Objective:To construct an assessment model for operational quality of medical equipment by adopting Driving Force-Pressure-State-Impact-Response(DPSIR)model,and analyze its application value in operational management for medical equipment.Methods:The DPSIR model was adopted to formulate 20 evaluation indicators from five dimensions:driving force,pressure,state,influence and response.The evaluation indicators were evaluated by using composite weight method.According to the evaluation results,the management process of medical equipment was improved to achieve the optimal allocation for medical equipment.A total of 442 medical equipment in clinical use at Nanjing Brain Hospital from January 2022 to December 2023 were selected,and they were randomly divided into a conventional management mode group(221 equipment)and an assessment model mode group for operational quality of medical equipment by using DPSIR(221 equipment,model management mode group).The management quality of equipment operation,management efficiency and safety of using equipment between the two management modes were compared.A self-made questionnaire was used to investigate the satisfaction scores of managers for equipment,clinicians and clinical nurses on the clinical services of the equipment under the two management modes.Results:The scores of the standardization degrees of equipment operation,cleaning and disinfection,maintenance and repairing fault of adopting the model management mode were respectively(93.25±4.69),(93.47±5.36),(91.48±4.59)and(93.44±4.98),all of which were higher than those of adopting the conventional management mode,and the differences were statistically significant(t=15.489,12.920,10.905,16.354,P<0.05).The average utilization rate,stability rate of quality,and effective rate of diagnosis and treatment of the equipment of adopting the model management mode were(92.36±3.65)%,(90.58±4.36)%and(93.47±4.69)%,all of which were higher than those of adopting the conventional management mode,and the differences were statistically significant(t=12.376,10.726,11.721,P<0.05).The satisfaction scores of managers for equipment,clinicians and nurses for adopting the model management mode were higher than those of adopting the conventional management mode,and the differences were statistically significant(t=12.376,10.726,11.721,P<0.05).The incidence rates of corresponding infections,pressure-related injuries and risks caused by operation problems of equipment in adopting the model management mode were significantly lower than those in adopting the conventional management mode,and the differences were statistically significant(x2=12.280,15.000,14.141,P<0.05).Conclusion:The assessment model based on DPSIR for operational quality of medical equipment can enhance the management efficiency for medical equipment,and improve the satisfaction of users in using equipment,and raise the quality and level of management for equipment.

Background and Aims:Carotid plaque instability is a critical pathological basis for ischemic stroke.Identifying key molecular markers to evaluate plaque stability has important clinical implications.Recent studies have emphasized the regulatory roles and predictive value of long non-coding RNAs(lncRNAs)in plaque stability.In our previous transcriptome sequencing analysis of human stable and unstable carotid plaques,we identified lncRNA C-C motif chemokine ligand 3 antisense RNA 1(CCL3-AS1)as significantly upregulated in unstable plaques,suggesting a potential association with plaque instability.Therefore,this study aimed to validate CCL3-AS1 expression in an expanded plaque sample cohort and to explore its role and underlying molecular mechanism in carotid plaque destabilization.Methods:Carotid plaque specimens were obtained from patients undergoing carotid endarterectomy and classified into stable and unstable groups(n=15 per group)based on HE and Sirius red staining.qRT-PCR was used to validate the expression of candidate lncRNA CCL3-AS1.The localization and co-expression of CCL3-AS1 with macrophages in plaques were determined by RNA fluorescence in situ hybridization(FISH)combined with immunofluorescence staining.In vitro,THP1-derived macrophages were transduced with lentivirus or treated with antisense oligonucleotides(ASO)to overexpress or knock down CCL3-AS1,respectively,and the expression levels of inflammatory cytokines and matrix metalloproteinases(MMPs)were assessed.In vivo,an unstable carotid plaque model was established by tandem ligation of the right carotid artery in apolipoprotein E-deficient(ApoE-/-)mice,followed by local overexpression of CCL3-AS1.The effects on plaque morphology,macrophage infiltration,and MMP-9 expression were evaluated.Additionally,bioinformatic prediction using the catRAPID v2.1 omics platform was performed to identify potential RNA-binding proteins interacting with CCL3-AS1.RNA stability assays and RNA-binding protein immunoprecipitation(RIP)were conducted to verify the regulatory mechanism of MMP-9 expression.Results:CCL3-AS1 was significantly upregulated in unstable carotid plaques and was predominantly localized to the cytoplasm of plaque-infiltrating macrophages.In vitro,overexpression of CCL3-AS1 markedly increased the expression of MCP-1,TNF-α,IL-1β,iNOS,and MMP-9 in macrophages,whereas knockdown had the opposite effect.In the ApoE-/-mouse model of unstable carotid plaques,CCL3-AS1 overexpression led to fibrous cap rupture,increased infiltration of pro-inflammatory macrophages,enhanced MMP-9 secretion,and promoted plaque instability.Co-expression analysis revealed a strong correlation between CCL3-AS1 and MMP-9 expression(r=0.89,P=0.001).RNA stability assays demonstrated that CCL3-AS1 delayed the degradation of MMP-9 mRNA.Bioinformatic prediction identified heterogeneous nuclear ribonucleoprotein K(hnRNP-K)as a potential binding partner of CCL3-AS1.RIP and FISH co-localization confirmed the interaction,suggesting that CCL3-AS1 enhances MMP-9 mRNA stability through binding to hnRNP-K,thereby promoting its expression.Conclusion:As a macrophage-enriched inflammatory lncRNA,CCL3-AS1 may promote carotid plaque instability by enhancing MMP-9 expression via hnRNP-K-mediated mRNA stabilization.This lncRNA represents a potential molecular target for early intervention and stratification of ischemic stroke.

