Project description: Not available

Project description: Not available

Project description:INTRODUCTION:The anatomical abnormalities in pulmonary veins can have a serious impact on pulmonary resections. PRESENTATION OF CASE:We report the case of a 70-year-old woman undergoing VATS right upper lobectomy for the treatment of non-small cell lung cancer. During subcarinal dissection, an anomalous vein draining from the superior segment of the right lower lobe into the left atrium and passing behind the bronchus intermedius was incidentally discovered. The patient had, in addition to the inferior pulmonary vein formed by the confluence of superior and common basal veins, a supernumerary vessel identified as: accessory right V6. Retrospective review of preoperative enhanced chest computed tomography confirmed the pulmonary vascular anomaly. DISCUSSION/CONCLUSION:A careful dissection during pulmonary resections can help to recognize variations of the pulmonary veins, avoiding unexpected intraoperative complications.

Project description:Video 1Incision and port placement of 4 to 5 cm at the fifth or sixth intercostal space between the anterior and the midaxillary line. Video available at: https://www.jtcvs.org/article/S2666-2507(21)00717-3/fulltext.Video 2Dissection of the anterior mediastinal pleura and division of the superior pulmonary vein. Video available at: https://www.jtcvs.org/article/S2666-2507(21)00717-3/fulltext.Video 3Dissection of the apical mediastinal pleura and division of the anterior and apical branches of the pulmonary artery. Video available at: https://www.jtcvs.org/article/S2666-2507(21)00717-3/fulltext.Video 4Dissection and division of the anterior oblique fissure and division of the lingular branches of the pulmonary artery. Video available at: https://www.jtcvs.org/article/S2666-2507(21)00717-3/fulltext.Video 5Dissection and division of the interlobar fissure and the posterior branch of the pulmonary artery. Video available at: https://www.jtcvs.org/article/S2666-2507(21)00717-3/fulltext.Video 6Dissection and division of the left upper lobe bronchus. Video available at: https://www.jtcvs.org/article/S2666-2507(21)00717-3/fulltext.Video 7Lymph node dissection (subaortic, hilar, subcarinal, or inferior pulmonary ligament) and division of the inferior pulmonary ligament. Video available at: https://www.jtcvs.org/article/S2666-2507(21)00717-3/fulltext.Video 8Specimen retrieval. Video available at: https://www.jtcvs.org/article/S2666-2507(21)00717-3/fulltext.Video 9Chest tube placement. Video available at: https://www.jtcvs.org/article/S2666-2507(21)00717-3/fulltext.

Project description:ObjectivesFollowing right upper lobectomy, the right middle lobe may shift towards the apex and rotate in a counterclockwise direction with respect to the hilum. This study aimed to investigate the incidence and clinical impact of middle lobe rotation in patients undergoing right upper lobectomy.MethodsFrom January 2014 to November 2018, 82 patients underwent right upper lobectomy at our institution for lung cancer using a surgical stapler to divide the minor fissure. Postoperative computed tomography scans evaluated the counterclockwise rotation of the middle lobe, in which the staple lines placed on the minor fissure were in contact with the major fissure of the right lower lobe (120° counterclockwise rotation). Clinicoradiological factors were evaluated and compared between patients with and without middle lobe rotation. We also reviewed surgical videos in patients with middle lobe rotation to evaluate the position of the middle lobe at the end of surgery.ResultsNine patients had a middle lobe rotation (11%), where 1 patient required surgical derotation. Patients with middle lobe rotation were significantly associated with more frequent right middle lobe atelectasis and severe postoperative complications compared with those without rotation. A surgical video review detected potential middle lobe rotation at the end of the surgery.ConclusionsMiddle lobe rotation without torsion following right upper lobectomy is not rare, and it is associated with adverse postoperative courses. Careful positioning of the right middle lobe at the end of surgery is warranted to improve postoperative outcomes.

