ObjectiveTo study the clinical characteristics and influencing factors of rheumatoid arthritis （RA） in the patients with cold dampness obstruction syndrome. MethodsThe RA patients treated in the Department of Traditional Chinese Medicine and Rheumatology of the China-Japan Friendship Hospital from August 2022 to June 2024 were selected. The demographic information， clinical data， laboratory test results， and traditional Chinese medicine （TCM） symptom information were collected for syndrome differentiation， on the basis of which the characteristics and influencing factors of cold dampness obstruction syndrome were analyzed. ResultsA total of 258 RA patients were selected in this study， including 88 （34.1%） patients with cold dampness obstruction syndrome， 53 （20.5%） patients with dampness and heat obstruction syndrome， 31 （12.0%） patients with wind dampness obstruction syndrome， 29 （11.2%） patients with liver-kidney deficiency syndrome， 19 （7.4%） patients with Qi-blood deficiency syndrome， 14 （5.4%） patients with phlegm-stasis obstruction syndrome， 15 （5.8%） patients with stasis obstructing collateral syndrome and 9 （3.5%） patients with Qi-Yin deficiency syndrome. The patients were assigned into two groups of cold dampness obstruction syndrome and other syndromes. The group of cold dampness obstruction syndrome had lower joint fever， 28-tender joint count （TJC28）， and 28-joint disease activity score （DAS28）-C-reactive protein （CRP） and higher central sensitization， cold feeling of joints， fear of wind and cold， cold limbs， and abdominal distention than the group of other syndromes （P<0.05）. The binary logistic regression analysis showed that central sensitization （OR 5.749， 95%CI 2.116-15.616， P<0.001） and DAS28-CRP （OR 0.600， 95% CI 0.418-0.862， P=0.006） were the independent factors influencing cold dampness obstruction syndrome in RA. ConclusionCold dampness obstruction syndrome is a common syndrome in RA patients. It is associated with central sensitization， cold feeling of joints， abdominal distension and may be a clinical syndrome associated with central sensitization.

ObjectiveTo explore the recognition of oral breath odor map of chronic atrophic gastritis （CAG） patients with dampness-heat syndrome by electronic nose technique. MethodsPatients with chronic gastritis were recruited， including 60 cases in CAG group of dampness-heat syndrome， 50 cases in CAG group of non-dampness-heat syndrome， 60 cases in chronic non-atrophic gastritis （CNAG） group of dampness-heat syndrome， 50 cases in CNAG group of non-dampness-heat syndrome， and 30 cases of healthy volunteers were selected to set up the health control group. Ten cases in the CAG dampness-heat group and 50 cases in the CAG non-dampness-heat group were selected to form the CAG group， and 10 cases in CNAG dampness-heat group and 50 cases in CNAG non-dampness-heat group were selected to form the CNAG group. In addition to the health control group， the remaining patients were tested for Helicobacter pylori （Hp）； the electronic nose （GISXM-MQWA01） was used to collect the oral breath odor of all the participants to draw the mapping， and amplitudes and slopes of each curve （including curves A， B， C， D， E， F， G， H， I， J） of the oral odor mapping of health control group， CAG group， CNAG group， CAG dampness-heat group， CAG non-dampness-heat group， and CNAG dampness-heat group was compared. The modified transformer model was used to classify the odor mapping characteristics， and the confusion matrix method was used to evaluate the classification model， with metrics including accuracy and area under ROC curve （AUC）. ResultsThe Hp positivity rate in CAG dampness-heat group was 80.00% （48/60）， CAG non-dampness-heat group was 62.00% （31/50）， CNAG dampness-heat group was 46.67% （28/60）， and CNAG non-dampness-heat group was 42.00% （21/50）； the difference in Hp positivity rate between CAG dampness-heat group and CAG non-dampness-heat group was statistically significant （P＜0.05）. The amplitudes of response curves A， B， C， D， F， G， and I， and slopes of A and F in the odor mapping of the CAG group were lower than those in health control group， while the amplitude and slope of curve E were higher than those in the health control group and CNAG group （P＜0.05 or P＜0.01）； The amplitude of the response curves A， B， C， D， F， G， and I， and slopes of A， D， and F in the CNAG group were lower than those in the health control group （P＜0.05 or P＜0.01）. The amplitude of response curve D and slope of response curve J in the odor mapping of the CAG dampness-heat group were higher than those in CNAG dampness-heat group， the amplitude of curve F was lower than that in CAG non-dampness-heat group， and the amplitude of curve H and slopes of curve A， H， and J were higher than those in CAG non-dampness-heat group （P＜0.05）. The recognition accuracy of CAG group and health control group reached 77.78%， AUC = 0.88； the recognition accuracy of CAG group and CNAG group was 69.44%， AUC = 0.61； the recognition accuracy of CAG dampness-heat group and CAG non-dampness-heat group reached 75.8%， AUC=0.70. ConclusionElectronic nose technology can make a more accurate identification of the oral breath odor in CAG patients with dampness-heat syndrome， with a decrease in the amplitude of the curve F and an increase in the amplitude of the curve H and in the slopes of the curves A， H， and J may as the characteristics of their odor mapping.

