The circadian system maintains physiological homeostasis by precisely orchestrating 24-hour cycles of metabolic and cardiovascular functions. Circadian disruption has been substantiated as a contributor to cardiometabolic dysfunction, significantly elevating the risk of obesity, type 2 diabetes, hypertension, and cardiovascular diseases, thereby emerging as a crucial target for global chronic disease prevention. In 2025, the American Heart Association (AHA) issued a dedicated scientific statement that systematically reviewed the regulatory mechanisms of circadian rhythms and their intrinsic links to cardiometabolic health. It highlighted the pivotal role of modifiable behavioral factors, including light exposure, sleep-wake patterns, meal timing, and timing of physical activity, and proposed multi-faceted intervention strategies centered on chronotherapy. Considering the distinct circadian characteristics and chronic disease epidemiology in the Chinese population compared to Western counterparts, this article, grounded in the statement's core framework and incorporating evidence from localized Chinese research, provides a systematic interpretation of the biological basis of circadian rhythms, the pathophysiological mechanisms underlying disruption-related diseases, and potential intervention pathways. It particularly discusses the applicability of the statement's conclusions to clinical practice and public health strategies in China, aiming to offer an evidence-based reference for developing a cardiometabolic health support system tailored to the national context.

Background: Neuroblastoma (NB) is a malignant pediatric tumor requiring new therapies. Accumulating evidence has confirmed that micro RNAs play critical roles in NB metastasis. Dihydroartemisinin (DHA) is capable of inhibiting the growth of NB cells. The primary objective of the current investigation was to characterize a newly discovered microRNA, miR-32-5p, in terms of the functional role, underlying mechanism of action, and potential synergistic therapeutic impact in the context of NB metastasis. Materials and methods: Real-time quantitative polymerase chain reaction and Western blotting were employed to assess the expression levels of miR-32-5p and its target, vacuolar protein sorting 4B (VPS4B). Furthermore, Transwell assay was utilized to evaluate in vitro cell migration and invasion, whereas a metastasis xenograft model was established in nude mice via caudal vein injections. Results: Gene Expression Omnibus database and real-time quantitative polymerase chain reaction analysis showed that miR-32-5p was downregulated in human NB samples and NB cell lines, in comparison with the normal tissue and cell lines. Inhibiting miR-32-5p induced the migration and invasion of NB cells, whereas overexpression of miR-32-5p prevented the migration and invasion in NB cell lines. Furthermore, VPS4B was identified as the direct target of miR-32-5p and the miR-32-5p reduction associated with NB metastasis upregulated the expression of VPS4B. Conversely, overexpression of VPS4B reversed the suppressive effects ofmiR-32-5p onNB cells. Moreover, miR-32-5p increased the sensitivity to DHA both in NB cells and in the metastasis xenograft model of nude mice. Conclusions: The downregulation of miR-32-5p in NB regulates NB metastasis by targeting VPS4B. Moreover, miR-32-5b can improve the sensitivity of DHA in the xenograft mouse model. Our findings have important implications for the combined application of miR-32-5p and DHA in the treatment of NB.

Objective     To investigate the vaccination rate of Coronavirus Disease 2019 (COVID-19) vaccine in patients undergoing cardiac mechanical valve replacement and to evaluate its effect on international normalized ratio (INR) value. Methods    We investigated 132 patients who had received cardiac mechanical valve replacement and followed up in the Department of Cardiovascular Surgery, West China Hospital of Sichuan University from May to October 2021. There were 51 males and 81 females aged 26-72 (53.01±9.51) years. Results    The vaccination coverage rate was 53.8%. Among the 61 unvaccinated patients, concerns about heart side-effects were the main reason. The average INR of the first review after vaccination was higher than that of the last review before vaccination, with a difference of 0.40±0.72 (P<0.001). Conclusion    The vaccination rate of patients after cardiac mechanical valve replacement is low. At the same time, COVID-19 vaccine may increase INR value, and it is suggested that patients should increase the frequency of review and adjust warfarin dosage after vaccination.

Central venous stenosis is a common complication following long-term dialysis catheter placement in dialysis patients. Generally, percutaneous angioplasty is the treatment of choice, and venous stent implantation should be considered in different situations. However, the venous stent migrating into right atrium is a rare but fatal complication. We presented a patient whose superior vena cava stents migrated into right atrium, resulting in acute tamponade, and exploratory thoracotomy was proceeded.

AIM:To investigate the effects of P2X4 receptor on peri-sciatic administration of recombinant rat TNF-α(rrTNF)-induced mechanical allodynia.METHODS:Male Sprague-Dawley rats (180~200 g) were used in the experiments.The levels of P2X4 receptor on day 3, day 7 and day 14 after peri-sciatic administration of rrTNF were exam-ined by Western blot, and the location of P2X4 receptor in the spinal dorsal horn was observed by double immunofluores-cence staining.The changes of 50%paw-withdrawal thresholds of the rat were detected by behavioral test, and the level of TNF-αin the spinal dorsal horn was also examined by Western blot when TNP-ATP was intrathecally injected before the ad-ministration of rrTNF.RESULTS:Compared with control group, the expression of P2X4 receptor in the spinal dorsal horn on the ipsilateral side significantly increased on day 3, day 7 and day 14 (P<0.01) after rrTNF (100 ng/L) administra-tion.P2X4 receptor was co-localized only with microglia, but not with neurons or astrocytes.Intrathecal injection of TNP-ATP before rrTNF administration prevented mechanical allodynia induced by rrTNF and inhibited the upregulation of TNF-αin the spinal dorsal horn.CONCLUSION:P2X4 receptors in microglia may be involved in rrTNF-induced mechanical allodynia by the upregulation of TNF-αin the spinal dorsal horn.

Objective To investigate the aerodynamic characteristics of vocal polyps and vocal nodules.Methods Aerodynamic parameters of 58 patients with vocal polyps or vocal nodules and 30 normal adults were measured by Aerophone Ⅱ Voice Function Analyzer.The mean airflow rate,intraoral pressure,glottal resistance,glottal efficiency were compared among different group.Results The mean airflow rate,glottal resistance and glottal efficiency of vocal polyps,vocal nodules and normal adult were 254.50±36.02 ml/s,33.55±4.63 cmH_2O/(L·S),2.46±1.49,177.45±25.93 ml/s,38.83±8.88 cmH_2O/(L·S),7.75±3.71,118.44±29.98 ml/s,53.04±8.64 cmH_2O/(L·S),9.17±3.87,respectively.The difference between them was significant(P＜0.01).The difference of intraoral pressure between vocal polyps (8.97±1.36 cmH_2O) and normal adult (6.24±0.99 cmH_2O) was significant (P＜0.01).The mean airflow rate,glottal resistance,glottal efficiency were significantly different between vocal polyps and vocal nodules(P＜0.01).Conclusion The degree of vocal fold adduct and the effciency of voice production in vocal polyps is worse than that of vocal nodules.The aerodynamic parameters can make quantifiable,objective assessment in voice function of vocal polyps and vocal nodules.