BACKGROUND:Low temperatures have detrimental effects on the human cardiovascular system,with a higher prevalence of hypertension and related cardiovascular diseases,especially among people living in cold climates.Transient receptor potential M8(TRPM8)is often recognized as a physiological sensor of environmental cold,and glutamate receptor-3(GLR-3)/glutamate receptor ionotropic,kainate 2(GluK2)is also cold-sensitive.However,the specific molecular mechanisms of cold-associated TRPM8 and GLR-3/GluK2 in regulating hypertension remain puzzling.OBJECTIVE:Through a review of the literature in this field,to find out the general pattern of TRPM8 and GLR-3/GluK2 in regulating the body's cold response,as well as the specific mechanism of action in hypertension,thereby providing a theoretical basis for subsequent research on the treatment of hypertension based on cold-stimulation-related targets,and further expanding the new ideas and methods for the treatment of hypertension.METHODS:We searched,reviewed and screened the relevant literature on"cold stimulation,TRPM8,GLR-3/GluK2 and hypertension"to lay the theoretical foundation for the analysis of the whole article.Comparative analysis method,through reading and analyzing the obtained literature,comparing the similarities and differences between the literature,was performed to provide reasonable theoretical support for the argument.Through further comparative analysis of the literature,the relationship between the relevant indicators was clarified,and the ideas were clarified for the analysis of the full text.RESULTS AND CONCLUSION:(1)TRPM8 can be activated by cold and mainly mediates cool temperature perception in mammals.Its activation can trigger neurogenic inflammatory response and indirectly affect the inflammatory process.Abnormal TRPM8 signal can lead to excessive activation of immune cells,which is significantly associated with the occurrence and development of hypertension.(2)The activation threshold of GLR-3/GluK2 is lower than that of TRPM8,which may preferentially respond to noxious cold stimulation rather than ordinary cool temperature.In cold environment,GLR-3/GluK2 activation enhances sympathetic nerve excitability by regulating interneuron signal transduction and causes peripheral vascular constriction.Long-term effects can lead to increased peripheral vascular resistance.To conclude,TRPM8 and GLR-3/GluK2 are involved in the interaction of the nerve-immune-vascular system by sensing different cold stimuli.Abnormal TRPM8 signaling indirectly promotes the progression of hypertension through inflammation and immune dysregulation,while GLR-3/GluK2 directly exacerbates vascular constriction and resistance by enhancing sympathetic nerve activity.The combination of the two factors may constitute the key molecular mechanism of the occurrence and development of hypertension in cold environment,and provide a potential target for the intervention of cold-related cardiovascular diseases.

Objective: To establish an accurate and rapid typing method for Rh typing of samples from patients who have received recent blood transfusions by utilizing the difference in osmotic fragility between fresh and old red blood cells. Methods: A lysing solution suitable for destroying old RBCs was prepared. Sixty-one samples collected in our hospital in 2024 with Rh typing of double groups were treated with the lysing solution to remove the old allogeneic red blood cells while preserving the patient's own fresh red blood cells, followed by repeat Rh typing tests. Results: For 61 samples with Rh typing in double groups, 41 were accurately detected identified through the red blood cell lysis method, yielding an identification rate of 67.21%. No significant difference was observed compared to the detection rate of the commonly used capillary centrifugation modified method (χ =0.103, P>0.05). Conclusion: The red blood cell lysis method provides a novel and rapid experimental approach for clinical use in processing Rh-typed samples that are of double groups, thereby offering a basis for Rh compatibility blood transfusion.

ObjectiveBased on the established characteristic profiles， quantitative analysis of multiple components， and chemometric analysis of Taraxacum mongolicum， the quality of different T. mongolicum germplasms was evaluated at the chemical level， thereby providing a reference for the screening of high-quality germplasms and the rational utilization of wild resources. MethodsAn ultra-performance liquid chromatography （UPLC） was employed to establish characteristic profiles. Principal component analysis （PCA） and partial least squares-discriminant analysis （PLS-DA） were then adopted to screen and comprehensively rank marker compounds. ResultsThe UPLC fingerprint of T. mongolicum germplasm identified 13 chromatographic peaks corresponding to gallic acid， coumaric acid， neochlorogenic acid， monocaffeoyltartaric acid， chlorogenic acid， cryptochlorogenic acid， caffeic acid， p-coumaric acid， cichoric acid， luteoloside， isochlorogenic acid B， isochlorogenic acid A， and isochlorogenic acid C. Combined with chemometric analysis such as PCA and PLS-DA， eight core markers （cichoric acid， luteoloside， cryptochlorogenic acid， isochlorogenic acid B， chlorogenic acid， caffeic acid， isochlorogenic acid C， and isochlorogenic acid A） were screened for distinguishing wild and cultivated germplasms. Additionally， eight core markers （cichoric acid， caffeic acid， luteoloside， chlorogenic acid， cryptochlorogenic acid， isochlorogenic acid A， monocaffeoyltartaric acid， and neochlorogenic acid） were selected for the evaluation and screening of different T. mongolicum germplasms. ConclusionThis study establishes a UPLC analysis method capable of simultaneously determining 13 characteristic components in T. mongolicum， such as cichoric acid and chlorogenic acid， as well as their precursor compound contents in the biosynthetic pathway. Based on the above methods， three T. mongolicum germplasms （PGY-004， PGY-009， and PGY-010） with promising medicinal potential are selected for subsequent research on variety breeding. The present study provides a reference for quality control of Taraxacum mongolicum， germplasm screening， and the rational development and utilization of wild resources.

