BACKGROUND:Post and core restoration is a common choice for tooth defects,but the repair effects of various post and core materials are different. OBJECTIVE:To evaluate the stress distribution at the post and core,tooth root,and bonding agent site of post and core models made of different elastic modulus post and core materials using finite element method. METHODS:A three-dimensional root canal treated maxillary central incisor model was built using three-dimensional modeling software,which was restored with a full ceramic crown.The post and core materials in the restoration used nanoceramic resin(elastic modulus=12.8 GPa),composite resin(elastic modulus=16 GPa),hybrid ceramic(elastic modulus=34.7 GPa),glass ceramic(elastic modulus=95 GPa),titanium alloy(elastic modulus=112 GPa),and zirconia(elastic modulus=209.3 GPa).The model was fixed in cortical bone.A 100 N concentrated force of 45° from the long axis of the tooth was applied to 1/3 of the crown and tongue side of the central incisor.The stress distribution of the post and core,dentin,and tooth-root bonding agent in the model was repaired by the maximum principal stress criterion. RESULTS AND CONCLUSION:(1)When the post and core materials with higher elastic modulus was used,the post-core stress in the repair model was more concentrated.When the elastic modulus of the post and core materials(nanoceramic resin and composite resin)was close to dentin,the stress distribution of the post and core was more uniform.The stress distribution of dentin in all restoration models was similar regardless of post and core materials.When the post and core with higher elastic modulus was used,more stress concentration was shown at the post and root bonding agent in the repair model.(2)The maximum stress values at the post and core,tooth root,and the bonding agent site of post and tooth root in the nanoceramic resin model were 31.00,33.21,and 0.51 MPa,respectively.The maximum stress values at the post and core,tooth root,and the bonding agent between the post and tooth root in the composite resin model were 36.84,33.14,and 0.59 MPa,respectively.In the mixed ceramic model,the maximum stress values at the post and core,tooth root,and the bonding agent between the post and tooth root were 64.05,32.83,and 1.00 MPa,respectively.In the glass ceramic model,the maximum stress values at the post and core,tooth root,and the bonding agent between the post and tooth root were 112.30,32.69,and 1.73 MPa,respectively.In the titanium alloy model,the maximum stress values of the post and core,tooth root,and the bonding agent between the post and tooth root were 120.00,32.17,and 1.86 MPa,respectively.In the zirconia model,the maximum stress values of the post and core,tooth root,and the bonding agent between the post and tooth root were 148.80,31.85,and 2.28 MPa,respectively.(3)The higher the elastic modulus of the post and core material,the higher the maximum stress at the post and core during restoration.The elastic modulus of the post and core material had no significant effect on the maximum stress of the dental bonding agent and dentin.

In recent years， hyperuricemia （HUA） has shown a rapidly increasing incidence and tends to occur in increasingly young people， with a wide range of cardiac， renal， joint， and cancerous hazards and all-cause mortality associations. Western medicine treatment has limitations such as large liver and kidney damage， medication restriction， and easy recurrence. The intestine is the major extra-renal excretion pathway for uric acid （UA）， and the intestinal microecology can be regulated to promote UA degradation. It offers great potential to develop UA-lowering strategies that target the intestinal microecology， which are promising to provide safer and more effective therapeutic approaches. Traditional Chinese medicine （TCM） can treat HUA via multiple targets and multiple pathways from a holistic view， with low toxicity and side effects. Studies have shown that intestinal microecology is a crucial target for TCM in the treatment of HUA. However， its specific mechanism of action has not been fully elucidated. Focusing on the key role of intestinal microecology in HUA， this review explores the relationship between intestinal microecology and HUA in terms of intestinal flora， intestinal metabolites， intestinal UA transporters， and intestinal barriers. Furthermore， we summarize the research progress in TCM treatment of HUA by targeting the intestinal microecology， with the aim of providing references for the development of TCM intervention strategies for HUA and the direction of future research.