Project description:Video-assisted thoracic surgery (VATS) provides less postoperative pain, preservation of the immune response and shorter recovery period, compared with thoracotomy. However, many patients complain of postoperative pain and paresthesia because VATS requires 3 or 4 incisions including a utility incision of 3-5 cm. To overcome this problem, single incision thoracoscopic surgery has emerged; this technique has been adopted for lung cancer surgery since 2010. Complete mediastinal lymph node dissection is the major role of lung cancer surgery. We describe a case of a right upper lobectomy with complete mediastinal lymph node dissection via single incision thoracosopic surgery.

Project description: Not available

Project description:BackgroundMalignant melanoma is a malignant tumor of melanocytes. All body organs can be invaded by it; however, the skin is the most common site of invasion. Melanomas involving the lungs are almost always metastatic and it is extremely rare to find a true primary malignant melanoma of the lung (PMML). Compared to cutaneous melanoma, mucosal melanoma has a different biology and clinical appearance. Since there are no standards for the diagnosis and treatment of PMML, it is treated differently. We reported a patient with PMML underwent surgery after programmed cell death 1 (PD-1) immunotherapy.Case descriptionA 62-year-old female patient presented with an occupying lesion in the right upper lung lobe found on physical examination. A computed tomography (CT) scan was done, and the results showed a lobulated soft tissue mass shadow of roughly 54 mm × 50 mm in the upper lobe of the right lung. The histological results of a CT-guided percutaneous lung biopsy were consistent with malignant melanoma. She was identified as having primary melanoma of the lung after undergoing a full physical examination to rule out occult primary tumor metastases. The patient received a total of 33 cycles of immunotherapy (PD-1). We did a right upper lung lobectomy after shrinking the melanoma in the right lung's upper lobe to a size of 16 mm × 10 mm. After the operation, the patient was monitored for 6 months and made a full recovery without recurrence.ConclusionsThe preoperative immune system in combination with a surgical procedure may boost patients' chances of survival. These findings need to be confirmed in more clinical research.

Project description: Not available

Project description:BACKGROUND:Robotic lobectomy has been described for non-small cell lung cancer (NSCLC). Our objectives were to (1) evaluate the use of robotic lobectomy over time, (2) identify factors associated with its use, and (3) assess outcomes after robotic lobectomy compared with other surgical approaches. METHODS:Stage I to IIIA NSCLC patients were identified from the National Cancer Data Base (2010 to 2012). Trends in robotic lobectomy were assessed over time, and multivariable logistic regression models were developed to identify factors associated with its use. Propensity-matched cohorts were constructed to compare postoperative outcomes after robotic lobectomy with thoracoscopic and open lobectomy. RESULTS:Lobectomy was performed in 62,206 patients by open (n = 45,527), thoracoscopic (n = 12,990), or robotic (n = 3,689) procedures at 1,215 hospitals. Between 2010 and 2012, robotic lobectomy significantly increased, from 3.0% to 9.1% (p < 0.001). Academic (odds ratio, 1.55; 95% confidence interval, 1.04 to 2.33) and high-volume hospitals (odds ratio, 1.49; 95% confidence interval, 1.04 to 2.14) were associated with increased use of robotic lobectomy. Length of stay was shorter in robotic lobectomy compared with open lobectomy (6.1 vs 6.9 days; p < 0.001). Fewer lymph nodes (9.9 vs 10.9; p < 0.001) and 12 or more nodes were examined less frequently (32.0% vs 35.6%; p = 0.005) in robotic resections than in thoracoscopic resections. There was no difference between robotic and open or robotic and thoracoscopic lobectomy patients in margin positivity, 30-day readmission, and deaths at 30 and 90 days. CONCLUSIONS:Robotic lobectomies have significantly increased in stage I to IIIA NSCLC patients, with outcomes similar to other approaches. Additional studies are needed to determine if this technology offers potential advantages compared with video-assisted thoracoscopic operations.