Lung cancer, as one of the malignant tumors with the fastest increasing morbidity and mortality in the world, has a serious impact on people's health. With the continuous advancement of medical technology, more and more medical methods are applied to lung cancer screening, which has gradually increased the detection rate of early lung cancer. At present, the standard operation for the treatment of early non-small cell lung cancer (NSCLC) is still lobectomy and mediastinal lymph node dissection. There is a growing trend to use segmentectomy for the treatment of early stage lung cancer. Anatomical segmentectomy not only removes the lesions to the maximum extent, but also preserves the lung function to the greatest extent, and its advantages are also obvious. This article reviews the progress of anatomical segmentectomy in the treatment of early NSCLC.
Accurate identification of intersegmental plane is one of the key steps of segmentectomy. Identification of intersegmental plane is usually based on differences in ventilation or circulation between the targeted segment and the reserved segment. In recent years, many methods of showing the intersegmental plane after blocking pulmonary circulation have emerged, and these methods have simplified segmentectomy and shortened the operation time. In this paper, we reviewed the related methods of blocking pulmonary circulation to identify the intersegmental plane.
ObjectiveTo introduce a new method for identifying intersegmental planes during thoracoscopic segmentectomy using pulmonary circulation single-blocking in the target segment. MethodsTo retrospectively analyze the clinical data of 83 patients who underwent thoracoscopic pulmonary segmentectomy from January 2019 to March 2020 using the pulmonary circulation single-blocking method. There were 33 males and 50 females, with a median age of 54 (46-65) years, and they were divided into a single vein group (SVG, n=31) and a single artery group (SAG, n=52), and the clinical data of two groups were compared. ResultsThe intersegmental planes were identified successfully in both groups and there were no statistically significant differences between the two groups in terms of intersegmental plane management (P=0.823), operating time (P=0.786), intraoperative blood loss (P=0.775), chest drainage time (P=0.659), postoperative hospital stay (P=0.824) or the incidence of postoperative complications (P=1.000). ConclusionThe use of pulmonary circulation single-blocking for intersegmental plane identification during thoracoscopic segmentectomy is safe and feasible, and the intersegmental plane can be satisfactorily identified by the single-blocking of arteries or veins.
With the wide popularization of low-dose computed tomography screening for lung cancer, the proportion of early detection of lung cancer has increased significantly. Due to the favorable prognosis of ground-glass nodule-lung cancer, a prospective multicenter clinical trial in Japan has confirmed the safety and efficacy of segmentectomy. Identification of the intersegmental plane is one of the key steps in segmentectomy. Understanding its physiological mechanism can provide a theoretical basis for optimizing the identification technique, identifying intersegmental plane more accurately and quickly, improving the surgical effect and reducing complications. This article mainly introduces the identification technology of the intersegmental plane and its physiological mechanism in pulmonary segmentectomy.