Objective:To explore the feasibility and mid-term efficacy of minimally invasive cardiac surgery coronary artery bypass grafting(MICS CABG) in the treatment of multi-vessel coronary artery disease.Methods:A retrospective analysis was conducted on 440 patients with multi-vessel coronary artery disease at the Minimally Invasive Cardiac Surgery Center of Beijing Anzhen Hospital, Capital Medical University, from January 2018 to December 2022. Among these patients, 145 who underwent MICS CABG were designated as the experimental group(MICS group). And 295 patients who underwent conventional sternotomy off-pump coronary artery bypass grafting(OPCABG) were collected during the same period. Propensity score matching was employed at a 1∶1 ratio to match patients in the OPCABG group, serving as the control group.The clinical data during hospitalization and the results of midterm follow-up were analyzed and compared using rank- sum test, Fisher' s exact test, Kaplan- Meier survival curve, and other methods. Results:After propensity matching, the baseline features were well balanced between the two groups( P>0.05), with 111 patients in each group. Patients who received MICS CABG had significantly reduce blood loss[MICS: 600 ml(500 ml, 900 ml) vs. OPCABG: 800 ml(600 ml, 1 000 ml), P<0.001], transfusion rate(MICS: 1.8% vs. OPCABG: 17.1%, P<0.001), and IABP implantation rate(MICS: 3.1% vs. OPCABG: 17.1%, P=0.001). In addition, patients who received MICS CABG had significantly better postoperative LVEF(MICS: 0.59±0.06 vs. OPCABG: 0.56±0.09, P<0.001) than the control group. The average follow-up time was 2.42 years, and there was no significant difference in the incidence of MACCEs in the mid-term( P=0.748). Conclusion:MICS CABG demonstrates rapid recovery and fewer postoperative complications. For patients with multiple coronary artery lesions, MICS CABG has a similar efficacy in the mid-term as conventional coronary artery bypass surgery.

Objective:To establish an ex vivo model of button battery-induced esophageal injury in New Zealand rabbits and evaluate the interventive effects of vegetable oil through esophageal histopathological scoring.Methods:Thirty-six esophageal segments (≈5 cm length) from 10 cm specimen of 18 male rabbits were divided into model groups (15-min, 2-hr, and 6-hr exposure; n=6/group) and intervention groups (olive/peanut/soybean oil infusion; n=6/group). Button batteries were inserted to esophageal segments of model groups. Voltage drop of the battery, pH at negative electrode contact site, and histopathological injury scores were assessed. In the intervention group, button batteries were placed in the esophageal segment for 15 minutes, and olive oil, peanut oil, and soybean oil were infused. The above indicators were observed 6 hours after the button batteries were placed. One-way ANOVA was used to compare the differences of esophageal mucosal tissue damage across time points and oil types. Results:There was no significant difference in the pH value of the negative electrode contact area (9.50±0.56, 10.67±0.80, 11.17±0.40, F=1.955, P>0.05), but the discharge voltage (42.67±4.60 mV, 90.00±2.07 mV, 125.83±2.80 mV, F=156.9, P<0.001) and pathological injury scores (3.50±1.09 scores, 5.33±0.72 scores, 8.67±0.67 scores, F=9.623, P=0.002) in the model groups were significantly different. There was significant difference in pathological injury score between the 6-hour model group and the three intervention groups (8.67±0.67 scores, 7.33±0.62 scores, 6.50±0.43 scores, 6.67±0.42 scores, F=3.279, P=0.042). The difference in pathological injury score between the peanut oil intervention group and the 6-hour model group was statistically significant (mean difference=2.167, P<0.05). Conclusion:This ex vivo model effectively simulates battery-induced esophageal injury. Household peanut oil demonstrates significant protective effects, providing experimental basis for prehospital management of battery corrosion.