The construction of regional medical centers is an important carrier for the country to further promote the reform of the new medical service system during the"14th Five-Year Plan"period.In view of the problems existing in the current construction of national regional medical centers,such as imperfect coordination mechanism,insufficient coordination power and lack of assessment and evaluation system,drawing on collaboration theory and case study method,the construction path of national regional medical centers was analyzed from three dimensions:management system collaboration,operation mechanism collaboration and evaluation mechanism collaboration;It explore and constructs the new management model of"13331"high quality development in National Regional Medical Centers;The results provide experience and case reference for promoting the high-quality development of national regional medical centers under the new situation in terms of party building leadership,medical technology,scientific and technological innovation,medical-education collaboration and brand influence.

The construction of regional medical centers is an important carrier for the country to further promote the reform of the new medical service system during the"14th Five-Year Plan"period.In view of the problems existing in the current construction of national regional medical centers,such as imperfect coordination mechanism,insufficient coordination power and lack of assessment and evaluation system,drawing on collaboration theory and case study method,the construction path of national regional medical centers was analyzed from three dimensions:management system collaboration,operation mechanism collaboration and evaluation mechanism collaboration;It explore and constructs the new management model of"13331"high quality development in National Regional Medical Centers;The results provide experience and case reference for promoting the high-quality development of national regional medical centers under the new situation in terms of party building leadership,medical technology,scientific and technological innovation,medical-education collaboration and brand influence.

Objective Mitochondrial reactive oxygen species(mtROS)could cause damage to pancreatic β-cells,rendering them susceptible to oxidative damage.Hence,investigating the potential of the mitochondria-targeted antioxidant(Mito-TEMPO)to protect pancreatic β-cells from ferroptosis by mitigating lipid peroxidation becomes crucial. Methods MIN6 cells were cultured in vitro with 100 μmol/L sodium palmitate(SP)to simulate diabetes.FerroOrange was utilized for the detection of Fe2+fluorescence staining,BODIPY581/591C11 for lipid reactive oxygen species,and MitoSox-Red for mtROS.Alterations in mitophagy levels were assessed through the co-localization of lysosomal and mitochondrial fluorescence.Western blotting was employed to quantify protein levels of Acsl4,GPX4,FSP1,FE,PINK1,Parkin,TOMM20,P62,and LC3.Subsequently,interventions were implemented using Mito-TEMPO and Carbonyl cyanide 3-chlorophenylhydrazone(CCCP)to observe changes in ferroptosis and mitophagy within MIN6 cells. Results We found that SP induced a dose-dependent increase in Fe2+and lipid ROS in MIN6 cells while decreasing the expression levels of GPX4 and FSP1 proteins.Through bioinformatics analysis,it has been uncovered that mitophagy assumes a crucial role within the ferroptosis pathway associated with diabetes.Additionally,SP decreased the expression of mitophagy-related proteins PINK1 and Parkin,leading to mtROS overproduction.Conversely,Mito-TEMPO effectively eliminated mtROS while activating the mitophagy pathways involving PINK1 and Parkin,thereby reducing the occurrence of ferroptosis in MIN6 cells.CCCP also demonstrated efficacy in reducing ferroptosis in MIN6 cells. Conclusion In summary,Mito-TEMPO proved effective in attenuating mtROS production and initiating mitophagy pathways mediated by PINK1 and Parkin in MIN6 cells.Consequently,this decreased iron overload and lipid peroxidation,ultimately safeguarding the cells from ferroptosis.

