OBJECTIVE: To explore the association between blood glucose trajectories within 7 days of intensive care unit (ICU) admission and mortality in patients with sepsis-associated acute respiratory distress syndrome (ARDS). METHODS: Based on the MIMIC-IV database, sepsis-associated ARDS patients with daily blood glucose monitoring data within 7 days of ICU admission were selected. Blood glucose trajectories were analyzed using group-based trajectory modeling (GBTM), and the optimal number of groups was determined based on the minimum Akaike information criterion (AIC), Bayesian information criterion (BIC), average posterior probability (AvePP), odds of correct classification (OCC), and proportion of group membership (Prop). Baseline characteristics including demographics, comorbidities, severity scores, vital signs, laboratory indicators within the first 24 hours of ICU admission, and treatments were collected. Kaplan-Meier survival curves were used to compare 28-day and 1-year survival across trajectory groups. Multivariate Logistic regression was performed to evaluate the associations between glucose trajectory groups and in-hospital mortality, ICU mortality. The incidence of hypoglycemia within 7 days in the ICU was analyzed among different groups. RESULTS: A total of 3 869 patients with sepsis-associated ARDS were included, with a median age of 63.52 (52.13, 73.54) years; 59.6% (2 304/3 869) were male. Based on glucose levels within 7 days, patients were categorized into three groups: persistent hyperglycemia group (glucose maintained at 10.6-13.1 mmol/L, n = 894), moderate glucose group (7.8-8.9 mmol/L, n = 1 452), and low-normal glucose group (6.1-7.0 mmol/L, n = 1 523). There were statistically significant differences in 28-day mortality and 1-year mortality among low-normal glucose group, moderate glucose group, and persistent hyperglycemia group [28-day mortality: 11.42% (174/1 523), 19.83% (288/1 452), 25.50% (228/894), χ ² = 82.545, P < 0.001; 1-year mortality: 23.31% (355/1 523), 33.75% (490/1 452), 39.49% (353/894), χ ² = 77.376, P < 0.001]. Kaplan-Meier analysis showed that higher glucose trajectories were associated with significantly lower 28-day and 1-year cumulative survival rates (Log-rank test: χ ² were 83.221 and 85.022, both P < 0.001). There were statistically significant differences in in-hospital mortality and ICU mortality among the low-normal glucose group, moderate glucose group, and persistent hyperglycemia group [in-hospital mortality: 9.65% (147/1 523), 19.70% (286/1 452), 24.50% (219/894), χ ² = 102.020, P < 0.001; ICU mortality: 7.22% (110/1 523), 16.05% (233/1 452), 20.13% (180/894), χ ² = 93.050, P < 0.001]. Logistic regression confirmed that, using the persistent hyperglycemia group as the reference, the low-normal glucose group had significantly lower risks of in-hospital mortality and ICU mortality after multiple factor adjustment. Although the moderate glucose group showed a trend toward lower mortality, the differences were not statistically significant. Using the moderate glucose group as a reference, the low-normal glucose group had 43.1% lower in-hospital mortality [odds ratio (OR) = 0.569, 95% confidence interval (95%CI) was 0.445-0.726, P < 0.001] and 42.0% lower ICU mortality (OR = 0.580, 95%CI was 0.439-0.762, P < 0.001). There was no statistically significant difference in the incidence of hypoglycemia within 7 days of ICU admission among low-normal glucose group, moderate glucose group, and persistent hyperglycemia group [2.82% (43/1 523), 2.69% (39/1 452), 3.02% (27/894), χ ² = 0.226, P = 0.893]. CONCLUSIONS Blood glucose trajectories during ICU stay are closely associated with prognosis in patients with sepsis-associated ARDS. Persistent hyperglycemia (10.6-13.1 mmol/L) is linked to significantly higher short- and long-term mortality.
Humans ; Respiratory Distress Syndrome/etiology* ; Sepsis/blood* ; Intensive Care Units ; Male ; Female ; Middle Aged ; Blood Glucose/metabolism* ; Hospital Mortality ; Aged

Postoperative acute pain can significantly hinder early postoperative recovery if inadequately managed,and may even progress to chronic postsurgical pain(CPSP).The current clinical practice primarily relies on multimodal analgesia strategies,with intravenous opioids being the cornerstone.Although effective in alleviating postoperative pain,the associated adverse effects of opioids have limited their widespread use.In recent years,with the development of integrative medicine combining Western and traditional Chinese medicine,numerous studies have demonstrated that incorporating transcutaneous electrical acupoint stimulation(TEAS)into multimodal analgesia protocols confers significant benefits for postoperative pain management.TEAS not only reduces postoperative pain and opioid consumption but also mitigates opioid-related side effects,thereby facilitating patient recovery.This review aims to provide a comprehensive overview of the analgesic mechanisms of TEAS,its application within multimodal analgesia for postoperative pain,and its potential to serve as a valuable reference for clinicians seeking to optimize postoperative pain management strategies.