Objective:To explore the feasibility and mid-term efficacy of minimally invasive cardiac surgery coronary artery bypass grafting(MICS CABG) in the treatment of multi-vessel coronary artery disease.Methods:A retrospective analysis was conducted on 440 patients with multi-vessel coronary artery disease at the Minimally Invasive Cardiac Surgery Center of Beijing Anzhen Hospital, Capital Medical University, from January 2018 to December 2022. Among these patients, 145 who underwent MICS CABG were designated as the experimental group(MICS group). And 295 patients who underwent conventional sternotomy off-pump coronary artery bypass grafting(OPCABG) were collected during the same period. Propensity score matching was employed at a 1∶1 ratio to match patients in the OPCABG group, serving as the control group.The clinical data during hospitalization and the results of midterm follow-up were analyzed and compared using rank- sum test, Fisher' s exact test, Kaplan- Meier survival curve, and other methods. Results:After propensity matching, the baseline features were well balanced between the two groups( P>0.05), with 111 patients in each group. Patients who received MICS CABG had significantly reduce blood loss[MICS: 600 ml(500 ml, 900 ml) vs. OPCABG: 800 ml(600 ml, 1 000 ml), P<0.001], transfusion rate(MICS: 1.8% vs. OPCABG: 17.1%, P<0.001), and IABP implantation rate(MICS: 3.1% vs. OPCABG: 17.1%, P=0.001). In addition, patients who received MICS CABG had significantly better postoperative LVEF(MICS: 0.59±0.06 vs. OPCABG: 0.56±0.09, P<0.001) than the control group. The average follow-up time was 2.42 years, and there was no significant difference in the incidence of MACCEs in the mid-term( P=0.748). Conclusion:MICS CABG demonstrates rapid recovery and fewer postoperative complications. For patients with multiple coronary artery lesions, MICS CABG has a similar efficacy in the mid-term as conventional coronary artery bypass surgery.

Objective:To establish an ex vivo model of button battery-induced esophageal injury in New Zealand rabbits and evaluate the interventive effects of vegetable oil through esophageal histopathological scoring.Methods:Thirty-six esophageal segments (≈5 cm length) from 10 cm specimen of 18 male rabbits were divided into model groups (15-min, 2-hr, and 6-hr exposure; n=6/group) and intervention groups (olive/peanut/soybean oil infusion; n=6/group). Button batteries were inserted to esophageal segments of model groups. Voltage drop of the battery, pH at negative electrode contact site, and histopathological injury scores were assessed. In the intervention group, button batteries were placed in the esophageal segment for 15 minutes, and olive oil, peanut oil, and soybean oil were infused. The above indicators were observed 6 hours after the button batteries were placed. One-way ANOVA was used to compare the differences of esophageal mucosal tissue damage across time points and oil types. Results:There was no significant difference in the pH value of the negative electrode contact area (9.50±0.56, 10.67±0.80, 11.17±0.40, F=1.955, P>0.05), but the discharge voltage (42.67±4.60 mV, 90.00±2.07 mV, 125.83±2.80 mV, F=156.9, P<0.001) and pathological injury scores (3.50±1.09 scores, 5.33±0.72 scores, 8.67±0.67 scores, F=9.623, P=0.002) in the model groups were significantly different. There was significant difference in pathological injury score between the 6-hour model group and the three intervention groups (8.67±0.67 scores, 7.33±0.62 scores, 6.50±0.43 scores, 6.67±0.42 scores, F=3.279, P=0.042). The difference in pathological injury score between the peanut oil intervention group and the 6-hour model group was statistically significant (mean difference=2.167, P<0.05). Conclusion:This ex vivo model effectively simulates battery-induced esophageal injury. Household peanut oil demonstrates significant protective effects, providing experimental basis for prehospital management of battery corrosion.