Objective:To investigate the effect of decarbromodiphenyl ether(BDE-209)exposure on the migration ability of triple-negative breast cancer(TNBC)cells and to explore the underlying mechanism.Methods:Human TNBC MDA-MB-231 cells were divided into blank control group and BDE-209 exposure groups(treated with 0.02,0.20,2.00,20.00 and 200.00 ng/mL BDE-209 in high glucose DMEM).Extracellular vehicles(EVs)secreted by MDA-MB-231 cells were isolated by differential ultracentrifugation.Transmission electron microscopy(SEM),nanoparticle tracking analysis(NTA)and Western blotting were performed to characterize the EVs.The effect of the EVs induced by BDE-209 exposure(EVs-BDE-209)on the migration and invasion of MDA-MB-231 cells was detected by wound-healing assay and Transwell test.qRT-PCR was used to measure the miR-221 level in EVs-BDE-209.The expression of MMP9 in MDA-MB-231 cells was determined by Western blotting.Results:Compared with the blank control,BDE-209 exposure increased the tumor cell-derived EVs in dose-dependent manner.The MDA-MB-231 cells co-cultured with EVs released by 200.00 ng/mL BDE-209 exposure showed an 86%increase in cell migration rate,a 1.32-fold higher number of membrane-penetrating cells,a 2.71-fold higher expression level of miR-221,and a 1.62-fold higher expression level of MMP9 compared with the blank control group(all P<0.05).While transfection with anti-miR-221 antibody to decrease miR-221 level in EVs significantly reversed the increased invasion ability of the MDA-MB-231 cells treated with EVs-BDE-209.Conclusion:BDE-209 exposure may promote metastasis potential of MDA-MB-231 cells via EVs-BDE-209 transmitted miR-221.

Optimizing operation management mode is the core task to promote the high-quality development of public hospitals.Drawing on the typical experiences and practices of operation and management of representative in-ternational hospitals in the United States,the United Kingdom,Singapore and West China Hospital of Sichuan Univer-sity,Shanghai Jiao Tong University School of Medicine Affiliated Xinhua Hospital,Jilin University China-Japanese Union Hospital of Jilin University,and carrying out a full range of comparative analyses.Put forward the new situation of China's public hospital operations and management to establish a"big operations management"concept.By iden-tifying the operation management role,rationalizing the operation management organization structure and training operation management compound talents to discuss stablishing a committee system,integrating multi-departmental resources to form a scientific and sound problem identificaiton,feedback,consultation and improvement of working mechanism,and promote the high-quality development of publit hospitals.

The establishment of an economic operating mechanisms for hospitals is a key factor in advancing the growth of public hospitals in the modern age.At present,the due value of key factors such as medical resources and labor value of medical personnel in public hospitals in China has not been fully reflected,which not only restricts the overall operation efficiency of hospitals,but also makes it difficult to realize the marginal value of hospital operation and management.The economic operating mechanisms of public hospitals is in urgent need of reform.Large public hospitals in Henan Province has established an economic operating mechanisms of public hospitals based on intelli-gent finance,comprehensive budget management as the core,and cost control and performance management as the major tools to realize the interconnection of various systems and promote the high-quality development of hospi-tals with the three major supports of industry and finance integration,financial integration and financial integration.

