Background: Segmentectomy has been widely accepted as a powerful tool to treat small lung nodules.Despite been commonly used, identify the intersegment plane precisely in visual during the operation still being a complex issue. We described a novel method in minimal invasive thoracic surgery utilizing arterialnavigation combined with oxygen diffusing discrepancy based on the variance of oxygen diffusion in target and reserved segments. We perspectively analyzed 24 cases with small lung nodules of T1N0M0 disease to examine the efficacy of the new method, Methods: From June 2018 to September 2018, 24 patients with small primary lung cancers underwent segmentectomy at The Affiliated Hospital of Qingdao University. All the patients received minimally invasive procedures and standard anatomical segmentectomy. Ligation of the target segment artery followed by observation and the arterial-navigation line gradually appeared by color discrepancy in the visceral pleural surface. The plane was then testified by inflation-deflation method. Results:The mean identification time of the intersegments plane was 8 minutes. The residual segments collapsed and stayed pink, meanwhile the target parts remained inflated and turned dark. It allowed a clear identification of the intersegments plane on the surface. All operations were successfully completed. There were no perioperative deaths or major complications. The coincidence rate of arterial-navigation and inflation-deflation technique was 22/24. Conclusions:The arterial-navigation method is safe and feasible to identify the intersegmental plane in small lung tumor resection.
Background. The present study is aimed at evaluating the functional and clinical values of P3H4 in lung adenocarcinoma. Moreover, we also investigated the downstream pathways that P3H4 might participate in. Methods. The differential expression analysis was used to identify genes differentially expressed in lung adenocarcinoma tissues as compared with normal tissues. Survival analysis was used to test the association between P3H4 and survival time. Gene set enrichment analysis was conducted to explore the downstream pathways. CCK8 and transwell were employed to examine the impact of P3H4 on cell phenotypes. Results. P3H4 was highly upregulated in LUAD tissues at both RNA and protein levels. Moreover, the LUAD patients, who had high expression of P3H4, were also observed to have shorter disease-free survival and overall survival. These results demonstrated that P3H4 could be used as a prognostic biomarker for LUAD. Moreover, we also found that it was the copy number alterations (CNAs), not DNA methylation, that regulated the RNA expression of P3H4, indicating that its upregulation might be partially resulted from the CNAs. Furthermore, functional experiments revealed that the A549 and H1299 cells with siRNA treatment (siP3H4) exhibited significantly decreased cell proliferation after 24 hours, migratory ability, and invasiveness. Functionally, the upregulated proteins in the P3H4 high expression group were mainly enriched in tumor microenvironment-related pathways such as phagosome, focal adhesion, and ECM-receptor interaction and cancer-related pathways such as bladder cancer pathway, proteoglycans in cancer, and hippo signaling pathway. Conclusion. The present study systematically evaluated the functional and clinical values of P3H4 in LUAD, and explored the related biological pathways. P3H4 might promote LUAD progression through regulating tumor microenvironment-related pathways.
BackgroundCarina resection and reconstruction is a challenging procedure for thoracic surgeons. We describe a novel technique of thoracoscopic carina reconstruction using the natural bifurcation, following pulmonary resection of the lung neoplasm. To our knowledge, it is the first report of this kind.Case presentationA 71-year-old male diagnosed of squamous cell lung cancer received two-port approached video-assisted thoracoscopic right bilobectomy with carina resection after 2 cycles of neoadjuvant therapy. After the removal of right lower lobe and middle lobe, the 7 station lymph nodes were resected with the invaded carina and bronchial walls in an en-bloc fashion. The neocarina was reconstructed by the natural bifurcation between the right upper bronchus and the bronchus intermedius. Intraoperative blood loss was about 220 mL, and operative time was about 225 min. The postoperative course was uneventful. The pathological TNM stage was pT3N2M0, IIIA. Adjuvant chemotherapy using gemcitabine and cisplatin was administered for 4 cycles. Follow-up 6 months after surgery confirmed no stenosis and no signs of local recurrence by bronchoscopy and CT scan.ConclusionsWe consider that the surgical procedure described here is a new alternative strategy for carina resection and reconstruction in the similar situation. The minimally invasive method is safe and effective for this challenging operation.Electronic supplementary materialThe online version of this article (doi:10.1186/s13019-016-0541-9) contains supplementary material, which is available to authorized users.
Mitochondria play an important role in neuronal apoptosis caused by cerebral ischemia, and the role is mediated by the expression of mitochondrial proteins. This study investigated the involvement of mitochondrial proteins in hippocampal cell apoptosis after transient cerebral ischemia-reperfusion injury in aged rats using a comparative proteomics strategy. Our experimental results show that the aged rat brain is sensitive to ischemia-reperfusion injury and that transient ischemia led to cell apoptosis in the hippocampus and changes in memory and cognition of aged rats. Differential proteomics analysis suggested that this phenomenon may be mediated by mitochondrial proteins associated with energy metabolism and apoptosis in aged rats. This study provides potential drug targets for the treatment of transient cerebral ischemia-reperfusion injury.
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