The morbidity and mortality of gallbladder cancer were rising. At present, there was no effective chemotherapy regimen, so it was of great practical significance to explore new therapy target. Ferroptosis is a non-apoptotic form of cell death characterized by iron-dependent lipid peroxidation and metabolic constraints. In recent years, it had become a research hotspot. Many studies had been carried out on the relevant biological mechanisms such as liver cancer, breast cancer, pancreatic cancer, and other cancer. At present, there are still few studies on ferroptosis in gallbladder cancer, and its relevant mechanisms need further in-depth analysis, which opens up a new research direction for exploring the treatment of gallbladder cancer.
High-grade gliomas are the most common malignant primary central nervous system tumors with poor prognosis. The operation based on the principle of maximum safe resection of tumors, combined with radiation therapy and chemotherapy, is the primary treatment method. This treatment only delays the progression of high-grade gliomas, and almost all patients eventually develop disease progression or relapse. With the development of molecular biology, immunology, and genomics, people have a deeper understanding of the pathogenesis of gliomas. Targeted therapy, immunotherapy, and other comprehensive treatments are expected to become potential treatments for high-grade gliomas. This article reviews the current status of medical treatment of primary and recurrent high-grade gliomas, and the research progress of high-grade gliomas in targeted therapy and immunotherapy.
Objective To evaluate the efficacy and safety of anti-vascular endothelial growth factor (VEGF) agents for advanced renal cell carcinoma. Methods We searched MEDLINE, EMbase, The Cochrane Library, CBMdisc and China Academic Periodical database from the establishment of each database to April 2009. We included randomized controlled trials (RCTs) that evaluated anti-VEGF agents (sunitinib, sorafenib and bevacizumab). The quality of the included trials was evaluated by two reviewers independently. Meta-analyses were conducted by the Cochrane Collaboration’s RevMan 4.2 software. Results Four RCTs involving 2 320 patients were identified. According to the different interventions for advanced renal cell carcinoma, we divided the patients into two groups: anti-VEGF agents monotherapy and anti-VEGF agents plus interferon combination treatment. Our meta-analyses showed: monotherapy was superior to interferon on inhibition of tumor progression [OR=0.38, 95%CI (0.29, 0.51), Plt;0.01] and control of tumor [OR=2.53, 95%CI (1.87, 3.43), Plt;0.01], but was not significantly different from interferon on the overall effective rate [OR=1.97, 95%CI (0.20, 19.57), P=0.56] and serious side effects [OR=1.98, 95%CI (0.90, 4.34), P=0.09]. There were significant differences between anti-VEGF agents plus interferon and interferon alone on inhibition of tumor progression [OR=0.67, 95%CI (0.53, 0.84), P=0.000 5], overall effective rate [OR=2.65, 95%CI (1.94, 3.61), Plt;0.01], control of tumor [OR=2.14, 95%CI (1.65, 2.78), Plt;0.01] and serious side effects [OR=2.63, 95%CI (2.09, 3.31), Plt;0.01]. Conclusion Compared with interferon, anti-VEGF agents could inhibit tumor progression more effectively. Moreover, the combination therapy with interferon could offer a more favorable overall effective rate for advanced renal cell carcinoma, but then followed by more serious side effects. We need to weigh the merits and demerits of drugs before making a clinical decision for advanced renal cell carcinoma.
Radionuclides can be labeled on biomolecules with specific binding ability. By binding with specific targets of tumors, particles such as α or β emitted by the radionuclides will specifically irradiate tumors and produce ionizing radiation effects, resulting in cell senescence and death within the irradiation range, achieving tumor treatment results, and this way has little impact on surrounding normal tissues. Lutetium-177 (177Lu) can emit γ rays for CT imaging, and can also emit β rays for tumor treatment, so 177Lu is now one of the radionuclides that can be used for integrated diagnosis and treatment. This review summarizes the clinical application of 177Lu in several solid tumors, in conjunction with currently published research.