Varicocele-induced infertility （VCI） is a common andrological disease in clinical practice. Oxidative stress represents the primary mechanism through which varicocele causes male infertility. Traditional Chinese medicine （TCM） treatment， characterized by its multi-target， multi-component， multi-system， and multi-pathway actions， has achieved favorable outcomes in the field of VCI treatment. This paper summarizes the underlying oxidative stress mechanism of VCI and the relevant signaling pathways involved. By reviewing the current research status on how monomers， active fractions， compound formulas， and related preparations of TCM can intervene in oxidative stress through the regulation of these signaling pathways to improve VCI， it is found that the nuclear factor-erythroid 2-related factor 2 （Nrf2） signaling pathway， the mitogen-activated protein kinase （MAPK） signaling pathway， and the hypoxia-inducible factor-1α （HIF-1α） signaling pathway are closely related to the development of VCI. TCM monomers and active fractions （flavonoids from Cuscutae Semen， polysaccharides from Astragali Radix， curcumin， ginsenoside Rg1， hyperin and echinacoside）， as well as compound formulas and related preparations of TCM （modified Dahuang zhechong granules， Shengjing huoxue formula， modified Tianxiong san， Tongjingling， Bushen huoxue formula， Mailuoshutong pill， Zishen yutai pill， Danhong tongjing formula） can alleviate oxidative stress， reduce lipid peroxidation damage， improve mitochondrial dysfunction， decrease sperm DNA fragmentation， and inhibit apoptosis by activating the Nrf2 signaling pathways and inhibiting the MAPK and HIF-1α signaling pathways， thereby improving reproductive function.

Objective: To develop a simple digital chylous plasma device and validate its ability to accurately, standardly, and non-destructively determine chylous plasma in blood banks and clinical transfusions in hospitals. Methods: A digital chylous plasma assessment device was designed and manufactured. This device was used to measure the chylous degrees of chylous plasma samples before freezing, after freeze-thawing, before viral inactivation, and after viral inactivation. The measured chylosity index values were categorized according to the requirements specified in Appendix A of the Chinese national standard GB 18469-2001 "Quality Requirements for Whole Blood and Blood Components". This process established a digital standard for chylous plasma, enabling the identification of severe, moderate and mild chylous plasma, and non-chylous plasma. Results: The initial simple product of the digital chylous assessment device was successfully designed and manufactured. There was no significant difference in the degree of chylous plasma between pre-freezing 468.11±217.73 lux and post-thawing 538.91±273.39 lux of chylous plasma (P>0.05), or between pre-viral inactivation 858.33±387.79 lux and post-viral inactivation 928.33±166.51 lux of chylous plasma (P>0.05). The median of chylous degree values for plasma chylous index grades 0 to 6 were 45 lux, 250 lux, 620 lux, 835 lux, 1 130 lux, 1 390 lux, and 1 700 lux, respectively. The defined cutoff values/ranges for the chylous degree values corresponding to plasma chylous index grade 0 to 6 were ≤125 lux, 126-465 lux, 466-740 lux, 741-1 000 lux, 1 001-1 233 lux, 1 234-1 560 lux, and ≥1 561 lux. Conclusion: This study successfully developed the initial product of the digital chylous device and established digital standards for classifying chylous plasma. The device demonstrates the potential to meet the needs for assessment of chylous plasma in both blood banks and clinical transfusions in hospitals, thereby promoting the development and application of standardized, non-destructive chylous plasma assessment technology.