Objective To investigate the effect of trehalose(Tre)H9C2 cardiomyocytes under oxy-gen-glucose deprivation/reoxygenation(OGD/R)injury and its mechanism of action with the cel-lular model simulating the process of myocardial ischemia/reperfusion injury.Methods H9C2 cells were divided control group,OGD/R group,Tre group(OGD/R+Tre),and combination group(OGD/R+Tre+ML385).MTT assay was used to observe cell proliferation,and lactate de-hydrogenase(LDH)release and Hoechst/propidium iodide staining were employed to evaluate cell membrane damage.Western blot analysis was utilized to detect the expression of nuclear fac-tor erythroid 2-related factor 2(Nrf2)and its downstream related proteins.The generation of re-active oxygen species(ROS)and mitochondrial membrane potential(MMP)were measured to quantify the level of oxidative stress.The expression of apoptosis-related proteins was determined by Western blot analysis.Results In comparison to the control group,the OGD/R group exhibi-ted a significantly reduced cell viability.When compared with the OGD/R group,the intervention of varying concentrations of Tre obviously improved cell viability in a dose-dependent manner(P＜0.01),increased MMP,and up-regulated the expression of glutathione(GSH),Nrf2,hemeo-xygenase 1,and nicotinamide adenine dinucleotide phosphate quinone oxidoreductase 1(NQO1),Bcl-2,and cysteinyl aspartate specific proteinase 3(Caspase-3)(P＜0.05,P＜0.01),and decreased the production of ROS and MDA and the expression of responding element binding protein 1,Bax,Bax/Bcl-2,and cleaved Caspase-3(P＜0.05,P＜0.01).What's more,the combined group ex-hibited significantly higher production of ROS,MDA,increased mRNA levels of TNF-α,IL-1β,and IL-6,and reduced MMP and GSH levels(P＜0.05,P＜0.01),as well as,enhanced expression of Bax,Bax/Bcl-2,and cleaved Caspase-3(1.77±0.08 vs 1.20±0.20,3.41±1.45 vs 0.99±0.15,4.10±1.05 vs 1.79±0.52,P＜0.01),and decreased expression of Bcl-2 and Caspase-3(0.58±0.21 vs 1.23±0.25,0.87±0.25 vs 1.45±0.31,P＜0.01)in comparison with the Tre group.Conclusion Tre can be regarded as an Nrf2 activator that inhibits oxidative stress and apoptosis by activating Nrf2,and thereby ameliorates OGD/R-induced cardiomyocyte injury.

Objective:To develop a U-Net-based quadruple numerical neural network (QU-Net) model for retinal vessel segmentation and to verify its precision and efficiency in extracting and segmenting retinal vessels from fundus images.Methods:This study used the concept of hypercomplex numbers, the three channels of color images, and a quaternion matrix representing all the information data of the images, which was then used as input for quaternion convolution and quaternion fully connected layers based on the U-Net architecture to form a QU-Net model.The QU-Net model was first tested on the DRIVE, STARE, and CHASE_DB1 datasets and compared with the traditional real-valued U-Net, M-Net, and SU-Net models in terms of accuracy, sensitivity, specificity, precision, F1 score, and Matthews correlation coefficient.Finally, the model was further optimized and the optimized QU-Net model was compared side-by-side with the well-known advanced models to comprehensively evaluate and analyze the efficiency and accuracy of the model in extracting and segmenting retinal blood vessels from fundus images.Results:The results showed that the QU-Net model achieved the following vessel segmentation results: accuracy 0.956 6, sensitivity 0.700 8, specificity 0.987 9, precision 0.595 4 on the DRIVE dataset, accuracy 0.975 5, sensitivity 0.890 7, specificity 0.984 2, precision 0.662 5 on the STARE dataset, and accuracy 0.979 4, sensitivity 0.747 0, specificity 0.990 6, precision 0.596 9 on the CHASE_DB1 dataset.Its specificity was better than U-Net, M-Net and SU-Net models, and its accuracy, sensitivity and precision were not inferior to the three models.After optimization, the sensitivity, precision and F1 value of the QU-Net model were effectively improved on the three datasets while maintaining its original accuracy and specificity.When compared with the performance indicators of other models on the three datasets, it was found that the optimized QU-Net model had good performance in accuracy, specificity, sensitivity, precision, and F1 score, indicating that its vessel segmentation ability was not inferior to the advanced models.Among all the models compared, the optimized QU-Net model had the best F1 score and Matthews correlation coefficient.Conclusions:The QU-Net model proposed in this study expands the data dimension space from the traditional real number space to the complex number space and greatly reduces the loss of data information.The optimized QU-Net model has good efficiency and accuracy in extracting retinal vessel segmentation from fundus images, and has certain advantages in detecting fine vessels.