Objective:To investigate the clinical significance of CD105 and erythropoietin-producing hepatocellular receptor A2 (EPHA2) expressions in breast invasive ductal carcinoma and the effects of the combination of diabetes mellitus on CD105 and EPHA2 expressions.Methods:A retrospective case series study was conducted. A total of 74 patients with breast invasive ductal carcinoma in Affiliated Hospital of Jiangsu University from June 2019 to June 2024 were selected, and paraffin specimens from the patients after surgery were collected. Immunohistochemistry SP method was used to detect the expressions of CD105 and EPHA2 proteins in specimens. CD105 expression was expressed as the number of CD105 labeled microvessels, and EPHA2 expression was expressed as the proportion of EPHA2 positive expression area. The correlation of CD105 and EPHA2 expressions with the clinicopathological characteristics and diabetes mellitus of patients, as well as the relationship between the expressions of CD105 and EPHA2 were analyzed. Cox proportional hazards model was used to make univariate and multivariate analysis of the factors influencing overall survival of patients.Results:All 74 patients were female. The median age was 60 years old, 44 patients (59.46%) had tumor grade ≥ grade 3, 36 patients (48.65%) had tumor diameter ≥ 2 cm, 28 patients (37.84%) had lymph node metastasis, 30 patients (40.54%) had nerve vessel invasion, and 32 patients (43.24%) had diabetes mellitus. There were statistically significant differences in the proportion of patients with different age, tumor diameter, TNM stage, lymph node metastasis or not and nerve vessel invasion or not between diabetes mellitus group and non-diabetes mellitus group (all P < 0.05). The number of CD105 marking the microvessel was (32±9) and (24±8), respectively in diabetes mellitus group and non-diabetes mellitus group, and the difference was statistically significant ( t = 3.63, P < 0.010); the positive expression area proportion of EPHA2 was (19±5)% and (15±4)%, respectively, and the difference was statistically significant ( t = 3.85, P < 0.010). The expression of CD105 was related to the duration of diabetes mellitus, tumor diameter, TNM stage and lymph node metastasis or not (all P < 0.05), and the expression of EPHA2 was related to tumor diameter and TNM stage (all P < 0.05). Pearson correlation analysis showed a positive correlation between CD105 and EPHA2 expression ( r = 0.75, P < 0.001). The differences in overall survival of patients with or without diabetes mellitus and patients with different CD105 and EPHA2 expressions were statistically significant (all P < 0.05). Multivariate analysis showed that CD105 expression ( HR = 1.10, 95% CI: 1.04-1.16, P = 0.001) and EPHA2 expression ( HR = 1.35, 95% CI: 1.10-1.66, P = 0.005) were independent factors influencing the overall survival of patients with breast invasive ductal carcinoma. Conclusions:The expressions of CD105 and EPHA2 are independent prognostic factors in patients with breast invasive ductal carcinoma, and diabetes mellitus can promote the expressions of CD105 and EPHA2, which may increase the risk of poor prognosis.