BACKGROUND:Low temperatures have detrimental effects on the human cardiovascular system,with a higher prevalence of hypertension and related cardiovascular diseases,especially among people living in cold climates.Transient receptor potential M8(TRPM8)is often recognized as a physiological sensor of environmental cold,and glutamate receptor-3(GLR-3)/glutamate receptor ionotropic,kainate 2(GluK2)is also cold-sensitive.However,the specific molecular mechanisms of cold-associated TRPM8 and GLR-3/GluK2 in regulating hypertension remain puzzling.OBJECTIVE:Through a review of the literature in this field,to find out the general pattern of TRPM8 and GLR-3/GluK2 in regulating the body's cold response,as well as the specific mechanism of action in hypertension,thereby providing a theoretical basis for subsequent research on the treatment of hypertension based on cold-stimulation-related targets,and further expanding the new ideas and methods for the treatment of hypertension.METHODS:We searched,reviewed and screened the relevant literature on"cold stimulation,TRPM8,GLR-3/GluK2 and hypertension"to lay the theoretical foundation for the analysis of the whole article.Comparative analysis method,through reading and analyzing the obtained literature,comparing the similarities and differences between the literature,was performed to provide reasonable theoretical support for the argument.Through further comparative analysis of the literature,the relationship between the relevant indicators was clarified,and the ideas were clarified for the analysis of the full text.RESULTS AND CONCLUSION:(1)TRPM8 can be activated by cold and mainly mediates cool temperature perception in mammals.Its activation can trigger neurogenic inflammatory response and indirectly affect the inflammatory process.Abnormal TRPM8 signal can lead to excessive activation of immune cells,which is significantly associated with the occurrence and development of hypertension.(2)The activation threshold of GLR-3/GluK2 is lower than that of TRPM8,which may preferentially respond to noxious cold stimulation rather than ordinary cool temperature.In cold environment,GLR-3/GluK2 activation enhances sympathetic nerve excitability by regulating interneuron signal transduction and causes peripheral vascular constriction.Long-term effects can lead to increased peripheral vascular resistance.To conclude,TRPM8 and GLR-3/GluK2 are involved in the interaction of the nerve-immune-vascular system by sensing different cold stimuli.Abnormal TRPM8 signaling indirectly promotes the progression of hypertension through inflammation and immune dysregulation,while GLR-3/GluK2 directly exacerbates vascular constriction and resistance by enhancing sympathetic nerve activity.The combination of the two factors may constitute the key molecular mechanism of the occurrence and development of hypertension in cold environment,and provide a potential target for the intervention of cold-related cardiovascular diseases.

To analyze the disease burden of acute lymphoid leukemia(ALL) and its changing trends in China and globally from 1990 to 2021, aiming to provide a theoretical basis for disease prevention, treatment, and policy formulation.

AIM:To automatically identify and quantitatively assess myopia-related fundus structural changes by combining non-mydriatic color fundus photography with an artificial intelligence(AI)-powered quantitative fundus analysis system and to further analyze the correlations between these fundus parameters and spherical equivalent(SE), axial length(AL), and age, providing the objective basis for monitoring myopia progression and supporting the formulation of personalized myopia prevention and control strategies. METHODS:A cross-sectional study was conducted enrolling myopic patients aged 18-50 y who underwent myopia screening from March 2023 to December 2023. Patients were stratified into three groups based on SE: the -3.00 D

With the widespread application of chemotherapy, immunotherapy, and targeted therapy, cardiotoxicity associated with anti-tumor treatment has gained increasing attention. Drug-induced cardiac injury can significantly impact patients’ quality of life and may even limit the overall efficacy of anti-tumor therapy. The underlying mechanisms include oxidative stress, inflammatory responses, mitochondrial dysfunction, apoptosis, and immune dysregulation. Owing to multitarget effects, low toxicity, and holistic regulatory properties, Chinese traditional medicines have demonstrated considerable potential in cardioprotection. This review summarizes the principal mechanisms of drug-induced myocardial injury related to anti-tumor therapy and highlights recent advances in the prevention and treatment of cardiotoxicity using Chinese medical formulae, such as compound danshen dripping pills, nuanxinkang, qili qiangxin capsules, and shengmai powder, as well as their bioactive constituents. The cardioprotective effects of these agents are discussed in terms of their antioxidative, anti-inflammatory, immunomodulatory, and mitochondrial-protective actions. Furthermore, it highlights certain traditional medicines that exhibit unique advantages in synergistic cardioprotective and anti-tumor therapy. Future efforts should focus on well-designed, systematic clinical studies to facilitate the translational application of integrated Chinese and Western medicine in cardio-oncology.

