objective To evaluate the safety and efficacy of total thoracoscopic anatomic pulmonary segmentectomy for the treatment of early-stage peripheral lung carcinoma, pulmonary metastases and benign pulmonary diseases. Methods We retrospectively analyzed 20 patients who received total thoracoscopic anatomic pulmonary segmentectomy in Zhongshan Hospital of Fudan University from March 2008 to November 2011. There were ten male and ten female patients with a mean age of 58.0(14-86)years. Three ports were used. The pulmonary artery and vein of the segment were dealt with Hem-o-lok or stapler. The bronchi of the segment were dealt with staplers. Staplers were used in peripheral lung of intersegmental plane. Results All the twenty patients underwent total thoracoscopic anatomic segmentectomy successfully without any conversion to thoracoctomy or lobectomy. No perioperative morbidity or mortality occurred. Postoperative pathological examinations showed lung cancer in 10 patients, pulmonary metastases in 3 patients and benign pulmonary diseases in 7 patients. The mean operative time was 133.0(90-240)min. The mean blood loss was 85.0(50-200)ml. The chest tubes were maintained in position for 3.2 (2-7) d. The mean postoperative hospitalization time was 6.7 (4-11)d. Conclusion Total thoracoscopic anatomic pulmonary segmentectomy is a feasible and safe technique to be used selectively for Ⅰa stage lung cancer, pulmonary metastases and benign pulmonary diseases that are not appropriate for wedge resection.
ObjectiveTo evaluate the curative and economic effect of da Vinci robotic lung segmentectomy. MethodWe retrospectively analyzed clinical data of 13 patients who underwent robotic lung segmentectomy (as a robotic group) and 35 patients who underwent thoracoscopic lung segmentectomy (as a thoracoscopic group) in our hospital between September 2014 and April 2015. There were 4 males and 9 females at age of 43-73 (59.1±8.9) years in the robot group and 17 males and 18 females in the thoracoscopic group at age of 30-79 (59.1+12.0) years. Effects of the two groups were compared. ResultsPostoperative hospitalization time in the robotic group was shorter than that in the thoracoscopic group (4.4±0.8 d vs. 6.3±2.5 d, P<0.05). But the cost of hospitalization in the robotic group was higher than that in the thoracoscopic group (P<0.05). The surgery indwelling catheter time and incidence of complications in the robotic group were lower than those in the thoracoscopic group with no statistical difference (P=0.053, 0.081). ConclusionRobotic lung segmentectomy is a safe and feasible operation method. With the further accumulation of clinical experience and decrease of the cost of materials, the robot will play a more important role in the future of minimally invasive thoracic surgery.
Objective To make a survival analysis for the stage ⅠA non-small cell lung cancer patients who underwent lobectomy, segmentectomy or wedge resection and to discuss whether the segmentectomy and wedge resection can be used as a conventional operation. Methods The clinical data of 474 patients diagnosed with ⅠA non-small cell lung cancer from January 2012 to June 2015 in the First Affiliated Hospital of China Medical University were retrospectively anlyzed. There were 192 males and 282 females with a mean age of 60 years. Their sex, age, histological type, tumor size, surgical pattern, smoking, drinking, survival rate, disease-free survival rate, recurrence rate were compared. Results Disease-free survival rate of patients with wedge resection was significantly lower than that of the patients undergoing lobectomy and segmentectomy (P<0.05). When tumor diameter≤19 mm, the disease-free survival rate of patients with wedge resection was lower than that of patients with lobectomy (P=0.006) and segmentectomy (P=0.065). Disease-free survival rate of patients with tumor diameter of 20-<30 mm was significantly lower than that of patients with tumor diameter≤19 mm (P=0.026). Excluding patients with wedge resection, disease-free survival of the patients with lobectomy and segmentectomy and tumor diameter of 20-<30 mm was significantly lower than that of patients with tumor diameter≤19 mm (P=0.036). Patients with wedge resection had significant higher risk of local recurrence than that of patients undergoing lobectomy (P<0.001) and segmentectomy (P=0.002). Conclusion StageⅠA non-small cell lung cancer patients undergoing segmentectomy can obtain approximate survival and disease-free survival rate compared with those with lobectomy, especially in patients with tumor diameter≤19 mm. Pulmonary wedge resection as surgical treatment of lung cancer patients must be selected carefully according to the actual situation and surgical purposes.
The incidence and mortality of lung cancer are increasing globally. With the spread of CT, more and more early-stage lung cancer can be detected and treated in a timely manner. As the main treatment of lung cancer, thoracoscopic anatomical segmentectomy in the treatment of non-small cell lung cancer is causing concern to the thoracic surgeons. Here, we will discuss the application of thoracoscopic anatomical segmentectomy in the treatment of early non-small cell lung cancer.