Aim To investigate the inhibition role and mechanism of adipose derived mesenchymal stem cell(ADMSC)exosomes(Exo)on adverse ventricular remodeling after myocardial infarction(MI).Methods The chan-ges of autophagy and inflammasomes phenotype of cardiac fibroblasts after H2O2 treatment were observed.MI rats were in-jected with an equal volume of normal saline,adipose derived mesenchymal stem cell exosomes(MSC-Exo)or fibroblast exosomes(MEF-Exo)via a tail vein.The expression of autophagy related 16 like protein 1(ATG16L1),autophagy re-lated protein 7(ATG7)and NOD-like receptor protein 3(NLRP3),inflammatory response,the degree of myocardial fi-brosis,and the cardiac function were observed in different groups.Results After treatment with H2O2 on cardiac fi-broblasts,the expressions of ATG16L1 and ATG7 were significantly decreased(P＜0.001),NLRP3 was significantly in-creased(P＜0.001),and the levels of inflammatory cytokines interleukin-1β(IL-1β)and IL-18 were significantly elevated(P＜0.001).After MI rats were intervened with MSC-Exo,the expressions of autophagy related proteins ATG16L1 and ATG7 were significantly up-regulated(P＜0.001),NLRP3 was significantly down-regulated(P＜0.001),serum IL-1β and IL-18 levels were significantly decreased(P＜0.001),fibrosis-related proteins collagen Ⅰ and Ⅲ were significantly reduced(P＜0.001),myocardial fibrosis was significantly relieved(P＜0.001),and cardiac function was sig-nificantly improved(P＜0.001).Conclusion Adipose derived MSC-Exo play a role in inhibiting adverse ventricular remodeling after MI by regulating the balance of autophagy and NLRP3 inflammasomes.

Objective To investigate whether curcumin alleviates septic lung injury by inhibiting ferroptosis through modulating the TXNIP/TRX-1/GPX4 pathway.Methods Male C57BL/6 mice were randomly divided into Sham group,cecal ligation puncture(CLP)-induced sepsis group,CLP with curcumin treatment(50,100,and 200 mg/kg)groups,and CLP with both curcumin(200 mg/kg)and TRX-1 inhibitor PX-12(25 mg/kg)treatment group.Inflammatory factors,MDA,MPO,and GSH levels in the lung tissue of the mice were detected.Beas-2B cells stimulated with lipopolysaccharide(LPS;1 μg/mL)were treated with 2.5,5,or 10 μmol/L curcumin or with 10 μmol/L curcumin combined with 5 μmol/L PX-12,and the changes in MDA,Fe2+and ROS levels were assessed.Western blotting was performed to detect the protein expressions of TXNIP,TRX-1,GPX4 and X-CT in both the mouse lung tissues and Beas-2B cells.Results The mice with CLP-induced sepsis showed severe lung injury with elevated expressions of IL-6,IL-1β,TNF-α,MDA and MPO and decreased GSH expression.In Beas-2B cells,LPS stimulation significantly increased MDA and Fe2+levels and ROS release,increased TXNIP protein expression,and lowered the protein expression levels of TRX-1,GPX4 and X-CT,and these changes were also observed in the septic mice.Curcumin treatments at different concentrations obviously alleviated lung injury in the septic mice and reduced LPS-induced injury in Beas-2B cells.Curcumin significantly decreased the release of inflammatory factors,MDA and MPO,increased GSH level,lowered Fe2+,MDA and ROS levels,increased TXNIP protein expression,and lowered the protein expressions of TRX-1,GPX4 and X-CT in both septic mouse lung tissues and LPS-stimulated Beas-2B cells.The protective effect of curcumin was effectively blocked by PX-12 treatment.Conclusion Curcumin inhibits ferroptosis and alleviates septic lung injury in mice by elevating TRX-1 and GPX4 and decreasing TXNIP in the lung tissue.

