1.SNP767A/T of FUS2 gene and lung cancer risk in Chinese population.
Xinhua MU ; Kang SHAO ; Cuiyan ZHANG ; Zhaoli CHEN ; Junting WAN ; Kezhi ZHANG ; Ning LI ; Fang ZHOU ; Meihua XIONG ; Jie HE
Chinese Journal of Lung Cancer 2006;9(5):409-412
BACKGROUNDFUS2 gene locating at 3p21.3 is considered a promising candidate tumor suppressor gene. The aim of this study is to examine the difference in FUS2-767A/T polymorphism site between lung cancer patients and normal controls in Chinese population.
METHODSThe genotype FUS2-767A/T was detected in 146 lung cancer patients and 113 normal controls by PCR-SSCP method. The relationship between lung cancer risk and difference in genotypes of FUS2 gene was analysed.
RESULTSFUS2-767A/T was significantly related to histological type (P=0.044), age of the patients with lung cancer (P=0.011) and vessel cancer embolus (P=0.031) in lung cancer group. There was no significant difference in distribution of FUS2 genotypes between lung cancer patients and normal controls (P=0.945).
CONCLUSIONSThe results suggest that the FUS2-767A/T polymorphism may be a susceptibility factor for lung cancer among Chinese population.
2.Progress in the application of metal and metal oxide nanoparticles in the antibacterial modification of dental materials
WANG Wanrong ; GU Junting ; GAO Peng ; LI I Jing ; WAN Meichen ; JIAO Kai ; NIU Lina
Journal of Prevention and Treatment for Stomatological Diseases 2020;28(8):540-544
The colonization of microorganisms planted on the surface of teeth and restoration materials is the main cause of oral disease and treatment failure. How to improve the antibacterial properties of dental materials is a hot topic in dentistry. Nano-sized antibacterial materials have attracted much attention. Among them, metal and metal oxide nanoparticles are prominent due to their strong and broad-spectrum antibacterial activity. Thus, in recent years, many studies have used metal and metal oxide nanoparticles to develop antimicrobial dental materials for resin restoration, root canal therapy, orthodontic treatment, and implant surface and removable denture repair and have found that the antibacterial properties of nano-sized materials are significantly enhanced. However, the mechanical properties and esthetic properties of the modified materials are affected, so it is still necessary to explore appropriate modification methods. In addition, most of the experiments are carried out in vitro, which cannot accurately simulate the oral environment. Therefore, the antibacterial effect, cytotoxicity and immune response of these materials in vivo still need further research and exploration. This paper reviewed the potential antibacterial mechanisms and the safety of those nanoparticles and their applications in dentistry.