Objective: To develop a RHCE genotyping assay based on kompetitive allele-specific PCR (KASP) and assess its clinical accuracy for RhCE blood group determination. Methods: KASP primers were designed to interrogate three RHCE loci: the 109 bp insertion/deletion in intron 2, c. 307T>C, and c. 676C>G. A total of 1 194 RhD-positive inpatients from Chengdu were typed by both KASP genotyping and manual tube serology. Discordant samples (n=10) were retested by both methods and further resolved by Sanger sequencing. An additional 377 cases were tested for the c. 48C>G locus to evaluate the predictive accuracy of individual loci and combined locus testing for RhC antigen. Results: Genotyping concordance with serology was 100.0% for both the c. 676C>G locus (RhE/Rhe) and the c. 307T>C locus (Rhc). For RhC prediction using the 109 bp insertion, overall accuracy was 99.7% (1 191/1 194); the 3 discordant cases were confirmed by Sanger sequencing to be false negatives attributable to 109 bp deletion in intron 2. Testing the c. 48C>G allele for RhC prediction yielded 7 false positives, with an accuracy of 98.1% (370/377). RhC antigen status was determined by combining the 109 bp insertion and the c. 48C allele. After excluding 10 samples with inconsistent results between the two loci, the accuracy reached 100% in the remaining 367 samples. When both loci were applied in combination, accuracy reached 100% in the 367 cases with concordant results. Among the 1 194 patients, CCee (45.8%) and CcEe (31.7%) were the most common RhCE phenotypes. The e antigen had the highest positivity rate (92.2%), and the Ce haplotype was the most frequent (66.9%). Conclusion: The KASP-based RHCE genotyping method achieves high accuracy for clinical RhCE typing. Combining the 109 bp insertion/deletion with the c. 48C allele significantly improves RhC antigen prediction compared with either locus alone. This method was applied to RhCE genotyping of 1 194 RhD-positive inpatients in Chengdu, providing local RhCE phenotype and haplotype distribution data to support RhCE-matched transfusion practice.

Tumor immunotherapy has achieved breakthroughs in the treatment of malignant tumors by activating the host immune system’s antitumor response mechanism. Among various strategies, Toll-like receptor (TLR) agonists have garnered substantial attention due to their unique immunomodulatory capabilities. This work reviews the research progress on the combination of TLR agonists with radiotherapy in tumor immunotherapy, focusing on the clinical translational potential of intratumoral injection strategies. Clinical studies have shown that the in-situ injection of TLR agonists in combination with radiotherapy can effectively suppress primary and metastatic lesions by inducing immunogenic cell death, releasing tumor antigens, activating local immune responses, and triggering abscopal effects. Moreover, novel extended-release formulations and “endogenous vaccine” designs further enhance the safety and durability of treatment. Despite several challenges such as tumor microenvironment suppression and dose optimization, TLR agonists hold promise for the treatment of “cold” tumors lacking innate immunity through combinations with immune checkpoint inhibitors, nanodelivery technologies, and precise biomarker screening.

ObjectiveTo investigate the triglyceride-glucose (TyG) index and the level of serum homocysteine (Hcy) in association with the incidence of stroke in type 2 diabetes mellitus (T2DM) patients. MethodsBased on the chronic disease risk factor surveillance cohort in Pudong New Area, Shanghai, excluding those with stroke in baseline survey, T2DM patients who joined the cohort from January 2016 to October 2020 were selected as the research subjects. During the follow-up period, a total of 318 new-onset ischemic stroke patients were selected as the case group, and a total of 318 individuals matched by gender without stroke were selected as the control group. The Cox proportional hazards regression model was used to adjust for confounding factors and explore the serum TyG index and the Hcy biochemical indicator in association with the risk of stroke. ResultsThe Cox proportional hazards regression results showed that after adjusting for confounding factors, the risk of stroke in T2DM patients with 10 μmol·L⁻¹-¹ and Hcy>15 μmol·L⁻¹ was 1.532 times (95%CI: 1.017‒2.309 times, P=0.041) and 1.738 times (95%CI: 1.119‒2.699 times, P=0.014) higher respectively, compared to T2DM patients with Hcy≤10 μmol·L⁻¹. T2DM patients with TyG>9.074 had 1.396 times higher risk of stroke (95%CI: 1.091‒1.787, P=0.008) compared to those with TyG≤9.074. The study found that urea and α1-antitrypsin (α1-AT) were independent risk factors for the incidence of stroke in T2DM patients. For every unit increase in urea andα1-AT, the risk of stroke in T2DM patients increased by 233.6% (HR=3.336, 95%CI: 1.588‒7.009, P=0.001) and 11.3% (HR=1.113, 95%CI: 1.028‒1.205, P=0.008), respectively. Cumulative risk curves showed that Hcy>10 μmol·L⁻¹ and TyG>9.074 accelerated the time to stroke occurrence in T2DM patients. ConclusionElevated levels of Hcy>10 μmol·L⁻¹ and a higher TyG index are risk factors for stroke in T2DM patients. Effective interventions for Hcy and TyG should be conducted for diabetic patients to reduce the incidence of stroke.