Periodontitis is a common oral disease caused by bacteria coupled with an excessive host immune response. Stem cell therapy can be a promising treatment strategy for periodontitis, but the relevant mechanism is complicated. This study aimed to explore the therapeutic potential of mitochondria from human embryonic stem cell-derived mesenchymal stem cells (hESC-MSCs) for the treatment of periodontitis. The gingival tissues of periodontitis patients are characterized by abnormal mitochondrial structure. Human gingival fibroblasts (HGFs) were exposed to 5 μg/mL lipopolysaccharide (LPS) for 24 h to establish a cell injury model. When treated with hESC-MSCs or mitochondria derived from hESC-MSCs, HGFs showed reduced expression of inflammatory genes, increased adenosine triphosphate (ATP) level, decreased reactive oxygen species (ROS) production, and enhanced mitochondrial function compared to the control. The average efficiency of isolated mitochondrial transfer by hESC-MSCs was determined to be 8.93%. Besides, a therapy of local mitochondrial injection in mice with LPS-induced periodontitis showed a reduction in inflammatory gene expression, as well as an increase in both the mitochondrial number and the aspect ratio in gingival tissues. In conclusion, our results indicate that mitochondria derived from hESC-MSCs can reduce the inflammatory response and improve mitochondrial function in HGFs, suggesting that the transfer of mitochondria between hESC-MSCs and HGFs serves as a potential mechanism underlying the therapeutic effect of stem cells.
Humans ; Gingiva/cytology* ; Fibroblasts/metabolism* ; Mitochondria/physiology* ; Mesenchymal Stem Cells/cytology* ; Animals ; Periodontitis/therapy* ; Mice ; Reactive Oxygen Species/metabolism* ; Inflammation ; Lipopolysaccharides ; Human Embryonic Stem Cells/cytology* ; Cells, Cultured ; Adenosine Triphosphate/metabolism* ; Male

The Janus kinase/signal transducers and activators of transcription (JAK-STAT) control natural killer (NK) cells development and cytotoxic functions, however, whether long non-coding RNAs (lncRNAs) are involved in this pathway remains unknown. We found that miR155HG was elevated in activated NK cells and promoted their proliferation and effector functions in both NK92 and induced-pluripotent stem cells (iPSCs)-derived NK (iPSC-NK) cells, without reliance on its derived miR-155 and micropeptide P155. Mechanistically, miR155HG bound to miR-6756 and relieved its repression of JAK3 expression, thereby promoting the JAK-STAT pathway and enhancing NK cell proliferation and function. Further investigations disclosed that upon cytokine stimulation, STAT3 directly interacts with miR155HG promoter and induces miR155HG transcription. Collectively, we identify a miR155HG-mediated positive feedback loop of the JAK-STAT signaling. Our study will also provide a power target regarding miR155HG for improving NK cell generation and effector function in the field of NK cell adoptive transfer therapy against cancer, especially iPSC-derived NK cells.

The endothelial glycocalyx(EG)is a polyglycoprotein complex present on the internal vascular surface,and its impairment is associated with the progression of multiple diseases,including atherosclerosis,stroke,sepsis,diabetes,kidney disease,hypertension,and lung edema.Therefore,glycocalyx health can be used as a biomarker to evaluate vascular health.Aging leads to dysfunctional changes in the glycocalyx;for example,its thickness decreases,and the genes of enzymes involved in its synthesis and digestion are dysregulated.As a natural barrier to the vascular system,age-related glycocalyx disruption is associated with vascular dysfunction,including impairment of vascular contraction and dilation,enhancement of permeability,dysregulation of inflammatory and immune reactions,and imbalance of anticoagulation and thrombin.From the perspective of'structure determines function'studies on the changing regularity of the thickness,components,microstructure,and mechanical properties of EG with aging and its relationship with vascular dysfunction are of great significance for the prevention,diagnosis,and treatment of atherosclerosis and other age-related cardiovascular diseases.

The annexins(ANX)family is widely present in the cell membrane,cytoplasm or extracellular matrix.As key tumor regulatory molecules,annexins A(ANX A)family can promote or inhibit invasion and metastasis of breast cancer cells by influencing cell membrane and cytoskeleton formation and participating in signaling pathways.ANX A family also plays a role in the apoptosis of breast cancer cells by regulation of pro-apoptotic proteins and cell cycle independent kinases(CDKs)and related pathways.In addition,ANX A family can also promote therapeutic resistance to a large number of drugs.For instance,ANX A1 enhances triple-negative breast cancer resistance by in-ducing epithelial-mesenchymal transformation.ANX A4 induces resistance by forming ANX A4-Fhit complexes and secretion of exosomes containing ANX A6 promotes paclitaxel resistance in breast cancer cells in a YAP1-dependent manner.So ANX A family may be a new target for breast cancer treatment.