Objectives:To investigate the predictive factors of stroke associated-pneumonia (SAP) in patients with acute stroke, develop nomogram and neural network prediction models and verify their predictive performance.Methods:Patients with acute stroke admitted to the First Affiliated Hospital of Kunming Medical University and Zhenxiong County People's Hospital were included retrospectively. Multivariate logistic regression analysis was used to determine the independent predictive factors of SAP, and develop nomogram and neural network prediction models. Receiver operating characteristic curve (ROC) curves were used to validate and compare the predictive performances. Results:A total of 450 patients with acute stroke were enrolled, including 286 males (63.6%), aged 64.28±13.24 years; 344 patientss (76.4%) had ischemic stroke and 106 (23.6%) had hemorrhagic stroke; 128 patients (28.4%) experienced SAP. According to the random number method, they were divided into a modeling cohort ( n=300) and a validation cohort ( n=150). Multivariate logistic regression analysis in the modeling cohort showed that a higher baseline National Institutes of Health Stroke Scale (NIHSS) score, gastric tube placement, use of proton pump inhibitors, heart failure, and higher neutrophil/lymphocyte ratio (NLR) were the independent predictive factors of SAP. ROC curve analysis showed that the area under the ROC curve of the nomogram model for predicting SAP in the modeling cohort and validation cohort was 0.841 (95% confidence interval [ CI] 0.795-0.880) and 0.863 (95% CI 0.798-0.914), respectively. The sensitivity for predicting SAP were 75.00% and 70.45%, respectively, and the specificity was 81.94% and 92.45%, respectively. The area under the ROC curve of the neural network model for predicting SAP in the modeling cohort and validation cohort was 0.847 (95% CI 0.802-0.866) and 0.862 (95% CI 0.796-0.913), respectively. The sensitivity for predicting SAP were 76.19% and 72.73%, and the specificity was 79.17% and 89.62%, respectively. Conclusions:Higher NIHSS score, gastric tube placement, use of proton pump inhibitors, heart failure, and higher NLR are the independent risk factors for SAP in patients with acute stroke. The nomogram and neural network prediction model developed using the above risk factors have higher predictive value for SAP.

AIM:To investigate the effects of nebulized sodium tanshinone ⅡA sulfonate(STS)in a mouse model of pulmonary hypertension associated with chronic obstructive pulmonary disease(COPD-PH).METHODS:A to-tal of 32 healthy SPF-grade male C57BL/6 mice were randomly divided into 4 groups:control(CTL,n=8)group,COPD-PH(CS+LPS,n=8)group,STS-treated COPD-PH(CS+LPS+STS,n=8)group,and STS(n=8)group.The COPD-PH model was established through whole-body exposure to cigarette smoke(CS)combined with lipopolysaccharide(LPS)in-halation.Mice were subjected to cigarette smoke exposure in a chamber(9 cigarettes/h,2 h/session,2 sessions/d,6 d/week)for 60 d,except on days of LPS inhalation.On days 1 and 14,COPD-PH model mice received LPS(7.5 μg/mouse in 50 μL saline)via intranasal inhalation,while the CTL and STS groups received an equivalent volume of saline.STS was administered via nebulized inhalation(5 mg/kg,30 min per session,twice daily)immediately before CS exposure.At the end of the modeling period,lung function and right heart pressure were assessed.Bronchoalveolar lavage fluid(BALF)was collected for inflammatory cell counting.Levels of interleukin-6(IL-6)in BALF supernatants and plasma were measured using ELISA.Pathological changes in the airway and lung tissues were evaluated.RESULTS:(1)Com-pared to CTL mice,those exposed to CS and LPS exhibited lesions characteristic of COPD-PH,including emphysema,lung inflammation,decreased lung function,and increased right ventricular systolic pressure(RVSP)and right ventricu-lar hypertrophy index(RVHI)(P<0.05);(2)COPD-PH mice showed significantly elevated IL-6 levels in both BALF and plasma(P<0.05);(3)STS treatment alleviated emphysema and lung inflammation,improved lung function,prevent-ed increases in RVSP and the RV/(LV+S)ratio,and reduced IL-6 levels in both BALF and plasma(P<0.05).CON-CLUSION:The results indicate that nebulized inhalation of STS significantly slows the progression of COPD-PH,likely due to its ability to inhibit lung inflammation and reduce IL-6 expression in the lungs.

Objective To compare the quality of liquids dispensed by intelligent dispensing robot and traditional manual in PIVAS,to ensure the safety of clinical infusion.Methods Using omeprazole and ambroxol as the main drugs and 5％glucose injection and 0.9％sodium chloride solution as the solvent,a number of quality indexes including drug residues and the number of insoluble particles were evaluated in the two modes of manual and robotic dispensing,respectively.Results Under the robot dispensing mode and manual dispensing mode,the residual amount of drugs was less than 5％,the insoluble particles were far less than the limit,the pH value was in line with the human infusion range,and the endotoxin and aseptic culture were negative results,with no statistical significance(P＞0.05).Conclusions The quality of liquid dispensed under the robotic dispensing mode is guaranteed,and there is no significant difference in the quality of liquid dispensed with the traditional manual dispensing mode,which provides a reliable guarantee for the large-scale application of robotic dispensing in intravenous admixture service.

