Abstract: Currently, there are two significant tendencies in the advancement and progress of video-assisted thoracoscopic surgery(VATS), firstly, the widening surgical indications for VATS techniques, and secondly, the use of single-port VATS which is less invasive and more cosmetic. This article focuses in particular on four aspects of single-port VATS, including;(1)the individualized incision approach and its characteristics of single-port VATS;(2)single-port VATS for the treatment of pneumothorax and the development of related techniques and equipment;(3)single-port VATS for the diagnosis and treatment of thoracic diseases such as lung lobectomy;(4)the advantages and disadvantages of single-port VATS in clinical practice.
The TNM staging of lung cancer which is now widely used in clinic was formally proposed in 1997. It has played quite an important role in directing the diagnosis and treatment of lung cancer as well as the clinical research in the past decade. However, at the same time, there are some insufficiencies which are emerging gradually. By collecting the clinical information from 100 869 patients, in 2007, International Association for the Study of Lung Cancer(IASLC) made a deep analysis on the relativity between TNM staging and prognosis, and put forward the suggestions to revise the Seventh Edition of the TNM staging of lung cancer: (1) According to the size of tumor, the primary T staging is divide into T1a (the maximum tumor diameter≤2 cm), T1b (3 cm≥the maximum tumor diameter>2 cm), T2a (5 cm≥the maximum tumor diameter>3 cm) and T2b (7 cm≥the maximum tumor diameter>5 cm); (2) T 2c (the maximum tumor diameter gt;7 cm) and additional nodules in the same lobe are classified as T3, while nodules in the ipsilateral nonprimary lobe are classified as T4;(3) Cancerous hydrothorax, pericardial effusion and the additional nodules in the contralateral lung are classified as M1a, while the extrapulmonary metastases are classified as M1b. It is believed that the new revised edition will has higher international authority and identification degree, and it will play a more meticulous and accurate guiding role in the treatment of lung cancer and its predicting prognosis in the future. At the same time, it will provide a new starting point to the research of lung cancer.
Abstract: Although lung transplantation has been established as the only valid therapeutic approach for endstage pulmonary disease, several related problems remain to be solved. In addition to the serious problem in donor lung shortage, primary graft dysfunction caused by lung ischemia-reperfusion injury is one of the most common reason of early mortality. Optimal preservation of lung is essential to reduce ischemic organ dysfunction after lung transplantation. The development of a highly reliable lung preservation solution that reduces ischemia-reperfusion injury will improve the functioning of transplanted lungs. The progress of the type, perfusing technique or strategies and modified methods of lung preservation solution are reviewed in this article.
Objective To evaluate the effectiveness and safety of single-incision video-assisted thoracic surgery versus conventional multiple ports video-assisted thoracic surgery in the treatment of lung cancer as well as providing reference for clinical decision-making. Methods We searched the Cochrane Library, PubMed, EMbase, CBM, CNKI, VIP, Wanfang ect until March 2017 to collect randomized controlled trials (RCTs), cohort studies, and case-control studies comparing single-incision with conventional multiple ports video-assisted thoracic surgery for lung cancer.Two reviewers independently screened and selected literatures according to inclusion and exclusion criteria. Then data extraction and quality assessment of included studies were conducted. RevMan 5.3 software was used for meta-analysis. Results Twenty-six cohort studies (3 053 patients) were included. The quality of the included studies was high with score more than five.Meta-analysis showed that single-incision video-assisted thoracic surgery had shorter thoracic drainage time (MD=–0.71, 95% CI –1.03 to –0.39), shorter hospitalization time (MD=–0.92, 95% CI –1.66 to –0.19), lower pain scores 1 day after surgery (MD=–0.65, 95% CI –0.90 to –0.40), lower pain scores 3 days after surgery (MD=–0.90, 95% CI –1.16 to –0.64), lower pain scores 7 days after surgery (MD=–1.24, 95% CI –1.90 to –0.57), less number of lymph node dissection (MD=–0.72, 95% CI –1.35 to –0.10), less total drainage fluid (MD=–108.60, 95% CI –180.42 to –36.79) and shorter length of surgical incision (MD=–2.74, 95% CI –3.57 to –1.90) than conventional multiple ports video-assisted thoracic surgery. But the differences between the two groups in operation time, intraoperative blood loss, postoperative complications were not statistically significant. Conclusion Single-incision video-assisted thoracic surgery is safer and better in patient's compliance than conventional multiple ports video-assisted thoracic surgery in the treatment of lung cancer. But there is no significant difference in operation time, intraoperative blood loss, or postoperative complications. It still needs large-scale, high-quality studies to demonstrate its effectiveness and safety.
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.