Aging is a natural process experienced by all living organisms, and the increasing elderly population presents a significant public health challenge in the 21st century.Consequently, the quest for new anti-aging drugs that can decelerate the aging process and enhance the health of the elderly has become an urgent priority.Metformin, an oral anti-diabetic medication, is primarily utilized for the treatment of type 2 diabetes mellitus.Its main mechanism of action involves the inhibition of hepatic glucose production and the reduction of insulin resistance.Beyond its anti-diabetic properties, metformin has been strongly associated with aging and age-related diseases.This article provides a concise review of recent advancements in the application of metformin in the context of aging and age-related diseases.

Objective To explore the effects of cerium-doped mesoporous bioactive glass nanoparticles(Ce-MBGNs)as reactive oxy-gen species(ROS)-responsive nanocarriers on inflammation in pulp and their potential to promote odontogenic differentiation of dental pulp stem cells(DPSCs).Methods The cytotoxicity of Ce-MBGNs was assessed by CCK-8.The expression of mRNA of osteogenic/odontogenic differentiation in DPSCs and that of inflammatory factor in RAW264.7 cells were detected by RT-qPCR.Alkaline phospha-tase and Alizarin Red S staining were utilized to investigate their ability to promote dentin mineralization.The ability of Ce-MBGNs to scavenge ROS was evaluated by immunofluorescence and JC-1 staining was used to assess the membrane potential(MMP)of mitochon-drial.Results Ce-MBGNs exhibited good biocompatibility and significantly increased the expression of osteogenic/odontogenic-related genes in DPSCs,promoting mineralization.Additionally,Ce-MBGNs effectively scavenged intracellular ROS,maintained MMP,inhib-ited the expression of pro-inflammatory factors,and promoted the expression of anti-inflammatory factors.Conclusion Ce-MBGNs can protect DPSCs from oxidative damage by maintaining the MMP of mitochondrial and controlling inflammation,and promote their odonto-blastic differentiation,providing a theoretical basis for the development of novel therapeutic agents for oral treatment.

Objective To explore the effects of cerium-doped mesoporous bioactive glass nanoparticles(Ce-MBGNs)as reactive oxy-gen species(ROS)-responsive nanocarriers on inflammation in pulp and their potential to promote odontogenic differentiation of dental pulp stem cells(DPSCs).Methods The cytotoxicity of Ce-MBGNs was assessed by CCK-8.The expression of mRNA of osteogenic/odontogenic differentiation in DPSCs and that of inflammatory factor in RAW264.7 cells were detected by RT-qPCR.Alkaline phospha-tase and Alizarin Red S staining were utilized to investigate their ability to promote dentin mineralization.The ability of Ce-MBGNs to scavenge ROS was evaluated by immunofluorescence and JC-1 staining was used to assess the membrane potential(MMP)of mitochon-drial.Results Ce-MBGNs exhibited good biocompatibility and significantly increased the expression of osteogenic/odontogenic-related genes in DPSCs,promoting mineralization.Additionally,Ce-MBGNs effectively scavenged intracellular ROS,maintained MMP,inhib-ited the expression of pro-inflammatory factors,and promoted the expression of anti-inflammatory factors.Conclusion Ce-MBGNs can protect DPSCs from oxidative damage by maintaining the MMP of mitochondrial and controlling inflammation,and promote their odonto-blastic differentiation,providing a theoretical basis for the development of novel therapeutic agents for oral treatment.

Aging is a natural process experienced by all living organisms, and the increasing elderly population presents a significant public health challenge in the 21st century.Consequently, the quest for new anti-aging drugs that can decelerate the aging process and enhance the health of the elderly has become an urgent priority.Metformin, an oral anti-diabetic medication, is primarily utilized for the treatment of type 2 diabetes mellitus.Its main mechanism of action involves the inhibition of hepatic glucose production and the reduction of insulin resistance.Beyond its anti-diabetic properties, metformin has been strongly associated with aging and age-related diseases.This article provides a concise review of recent advancements in the application of metformin in the context of aging and age-related diseases.

OBJECTIVE: To observe the anatomical features and relative position of the brachiocephalic trunk and the trachea to provide an anatomical basis for diagnosis and treatment of mechanical airway obstruction and for facilitating the performance of tracheotomy. METHODS: A total of 91 formalin- fixed adult cadavers (70 male and 21 female) were used in this study. The whole length of the larynx and the trachea were separated and exposed from the neck to the chest, followed by separation of the aortic arch and its 3 branches to observe the anatomical position of the brachiocephalic trunk and the trachea. RESULTS: The brachiocephalic trunk and the trachea did not intersect in 3.30%, partially intersected in 71.43%, and completely intersected in 25.27% of the 91 cadaveric specimens. The male specimens all showed greater outer diameter of the aortic arch, the brachiocephalic trunk and the trachea with a greater length of the trachea than the female specimens (P < 0.05), while the distances from the aortic arch to the brachiocephalic trunk or the cricoid cartilage did not differ significantly between them (P > 0.05). The number of the tracheal cartilage rings above the brachiocephalic trunk ranged from 3 to 10, and the mean number did not differ significantly between the male and female specimens (P > 0.05). CONCLUSION The brachiocephalic trunk has complex anatomical relationship with the trachea, and caution should be taken to avoid injuries of the brachiocephalic trunk and the aortic arch in the diagnosis and treatment of mechanical respiratory obstruction and during tracheotomy.
Adult ; Female ; Male ; Humans ; Trachea ; Brachiocephalic Trunk ; Larynx ; Cadaver ; Formaldehyde