Objective:To explore the relationship between fluid dosage during fluid resuscitation and the risk of disseminated intravascular coagulation(DIC)in postpartum hemorrhage patients.Methods:A retrospective case-control study was conducted on patients who were admitted to Shenyang Women′s and Children′s Hospital between January 1,2016,and December 31,2022 with postpartum hemorrhage≥1000 ml.The patients were di-vided into two groups according to pregnancy-corrected ISTH scores:group with ISTH score＞26;group with ISTH score≤26.The two groups were matched for 1 ∶ 4 propensity scores and the differences between ratio of crystalloid solution to bleeding volume;ratio of colloidal solution to bleeding volume;ratio of red blood cell infusion to bleeding volume;ratio of plasma infusion to bleeding volume and peak decrease of fibrinogen in the two groups were compared.And analyze the relationship between various observation indicators and the occurrence of DIC.Results:The ROC area under the curve(AUC)values for predicting of the ratio of crystalloid solution to bleeding volume,ratio of colloidal solution to bleeding volume,the peak decrease in fibrinogen,ratio of red blood cell infu-sion to bleeding volume,ratio of plasma infusion to bleeding volume were 0.670(95%CI 0.589-0.751),0.532(95%CI 0.440-0.623),0.771(95%CI 0.706-0.837),0.530(95%CI 0.439-0.621),and 0.563(95%CI 0.473-0.653),the optimal cut off values were 1.23,0.29,0.77,0.48,0.24.The ratio of crystalloid solution to bleeding volume and the peak decrease in fibrinogen were positively correlated with the occurrence of DIC after postpartum hemorrhage,the OR values were 0.256(95%CI 0.111-0.590)and 0.074(95%CI 0.024-0.228).There was no correlation between the ratio of colloidal solution to bleeding volume,the ratio of red blood cell infusion to bleeding volume,the ratio of plasma infusion to bleeding volume and the occurrence of DIC after postpartum hemorrhage.Conclusions:The infusion volume of crystalloid solution is related to the occurrence of DIC,and restrictive fluid resuscitation can reduce the incidence of DIC.Additionally,to lower the risk of DIC,fibrin-ogen or cold precipitation should be rapidly supplied when the decrease of fibrinogen exceeded 0.77 g/L to re-duce the risk of postpartum hemorrhage DIC.

Objective To investigate the effects of long noncoding RNA(lncRNA)-NRON on apoptosis following myocardial infarc-tion(MI)in mice.Methods The C57BL/6 mice were randomly divided into four groups:sham operation(Sham)group,MI group,MI combined with lncRNA-NRON interference lentivirus(MI+shNRON)group,and MI combined with the negative control(NC)lentivirus(MI+NC)group.The expression of lncRNA-NRON was detected using real-time PCR.In addition,the pathology of the myocardial tissue injury was analyzed using HE staining,the myocardial infarction size was examined using TTC staining,and the extent of apoptosis was assessed using the TUNEL assay,respectively.The RPISeq database was used to predict the probability of interaction between lncR-NA-NRON and the voltage-dependent anionic channel protein(VDAC).The effect of lncRNA-NRON on the expression of VDAC protein was detected using Western blotting.Results The lncRNA-NRON expression was significantly increased in the MI group,and the tar-geted knockdown of lncRNA-NRON resulted in alleviation of the pathological myocardial tissue injury,reduction in the myocardial infarc-tion area,and inhibition of apoptosis.The probability of interaction between lncRNA-NRON and VDAC reached 0.9,indicating a high probability of their association.Additionally,lncRNA-NRON could regulate the protein expression of VDAC.Conclusion Knockdown of lncRNA-NRON could reduce the occurrence of myocardial injury following myocardial infarction.This effect may be attributable to a spe-cific mechanism wherein lncRNA-NRON affects the process of apoptosis by binding to VDAC,consequently suppressing its expression.