Objective To evaluate the safety and efficacy of the femoral arterial preclosure by purse-string suture for thoracic endovascular aortic repair (TEVAR). Methods From January 2013 to September 2016, TEVAR was performed on 40 patients with Standford type B aortic dissection. There were 34 males and 6 females aged 57.9±10.4 years. According to the surgical procedure, they were divided into a purse-string group (20 patients, 16 males, 4 females, aged 58.1±10.3 years), in which the patients received femoral arterial preclosure by purse-string suture and a convention group (20 patients, 18 males, 2 females, aged 57.7±10.8 years), in which the patients underwent conventional femoral cutdown. The outcomes and complications of two groups were evaluated. Results There was no in-hospital death and no paraplegia event. There was significantly shorter operation time (70.4±24.0 min vs. 100.8±35.6 min, P=0.003) and less blood loss (39.5±29.8 ml vs. 83.5±86.5 ml, P=0.038) in the purse-string group than those in the convention group. Femoral artery stenosis was observed in 3 patients (15.0%) in the convention group and none in the purse-string group during the follow-up of 1-36 (17.2±11.5) months with no statistical difference (P=0.231). Conclusion Using the femoral arterial preclosure by purse-string suture for TEVAR can save operation time, reduce intraoperative bleeding and decrease the approach-associated complications.
ObjectiveTo evaluate the efficacy of thoracoscopic complex segmentectomy for stageⅠnon-small cell lung cancer (NSCLC).MethodsWe retrospectively reviewed the perioperative clinical data of patients with stageⅠNSCLC who underwent thoracoscopic complex segmentectomy (n=58) or simple segmentectomy (n=33) between January 2017 and March 2020 in our hospital. There were 36 males and 55 females with a median age of 57 years (range: 50-66 years). The clinical data of the two groups were compared.ResultsThere were no significant differences between the two groups in characteristics including age, sex, weight, comorbidities, preoperative pulmonary function, dominant composition of tumor, tumor histology and size, overall complications, estimated blood loss, prolonged air leakage, length of hospital stay, length of drainage, surgical margin distance or number of dissected lymph nodes. Only the operation time and number of staples for making intersegmental plane were significantly different between the two groups (P<0.05). There was no perioperative death in both groups.ConclusionThoracoscopic complex segmentectomy is a feasible and safe technique for stageⅠNSCLC.
Objective To investigate the security and feasibility of silk ligating for pulmonary artery in video-assisted thoracoscopic lobectomy, and to summarize the clinical skills. Methods We retrospectively analyzed the clinical data of 68 patients underwent the video-assisted thoracoscopic lobectomy from April 2013 to March 2015. There were 49 males and 19 females with the mean age of 59.6±10.3 years, ranging from 38 to 76 years. We divided the patients into an ECR60W cut-up group (31 patients) and a silk ligation group (37 patients). There were 22 males and 9 females patients with the average age of 59.3±9.9 years with ECR60W. There were 27 males and 10 females patients with the average age of 59.9±10.5 years with silk ligation. We observed the effect of hemostasis, and analyzed the amount of bleeding loss during operation, postoperative suction drainage and the cost of operation material between the two groups. Results There were 4 patients out of 68 converted to the open lobectomy, and all of them used ECR60W. The application of silk ligation for pulmo-nary artery could effectively control bleeding loss and avoid massive amount of bleeding due to the vascular tear in opera-tions. Furthermore, the application can reduce the rate of severe complications such as massive bleeding resulting from postoperative silk ligation slippage. There was a statistical difference between the two groups on the cost of operation mate-rials (P < 0.01). Conclusions Silk ligation for pulmonary artery in video-assisted thoracoscopic lobectomy is simple and prac-tical to apply. Compared with the ECR60W, it can significantly reduce the cost of operation material. It's worth to popularize in clinic.