BACKGROUND:Most of the silver coating materials prepared using active screen plasma technology in the past do not involve the nanotechnology field.The formed silver coating is in a"thin film"form,which is coated on the surface of the substrate,and the distribution of silver particles on the surface is uneven.Its long-term antibacterial ability is challenged. OBJECTIVE:To prepare nano silver coatings capable of being"buried"within stainless steel(SS)substrates using active screen plasma surface modification(ASPSM)and to observe antibacterial activity. METHODS:The nano-silver coating was prepared by ASPSM technique on stainless steel substrate.Three groups of coating samples were prepared by adjusting the bombardment time(1,2,and 4 hours),which were denoted as 1 h-Ag-ASPSM@SS,2 h-Ag-ASPSM@SS and 4 h-Ag-ASPSM@SS,respectively.The antibacterial activity of the coatings was analyzed by antibacterial ring test and Gram staining.The antibiotic coating samples of gentamicin combined with vancomycin were prepared by using stainless steel as substrate and were recorded as ACNs.Stainless steel,2 h-Ag-ASPSM@SS,and ACNs were inserted into Staphylococcus aureus or Pseudomonas aeruginosa suspension,respectively.The long-acting(84 days)antibacterial activity of the samples was analyzed by coating plate method.Bone marrow mesenchymal stem cells were co-cultured with stainless steel,2 h-Ag-ASPSM@SS,and ACNs,respectively.CCK-8 assay,dead/alive staining,and lactate dehydrogenase activity of cell supernatant were detected.Stainless steel,2 h-Ag-ASPSM@SS,and ACNs were taken after continuous exposure to Staphylococcus aureus suspension for 12 weeks.The amount of residual viable bacteria on the surface of the material was evaluated by spread plate method.Vancomycin drug sensitive disk method was used to evaluate the resistance of residual live bacteria on the surface of materials. RESULTS AND CONCLUSION:(1)With increasing bombardment time,the diameter of nano silver on the sample surface and the silver content in the coating gradually increased.Among them,the 2 h-Ag-ASPSM@SS exhibited the highest surface silver content while forming uniformly spherical nanoparticles.(2)Antibacterial ring test and Gram staining results demonstrated that compared with 1 h-Ag-ASPSM@SS and 4 h-Ag-ASPSM@SS,the 2 h-Ag-ASPSM@SS exhibited better inhibitory effect on Staphylococcus aureus and pseudomonas aeruginosa.After co-culturing with bacteria for 42 and 84 days,the number of viable bacteria on the spread plate method was significantly lower in the 2 h-Ag-ASPSM@SS group compared to the stainless steel and ACNs groups.After co-culturing with Staphylococcus aureus for 84 days and Pseudomonas aeruginosa for 42 days,the number of viable bacteria on the surface of the eluate from the ACNs group was higher than that of the stainless steel group.(3)CCK-8 assay,live/dead staining and lactate dehydrogenase activity of cell supernatant displayed that 2 h-Ag-ASPSM@SS did not have obvious cytotoxicity.ACNs showed obvious cytotoxicity.(4)After co-culture with Staphylococcus aureus for 12 weeks,the residual viable bacteria on the surface of 2 h-Ag-ASPSM@SS group was less than that of stainless steel group,and the residual viable bacteria on the surface of the ACNs group was more than that of stainless steel group.Compared with the stainless steel group,the sensitivity to vancomycin was significantly decreased in the ACNs group(P＜0.001),and there was no significant change in sensitivity to vancomycin in 2 h-Ag-ASPSM@SS group(P＞0.05).(5)The above results indicate that the silver nanoparticle coated stainless steel greatly improves the deposition efficiency of silver nanoparticles on the stainless steel surface and has long-lasting antibacterial properties and good cell compatibility.

Objective To investigate whether curcumin alleviates septic lung injury by inhibiting ferroptosis through modulating the TXNIP/TRX-1/GPX4 pathway.Methods Male C57BL/6 mice were randomly divided into Sham group,cecal ligation puncture(CLP)-induced sepsis group,CLP with curcumin treatment(50,100,and 200 mg/kg)groups,and CLP with both curcumin(200 mg/kg)and TRX-1 inhibitor PX-12(25 mg/kg)treatment group.Inflammatory factors,MDA,MPO,and GSH levels in the lung tissue of the mice were detected.Beas-2B cells stimulated with lipopolysaccharide(LPS;1 μg/mL)were treated with 2.5,5,or 10 μmol/L curcumin or with 10 μmol/L curcumin combined with 5 μmol/L PX-12,and the changes in MDA,Fe2+and ROS levels were assessed.Western blotting was performed to detect the protein expressions of TXNIP,TRX-1,GPX4 and X-CT in both the mouse lung tissues and Beas-2B cells.Results The mice with CLP-induced sepsis showed severe lung injury with elevated expressions of IL-6,IL-1β,TNF-α,MDA and MPO and decreased GSH expression.In Beas-2B cells,LPS stimulation significantly increased MDA and Fe2+levels and ROS release,increased TXNIP protein expression,and lowered the protein expression levels of TRX-1,GPX4 and X-CT,and these changes were also observed in the septic mice.Curcumin treatments at different concentrations obviously alleviated lung injury in the septic mice and reduced LPS-induced injury in Beas-2B cells.Curcumin significantly decreased the release of inflammatory factors,MDA and MPO,increased GSH level,lowered Fe2+,MDA and ROS levels,increased TXNIP protein expression,and lowered the protein expressions of TRX-1,GPX4 and X-CT in both septic mouse lung tissues and LPS-stimulated Beas-2B cells.The protective effect of curcumin was effectively blocked by PX-12 treatment.Conclusion Curcumin inhibits ferroptosis and alleviates septic lung injury in mice by elevating TRX-1 and GPX4 and decreasing TXNIP in the lung tissue.