The core pathological feature of Parkinson's disease(PD)is the abnormal aggregation of α-synuclein and the result ing neuronal damage.α-Synuclein exhibits toxic effects when it forms oligomers or fibrils,leading to neuronal death via multiple pathways,including mitochondrial dysfunction,impaired vesicular trafficking,dopamine auto-oxidation,and neuroinflammation.In addition,α-synuclein can propagate between cells via exosomes,endocytosis/exocytosis,tunneling nanotubes,or vagal nerve axonal transport,creating a cascade of pathological effects.Animal models of PD that recapitulate the key pathological hallmark of α-synuclein accumulation are indispensable tools for elucidating disease mechanisms and developing novel therapeutic interventions.To date,various strategies,including transgenic techniques,bacterial artificial chromosome(BAC)-mediated expression,viral vector-mediated overexpression,and gene editing,have been employed to develop α-synuclein overexpression animal models.These models have significantly advanced our exploration of the relationship between PD and α-synuclein.This systematic review considers the structure and function of α-synuclein,its mechanisms of toxicity,intercellular propagation pathways,animal models of overexpression,and potential therapeutic targets based on its pathogenic mechanisms.

The core pathological feature of Parkinson's disease(PD)is the abnormal aggregation of α-synuclein and the result ing neuronal damage.α-Synuclein exhibits toxic effects when it forms oligomers or fibrils,leading to neuronal death via multiple pathways,including mitochondrial dysfunction,impaired vesicular trafficking,dopamine auto-oxidation,and neuroinflammation.In addition,α-synuclein can propagate between cells via exosomes,endocytosis/exocytosis,tunneling nanotubes,or vagal nerve axonal transport,creating a cascade of pathological effects.Animal models of PD that recapitulate the key pathological hallmark of α-synuclein accumulation are indispensable tools for elucidating disease mechanisms and developing novel therapeutic interventions.To date,various strategies,including transgenic techniques,bacterial artificial chromosome(BAC)-mediated expression,viral vector-mediated overexpression,and gene editing,have been employed to develop α-synuclein overexpression animal models.These models have significantly advanced our exploration of the relationship between PD and α-synuclein.This systematic review considers the structure and function of α-synuclein,its mechanisms of toxicity,intercellular propagation pathways,animal models of overexpression,and potential therapeutic targets based on its pathogenic mechanisms.

Postoperative acute pain can significantly hinder early postoperative recovery if inadequately managed,and may even progress to chronic postsurgical pain(CPSP).The current clinical practice primarily relies on multimodal analgesia strategies,with intravenous opioids being the cornerstone.Although effective in alleviating postoperative pain,the associated adverse effects of opioids have limited their widespread use.In recent years,with the development of integrative medicine combining Western and traditional Chinese medicine,numerous studies have demonstrated that incorporating transcutaneous electrical acupoint stimulation(TEAS)into multimodal analgesia protocols confers significant benefits for postoperative pain management.TEAS not only reduces postoperative pain and opioid consumption but also mitigates opioid-related side effects,thereby facilitating patient recovery.This review aims to provide a comprehensive overview of the analgesic mechanisms of TEAS,its application within multimodal analgesia for postoperative pain,and its potential to serve as a valuable reference for clinicians seeking to optimize postoperative pain management strategies.

Myocardial injury is a pathological change of myocardium caused by many factors,which can lead to the decline of cardiac function and the occurrence of cardiovascular events.Astragaloside Ⅳ is one of the main pharmacological components in Astragali Radix,which plays an anti-myocardial injury role by regulating various signaling pathways.This article reviewed the anti-myocardial injury mechanism of astragaloside Ⅳ from five aspects:inhibition of oxidative stress,inhibition of apoptosis,anti-myocardial fibrosis,improvement of myocardial energy metabolism and inhibition of myocardium inflammation,in order to provide reference for the mechanism research and clinical application of astragaloside Ⅳ in the prevention and treatment of myocardial injury.