ObjectiveTo explore the clinical issues associated with video-assisted pulmonary segmentectomy and to provide reference for better implementation of thoracoscopic pulmonary segmentectomy and reduction of perioperative complications through analyzing the clinical results of thoracoscopic segmentectomy.MethodsThe clinical data of 90 patients who planned to undergo thoracoscopic segmentectomy in our department from October 2017 to December 2019 were retrospectively analyzed, including 35 males with an average age of 60.34±9.40 years and 55 females with an average age of 56.09±12.11 years. The data including lung nodule number, benign or malignant, preoperative location by Hookwire, preoperative planning and actual implementation, operation time, intraoperative blood loss, postoperative drainage volume and time of drainage tube removal, postoperative hospital stay and complications were collected and analyzed.ResultsAmong the 90 patients, 38 were preoperatively positioned by Hook-wire, 52 were directly operated on; 87 were completed under thoracoscopic surgery among whom 3 underwent passive lobectomy after segmentectomy under thoracoscopic surgery, and 3 were converted to thoracotomy among whom 1 underwent lobectomy. Operation time was 198.58±56.42 min, intraoperative blood loss was 129.78±67.51 mL, lymph node samples were 6.43±1.41, drainage time was 2.98±1.25 d, the amount of postoperation drainage was 480.00±262.00 mL, hospital stay was 7.60±2.38 d. In all patients, 73 had single nodules and 17 had multiple nodules. Totally 113 pulmonary nodules were resected, 14 (12.39%) were benign nodules and 99 (87.61%) were malignant nodules. There was no perioperative death or serious complications.ConclusionFor those pulmonary parenchymal nodules which meet the indications, it is feasible to perform thoracoscopic anatomic pulmonary segmentectomy according to preoperative thin-slice CT and three-dimensional computed tomography-bronchography and angiography (3D-CTBA) reconstruction results. Preoperative Hookwire localization can ensure effective edge resection and reduce unplanned lobotomy for intersegmental nodules and non-palpable peripheral pure ground-glass nodules.
ObjectiveTo compare the clinical application of empirical thoracoscopic segmentectomy and precise segmentectomy planned by artificial intelligence software, and to provide some reference for clinical segmentectomy. MethodsA retrospective analysis was performed on the patients who underwent thoracoscopic segmentectomy in our department from 2019 to 2022. The patients receiving empirical thoracoscopic segmentectomy from January 2019 to September 2021 were selected as a group A, and the patients receiving precise segmentectomy from October 2021 to December 2022 were selected as a group B. The number of preoperative Hookwire positioning needle, proportion of patients meeting oncology criteria, surgical time, intraoperative blood loss, postoperative chest drainage time, postoperative hospital stay, and number of patients converted to thoracotomy between the two groups were compared. Results A total of 322 patients were collected. There were 158 patients in the group A, including 56 males and 102 females with a mean age of 56.86±8.82 years, and 164 patients in the group B, including 55 males and 109 females with a mean age of 56.69±9.05 years. All patients successfully underwent thoracoscopic segmentectomy, and patients whose resection margin did not meet the oncology criteria were further treated with extended resection or even lobectomy. There was no perioperative death. The number of positioning needles used for segmentectomy in the group A was more than that in the group B [47 (29.7%) vs. 9 (5.5%), P<0.001]. There was no statistical difference in the number of positioning needles used for wedge resection between the two groups during the same period (P=0.572). In the group A, the nodule could not be found in the resection target segment in 3 patients, and the resection margin was insufficient in 10 patients. While in the group B, the nodule could not be found in 1 patient, and the resection margin was insufficient in 3 patients. There was a statistical difference between the two groups [13 (8.2%) vs. 4 (2.4%), P=0.020]. There was no statistical difference between the two groups in terms of surgical time, intraoperative blood loss, duration of postoperative thoracic drainage, postoperative hospital stay, or conversion to open chest surgery (P>0.05). Conclusion Preoperative surgical planning performed with the help of artificial intelligence software can effectively guide the completion of thoracoscopic anatomical segmentectomy. It can effectively ensure the resection margin of pulmonary nodules meeting the oncological requirements and significantly reduce the number of positioning needles of pulmonary nodules.