ObjectiveTo evaluate the feasibility and safety of single utility port video-assisted thoracoscopic surgery (VATS) anatomic segmentectomy for lung diseases. MethodsWe performed a retrospective review of 155 patients undergoing single utility port VATS anatomic segmentectomy from January 2015 to December 2016. There were 62 males and 93 females with a mean age of 53 (24–82) years. Two ports were used. The camera was through the port for observation which was about 1.5 cm in length and located at the 7th or 6th intercostal space. The instruments were through port for operation that was about 3–4 cm in length and located at the 4th or 3th intercostal space. Pulmonary segment vessel and segmental bronchi were cut and stitched by Hemolock or linear cut stapler. Different segments were separated by linear cut stapler. Perioperative data were collected and analyzed. ResultsOne patient was performed suture under the auxiliary operating hole (three holes) because of pulmonary artery bleeding. The remaining 154 patients underwent single utility port VATS anatomic segmentectomy successfully. No conversion to open procedure or lobectomy was found and there was no perioperative mortality. The median operative time was 102 (65–150) min and the median blood loss in operation was 118 (50–300) ml. The thoracic drainage time was 3.8 (2–7) d and the median hospital stay after operation was 5.6 (3–9) d . Major morbidity occurred in 8 patients (5.2%) including hemoptysis (in 2 patients), pneumonia (in 2 patients), aerodermectasia (in 1 patient), pleural effussion (in 1 patient) and local atelectasis (in 1 patient). All of them above healed after symptomatic treatment. Patholocal examination showed there were 139 patients of primary lung carcinoma (pathologically staged as Tis-T1bN0M0), 9 patients of benign diseases and 7 patients of metastasis tumor. ConclusionSingle utility port VATS anatomic segmentectomy procedure is safe and feasible. It can be utilized as an option for those with non-small cell lung cancer staged Ⅰa and those unable to tolerate pulmonary lobectomy.
Recently, anatomical segmentectomy emerges as a hot spot in clinical research for surgical treatment of early-stage lung cancer. The techniques of segmentectomy are more elaborate and complicated than lobectomy, because of the considerable anatomic variations of segment blood vessels and bronchus. In a long term, video-assisted thoracic surgery is the mainly minimally invasive approach. As a new approach of minimally invasive surgery, da Vinci robot system possesses three-dimensional and high definition view, better dexterity mechanical wrist and tremor filtering system, which are the main advantages over video-assisted thoracic surgery. All the superiorities of robot system provide good supports for performing segmentectomy. Robot-assisted segmentectomy has been carried out in many medical centers in China and abroad until now. However, most surgery cases often lack adequate controls on quality.
Thoracoscopic pulmonary segmentectomy is one of the important treatment methods for early lung cancer. Only the premise of surgical precision can make the radical resection of lesions and maximum reservation of healthy lung tissue be simultaneously guaranteed. As a representative of the precise lung operation, the " cone-shaped lung segmentectomy” focuses on the lesion, and combines the anatomical characteristic of the patient to design individualized operation scheme. The technological core consists of three parts, three dimensional-computed tomography bronchography and angiography (3D-CTBA) surgery path planning, accurate definition of intersegmental demarcation and anatomic dissection of intersegmental borders along the demarcation. This paper aims to explore the technical process and quality control of the key techniques of thoracoscopic precise segmentectomy, so as to standardize the segmentectomy procedure under the principle of radical and minimally invasive therapy.
ObjectiveTo analyze the feasibility, advantages and disadvantages of the fluorescence method and the inflation-deflation method in defining the intersegmental plane during thoracoscopic lung segmental resection.MethodsFrom February to October 2018, 60 patients underwent thoracoscopic anatomical segmentectomy in Thoracic Surgery Department of Nanjing Chest Hospital, with 28 males and 32 females, aged from 25 to 82 years. Three-dimension computed tomography bronchography and angiography was used to reconstruct pulmonary vessels, bronchus and virtual intersegmental plane. Among them, 20 patients used the fluorescence method to define the intersegmental plane, and the other 40 patients used the traditional inflation-deflation method to define the intersegmental plane.ResultsFluorescent injection of indocyanine green (ICG) showed a clear intersegmental line with a duration sufficient to complete the label. With the fluorescence method, the intersegmental plane occurrence time was significantly shortened (10.75±3.78 s vs. 988.00±314.24 s, P<0.001) and had satisfactory repeatability. The lungs did not need to be inflated, which was convenient for the operation. And the operation time was shortened (108.75±31.28 min vs 138.00±32.47 min, P=0.002). No obvious ICG injection-related concurrency symptoms was found.ConclusionCompared with the traditional inflation-deflation method, the fluorescence method can display the intersegmental line quickly, accurately and clearly, reduce the difficulty of surgery, shorten the operation time, and provide reliable technical support for thoracoscopic anatomical segmentectomy. The fluorescence is a safe and effective method that is worthy of clinical application.