Background and Aims:Carotid plaque instability is a critical pathological basis for ischemic stroke.Identifying key molecular markers to evaluate plaque stability has important clinical implications.Recent studies have emphasized the regulatory roles and predictive value of long non-coding RNAs(lncRNAs)in plaque stability.In our previous transcriptome sequencing analysis of human stable and unstable carotid plaques,we identified lncRNA C-C motif chemokine ligand 3 antisense RNA 1(CCL3-AS1)as significantly upregulated in unstable plaques,suggesting a potential association with plaque instability.Therefore,this study aimed to validate CCL3-AS1 expression in an expanded plaque sample cohort and to explore its role and underlying molecular mechanism in carotid plaque destabilization.Methods:Carotid plaque specimens were obtained from patients undergoing carotid endarterectomy and classified into stable and unstable groups(n=15 per group)based on HE and Sirius red staining.qRT-PCR was used to validate the expression of candidate lncRNA CCL3-AS1.The localization and co-expression of CCL3-AS1 with macrophages in plaques were determined by RNA fluorescence in situ hybridization(FISH)combined with immunofluorescence staining.In vitro,THP1-derived macrophages were transduced with lentivirus or treated with antisense oligonucleotides(ASO)to overexpress or knock down CCL3-AS1,respectively,and the expression levels of inflammatory cytokines and matrix metalloproteinases(MMPs)were assessed.In vivo,an unstable carotid plaque model was established by tandem ligation of the right carotid artery in apolipoprotein E-deficient(ApoE-/-)mice,followed by local overexpression of CCL3-AS1.The effects on plaque morphology,macrophage infiltration,and MMP-9 expression were evaluated.Additionally,bioinformatic prediction using the catRAPID v2.1 omics platform was performed to identify potential RNA-binding proteins interacting with CCL3-AS1.RNA stability assays and RNA-binding protein immunoprecipitation(RIP)were conducted to verify the regulatory mechanism of MMP-9 expression.Results:CCL3-AS1 was significantly upregulated in unstable carotid plaques and was predominantly localized to the cytoplasm of plaque-infiltrating macrophages.In vitro,overexpression of CCL3-AS1 markedly increased the expression of MCP-1,TNF-α,IL-1β,iNOS,and MMP-9 in macrophages,whereas knockdown had the opposite effect.In the ApoE-/-mouse model of unstable carotid plaques,CCL3-AS1 overexpression led to fibrous cap rupture,increased infiltration of pro-inflammatory macrophages,enhanced MMP-9 secretion,and promoted plaque instability.Co-expression analysis revealed a strong correlation between CCL3-AS1 and MMP-9 expression(r=0.89,P=0.001).RNA stability assays demonstrated that CCL3-AS1 delayed the degradation of MMP-9 mRNA.Bioinformatic prediction identified heterogeneous nuclear ribonucleoprotein K(hnRNP-K)as a potential binding partner of CCL3-AS1.RIP and FISH co-localization confirmed the interaction,suggesting that CCL3-AS1 enhances MMP-9 mRNA stability through binding to hnRNP-K,thereby promoting its expression.Conclusion:As a macrophage-enriched inflammatory lncRNA,CCL3-AS1 may promote carotid plaque instability by enhancing MMP-9 expression via hnRNP-K-mediated mRNA stabilization.This lncRNA represents a potential molecular target for early intervention and stratification of ischemic stroke.

Objective To compare the quality of liquids dispensed by intelligent dispensing robot and traditional manual in PIVAS,to ensure the safety of clinical infusion.Methods Using omeprazole and ambroxol as the main drugs and 5％glucose injection and 0.9％sodium chloride solution as the solvent,a number of quality indexes including drug residues and the number of insoluble particles were evaluated in the two modes of manual and robotic dispensing,respectively.Results Under the robot dispensing mode and manual dispensing mode,the residual amount of drugs was less than 5％,the insoluble particles were far less than the limit,the pH value was in line with the human infusion range,and the endotoxin and aseptic culture were negative results,with no statistical significance(P＞0.05).Conclusions The quality of liquid dispensed under the robotic dispensing mode is guaranteed,and there is no significant difference in the quality of liquid dispensed with the traditional manual dispensing mode,which provides a reliable guarantee for the large-scale application of robotic dispensing in intravenous admixture service.