ObjectiveTo summarize the clinical experience of thoracoscopic combined subsegmentectomy (CSS). MethodsThe clinical data of 76 patients who underwent thoracoscopic CSS in Anqing Municipal Hospital from May 2018 to July 2022 were retrospectively analyzed, including 22 males and 54 females, aged 27.0-76.0 (54.3±10.5) years. All patients underwent preoperative three-dimensional computed tomography bronchography and angiography using dual source CT. The modified inflation-deflation technique or indocyanine green was used to identify the intersubsegmental border. ResultsA total of 86 pulmonary nodules were resected in 76 patients. One patient of left upper lobe S1+2c+S4a, 1 patient of right upper lobe S2b+S3a and 1 patient of right upper lobe S1b+S3b were further performed lobectomy due to insufficient margin. One patient of left upper lobe S1+2+S3a was further performed left upper division segmentectomy due to residual atelectasis. One patient of left upper lobe S1+2c+S3a was further performed left upper division segmentectomy due to B3b+c injury, and the rest completed planned surgeries successfully. The operative time was 90.0-350.0 (174.9±53.2) min. The operative hemorrhage volume was 50.0 (20.0, 50.0) mL. The postoperative hospital stay time was 6.0 (5.0, 7.0) d. Postoperative complications included pulmonary infection in 9 patients, hemoptysis in 3 patients, persistent pulmonary leakage>3 d in 4 patients, pneumothorax in 1 patient, pleural effusion in 1 patient, and myocardial infarction in 1 patient. All of the patients were cured and discharged without perioperative death. ConclusionThoracoscopic CSS is relatively complex. Preoperative planning under three-dimensional reconstruction and intraoperative fine operation are helpful for safe completion.
Objective To evaluate the application effect of modified jejunostomy in thoracoscopic Ivor-Lewis esophagectomy. Methods A retrospective analysis of patients who underwent Ivor-Lewis esophagectomy for middle and lower esophageal cancer from 2017 to 2023 in our department was performed. The patients from 2017 to 2020 receiving "C+I" in the upper jejunum according to the "C+I" model, and fistula fixed with only two purse-string sutures and the abdominal wall were allocated into a group A. The patients from 2021 to 2023, on the basis of "C+I" suture, the jejunum and abdominal wall fixed with 3-0 absorbable thread for 1-2 needles at the proximal or distal end of the fistula 10-15 mm, and the upper jejunum and abdominal wall fixed into "curtain" were allocated into a group B. The operation time, jejunostomy time, postoperative pathological stage, and enteral nutrition-related complications such as the incidence of incomplete intestinal obstruction, closed loop intestinal obstruction and intestinal volvulus requiring secondary surgery, skin redness and swelling of intestinal fluid leakage, stoma tube blockage, and accidental extubation were compared between the two groups. Results All patients successfully completed Ivor-Lewis esophagectomy under thoracoscopy. There was no perioperative death. There were 118 patients in the group A, including 72 males and 46 females, with an average age of 64.58±6.30 years. There were 125 patients in the group B, including 76 males and 49 females, with an average age of 65.11±6.81 years. There was no statistical difference in operation time, jejunal fistula time, fistula blockage or accidental extubation rate between the two groups (P>0.05). There was a statistical difference in the incidence of incomplete intestinal obstruction (P=0.035), and closed loop intestinal obstruction requiring secondary surgery (P=0.017). There were 36 patients of eczema-like changes in the patients with severe intestinal leakage and redness in the group A, and 7 patients of intestinal leakage and redness in the group B (P<0.001). Conclusion The modified jejunostomy can significantly reduce the incomplete intestinal obstruction, closed loop intestinal obstruction and secondary operation rate after "C+I" jejunostomy, and significantly improve the leakage of intestinal fluid at the stoma and the injury of surrounding skin and soft tissue. Improvements in certain technologies reduce operational difficulties and is worthy of promotion and application in clinical practice.