Objective:This study aims to explore the expression characteristics of mitochondrial function-related genes in patients with manic episodes of bipolar disorder and the correlation between differentially expressed genes and clinical metabolic indicators.Methods:Twenty patients with manic episodes of bipolar disorder (patient group) and 20 healthy controls (control group) were included. Quantitative real-time PCR was used to detect mitochondrial quality control and oxidative phosphorylation-related gene expression in peripheral blood leukocytes, and several metabolic indicators were collected. Mann-Whitney test or independent sample t-test was used for comparison between groups. Spearman correlation test was used to analyze the correlation between gene expression and metabolic indicators. Results:Mitochondria function-related genes, including NRF2, P62, MFN1, MFN2, YME1L, MFF, MTATP8, and AIF, were significantly lower in patients with bipolar disorder than in healthy controls ( P<0.05, U=86, 90, 97, 93, 106, 89, 93, 105, FDR=0.038). The expression level of MTATP8 was negatively correlated with BMI, total cholesterol, and globulin level in the patient group ( r=-0.49, -0.58, -0.46, P=0.028, 0.009, 0.050). The expression level of MFF was significantly negatively correlated with waist circumference in healthy controls ( r=-0.53, P=0.020) and with globulin level in the patient group ( r=-0.48, P=0.040). The expression level of AIF was significantly and positively correlated with high-density lipoprotein cholesterol in healthy controls ( r=0.53, P=0.036). Conclusion:The expression of several genes involved in mitochondrial quality control and oxidative phosphorylation processes was significantly downregulated, and differentially expressed genes were significantly associated with metabolic index, suggesting that mitochondrial dysfunction may be related to the high risk of metabolic disease in patients with manic episodes of bipolar disorder.

This study explores the application effect of the case-based teaching method based on Xuexitong learning platform in the online teaching of Digestive System, and analyzes the learner's emotional experience, learning behavior, and learning effect in the case-based online teaching. The results of the study show that the case-based online teaching model based on Xuexitong learning platform improves students' online learning interest, and the students have good emotional experience, high learning enthusiasm, good classroom interaction, enhanced self-learning ability before and after class, and good learning effect. In addition, precise teaching can be used for individual students who are not enthusiastic about online learning.

Objective:To analyze the compliance with enhanced recovery after surgery (ERAS) protocol in geriatric patients with fresh fracture.Methods:A retrospective study was conducted on the data of the patients with fresh extremity fracture which had been included in the ERAS perioperative protocol database during May 2019 and January 2022 at Department of Orthopaedic Trauma, Beijing Jishuitan Hospital. The patients ≥65 years were selected as a study group which was matched by a control group of the patients < 65 years in sex, fracture type and date frame of hospitalization at a ratio of 1∶1. The 2 groups were compared in the compliance with the 14 ERAS core perioperative elements.Results:The study group and the control group each included 66 patients who were matched in sex and fracture type. 62.1% (41/66) of the patients in the study group had combined diseases, significantly more than that [16.7% (11/66)] in the control group( P<0.001). Altogether, the compliance with the 14 ERAS core perioperative elements was 78.6 (71.4, 85.7) % in both groups, showing no significant difference between them ( P>0.05). Respectively, the compliance with the postoperative oral intake in the study group (80.3%, 53/66) was significantly lower than that in the control group (92.4%, 61/66) ( P<0.05); the compliance with the other 13 elements showed no statistically significant difference between the 2 groups ( P>0.05). Conclusion:The ERAS perioperative protocol can be carried out smoothly in geriatric patients with fresh fracture whose compliance may be comparable to that of the none-elderly patients.

Heart failure (HF) has become a major challenge in the treatment of global cardiovascular diseases. Great progress has been made in the drug treatment of HF, however, rehospitalization rate and mortality of patients with HF are still high. Hence, there is an urgent need to explore new treatment strategy and new underlying pathogenic mechanisms. In recent years, some researchers have suggested that regulation of ketone body metabolism may become a potentially promising therapeutic approach for HF. Some studies showed that the oxidative utilization of fatty acids and glucose was decreased in the failing heart, accompanied by the increase of ketone body oxidative metabolism. The enhancement of ketone body metabolism in HF is a compensatory change during HF. The failing heart preferentially uses ketone body oxidation to provide energy, which helps to improve the body's cardiac function. This review will discuss the potential significance of ketone body metabolism in the treatment of HF from three aspects: normal myocardial ketone body metabolism, the change of ketone body metabolism in HF, the effect of ketogenic therapy on HF and its treatment.
Humans ; Heart Failure/metabolism* ; Myocardium/metabolism* ; Ketone Bodies/metabolism* ; Cardiovascular Diseases ; Fatty Acids/metabolism* ; Energy Metabolism