Objective:To investigate the current situation of medical students' autonomous learning in Guangzhou universities, analyze the main factors that affect medical students' self-regulated learning, and explore the strategy for improving the ability of medical students' self-regulated learning.Methods:A stratified sampling survey was conducted among 2 480 medical students from 6 universities in Guangzhou using the self-designed "Questionnaire on Medical Students' Autonomous Learning". SPSS 22.0 was used for statistical analysis of the collected data.Results:There were statistically significant differences in the frequency of self-regulated and professional learning ( χ2=21.33, P<0.001), the self-regulated learning effectiveness and gender differences ( χ2=4.86, P=0.027), the scholastic year system and self-regulated learning necessity cognition ( χ2=4.65, P=0.031), and the family guidance and the suitability of self-learning method selection ability ( χ2=32.43, P<0.001). Conclusions:The schools, individuals and families jointly influence the self-regulated learning of medical students. The three parties should cooperate with each other to improve the self-regulated learning ability of medical students and cultivate high-quality medical talents with life-long learning ability.

Objective:To explore the differential expression profile of miRN in the development of diabetes nephropathy (DN), and further explore the mechanism of miR-126-5p involved in high glucose induced injury of renal tubular epithelial cells.Methods:Firstly, we downloaded existing chip data from the Gene Expression Integrated Database (GEO) and used GEO2R, miRanda, gene ontology (GO) analysis, and Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis to mine differential miRNAs. Subsequently, a high glucose induced HK-2 cell injury model was used and divided into three groups: high glucose model group, si-HOTAIR group, and si HOTAIR+ miR-126-5p inhibitor group. The three groups of cells were sequentially transfected with siRNA-NC, siRNA-HOTAIR, and siRNA-HOTAIR+ miR-126-5p mimic, and cultured in a medium containing 60 mmol/L glucose. Flow cytometry was used to detect changes in apoptosis levels in each group, while cell counting kit-8 (CCK-8) was used to detect changes in cell proliferation.Results:Through data mining analysis using GEO, it was found that compared to ordinary mice, DN mice had 74 upregulated miRNAs and 80 downregulated miRNAs in their kidney tissue. Enrichment analysis results showed that miRNAs could target signaling pathways such as Wnt, PKG, MAPK, and Rap1, and miR-126-5p was significantly downregulated. In the high glucose induced HK-2 cell injury model, the experimental results showed that the inhibitory effect on cell proliferation activity was more significant at a high glucose concentration of 60 mmol/L ( P<0.05); High glucose stimulation significantly reduced the expression of miR-126-5p ( P<0.05). The results of flow cytometry showed that compared with the high glucose model group, the apoptosis rate of the si-HOTAIR group significantly decreased ( P<0.05), while the apoptosis rate of the si-HOTAIR+ miR-126-5p inhibitor group significantly increased ( P<0.05). The CCK-8 experiment showed that compared with the high glucose model group, the cell viability of the si-HOTAIR group significantly increased ( P<0.05); The cell viability of the si-HOTAIR+ miR-126-5p inhibitor group was inhibited ( P<0.05). Conclusions:miR-126-5p can inhibit high glucose induced apoptosis in HK-2 cells and protect them.