AIM:To investigate the effects of nebulized sodium tanshinone ⅡA sulfonate(STS)in a mouse model of pulmonary hypertension associated with chronic obstructive pulmonary disease(COPD-PH).METHODS:A to-tal of 32 healthy SPF-grade male C57BL/6 mice were randomly divided into 4 groups:control(CTL,n=8)group,COPD-PH(CS+LPS,n=8)group,STS-treated COPD-PH(CS+LPS+STS,n=8)group,and STS(n=8)group.The COPD-PH model was established through whole-body exposure to cigarette smoke(CS)combined with lipopolysaccharide(LPS)in-halation.Mice were subjected to cigarette smoke exposure in a chamber(9 cigarettes/h,2 h/session,2 sessions/d,6 d/week)for 60 d,except on days of LPS inhalation.On days 1 and 14,COPD-PH model mice received LPS(7.5 μg/mouse in 50 μL saline)via intranasal inhalation,while the CTL and STS groups received an equivalent volume of saline.STS was administered via nebulized inhalation(5 mg/kg,30 min per session,twice daily)immediately before CS exposure.At the end of the modeling period,lung function and right heart pressure were assessed.Bronchoalveolar lavage fluid(BALF)was collected for inflammatory cell counting.Levels of interleukin-6(IL-6)in BALF supernatants and plasma were measured using ELISA.Pathological changes in the airway and lung tissues were evaluated.RESULTS:(1)Com-pared to CTL mice,those exposed to CS and LPS exhibited lesions characteristic of COPD-PH,including emphysema,lung inflammation,decreased lung function,and increased right ventricular systolic pressure(RVSP)and right ventricu-lar hypertrophy index(RVHI)(P<0.05);(2)COPD-PH mice showed significantly elevated IL-6 levels in both BALF and plasma(P<0.05);(3)STS treatment alleviated emphysema and lung inflammation,improved lung function,prevent-ed increases in RVSP and the RV/(LV+S)ratio,and reduced IL-6 levels in both BALF and plasma(P<0.05).CON-CLUSION:The results indicate that nebulized inhalation of STS significantly slows the progression of COPD-PH,likely due to its ability to inhibit lung inflammation and reduce IL-6 expression in the lungs.

Objective:To construct an assessment model for operational quality of medical equipment by adopting Driving Force-Pressure-State-Impact-Response(DPSIR)model,and analyze its application value in operational management for medical equipment.Methods:The DPSIR model was adopted to formulate 20 evaluation indicators from five dimensions:driving force,pressure,state,influence and response.The evaluation indicators were evaluated by using composite weight method.According to the evaluation results,the management process of medical equipment was improved to achieve the optimal allocation for medical equipment.A total of 442 medical equipment in clinical use at Nanjing Brain Hospital from January 2022 to December 2023 were selected,and they were randomly divided into a conventional management mode group(221 equipment)and an assessment model mode group for operational quality of medical equipment by using DPSIR(221 equipment,model management mode group).The management quality of equipment operation,management efficiency and safety of using equipment between the two management modes were compared.A self-made questionnaire was used to investigate the satisfaction scores of managers for equipment,clinicians and clinical nurses on the clinical services of the equipment under the two management modes.Results:The scores of the standardization degrees of equipment operation,cleaning and disinfection,maintenance and repairing fault of adopting the model management mode were respectively(93.25±4.69),(93.47±5.36),(91.48±4.59)and(93.44±4.98),all of which were higher than those of adopting the conventional management mode,and the differences were statistically significant(t=15.489,12.920,10.905,16.354,P<0.05).The average utilization rate,stability rate of quality,and effective rate of diagnosis and treatment of the equipment of adopting the model management mode were(92.36±3.65)%,(90.58±4.36)%and(93.47±4.69)%,all of which were higher than those of adopting the conventional management mode,and the differences were statistically significant(t=12.376,10.726,11.721,P<0.05).The satisfaction scores of managers for equipment,clinicians and nurses for adopting the model management mode were higher than those of adopting the conventional management mode,and the differences were statistically significant(t=12.376,10.726,11.721,P<0.05).The incidence rates of corresponding infections,pressure-related injuries and risks caused by operation problems of equipment in adopting the model management mode were significantly lower than those in adopting the conventional management mode,and the differences were statistically significant(x2=12.280,15.000,14.141,P<0.05).Conclusion:The assessment model based on DPSIR for operational quality of medical equipment can enhance the management efficiency for medical equipment,and improve the satisfaction of users in using equipment,and raise the quality and level of management for equipment.