Retinopathy of prematurity(ROP), an abnormal vascular proliferative retinopathy of prematurity, is a serious condition that can lead to retinal detachment or blindness. With the development of neonatal medicine, the survival rate of low birth weight and low gestational age infants has been increasing, as well as the incidence of ROP. Therefore, studying ROP's pathogenesis and influencing factors is of great clinical importance. Numerous studies have been conducted on the risk factors for ROP, including gestational age, oxygen intake, mode of delivery, neonatal bronchopulmonary dysplasia, and the use of surfactants. At present, it is widely accepted both at home and abroad that preterm birth, low birth weight, and high oxygen concentration after birth are independent risk factors for ROP. In recent years, more and more scholars have found that abnormalities in blood indicators in preterm infants may be associated with the development of ROP. This article reviews the effects of platelets, haemoglobin, blood glucose, inflammatory cells, and lipids on ROP, providing a reference for identifying and preventing risk factors for ROP.

AIM:To explore the mechanism of ATP synthase mitochondrial F0 complex H+ transporting,sub-unit F6(ATP5J)in affecting the metastasis of hepatoma carcinoma cells by regulating mitochondrial function-mediated cy-toskeletal remodeling.METHODS:Hepatocellular carcinoma cells Li-7 were used to construct the ATP5J overexpression and knockdown models.JC-1 staining was used to detect the mitochondrial membrane potential in each group,reactive oxygen species(ROS)levels were examined by DCHF-DA,and mitochondrial ATP fluorescence probe was used to assess mito-chondrial function.Cytoskeletal remodeling was detected with a microfilament green fluorescent probe(Actin-Tracker Green-488).Transwell assay was used to assess cell invasion ability.The expression levels of ATP5J and translocase of outer mitochondrial membrane 20(TOMM20)were determined by Western blot.RESULTS:Overexpression of ATP5J up-regulated mitochondrial membrane potential and mitochondrial ATP fluorescence intensity,induced cytoskeletal re-modeling,promoted cell invasion and TOMM20 expression,and inhibited ROS production(P＜0.01).On the contrary,knockdown of ATP5J significantly decreased mitochondrial membrane potential and mitochondrial ATP fluorescence inten-sity,significantly decreased cell invasion ability and TOMM20 expression,promoted ROS production and blocked cyto-skeletal remodeling(P＜0.01).CONCLUSION:ATP5J regulates mitochondrial energy transformation in hepatocellular carcinoma cells,and affects metastasis of hepatoma carcinoma cells by regulating mitochondrial membrane potential and mitochondrial ATP production-mediated cytoskeletal remodeling through TOMM20.

OBJECTIVE To establish an ultra-performance liquid chromatography-tandem mass spectrometry(UHPLC-MS/MS) method for determination and comparison of 26 components in different parts of two base plants of Shiliang tea(Chimonanthus salicifolius S.Y.Hu and Chimonanthus zhejiangensis M.C.Liu), and screen quality markers of different parts. METHODS The UHPLC method was performed on an Agilent RRHD Eclipse Plus C18 (2.1 mm×50 mm, 1.8 μm) column with a gradient elution of methanol and 0.1% formic acid in water at a flow rate of 0.3 mL·min−1, the column temperature was 35 ℃, and the injection volume was 0.5 μL; the multiple reaction monitoring mode was employed for the quantification of 26 components with electrospray ionization(ESI) source polarity in negative and positive mode. RESULTS Good linear relationship(r >0.999) were observed in the test ranges for 26 compounds, and the average recovery was 88.5%−111.7% with RSD was 3.4%−9.8%. There was no significant difference between the two base plants of Shiliang tea, and all of these samples were divided into two categories by hierarchical cluster analysis. The main components in leaves was flavonoids, among them, the content of kaempferol 3-O-rutinoside was the highest, reaching 12.902 mg.g−1; the main components in stems and roots was coumarins, and the content of alkaloids in roots was higher, relatively; 7 quality markers of difference were screened by OPLS-DA, which were kaempferol 3-O-rutinoside, chimonanthine, rutin, fraxetin, calycanthoside, scopolin, neochlorogenic acid. CONCLUSION These study elucidates the differences of chemical components in the different parts of two base plants of Shiliang tea, which providing basis for the research of pharmacodynamic substances and references for the comprehensive utilization of Chimonanthus salicifolius S.Y. Hu and Chimonanthus zhejiangensis M.C.Liu resources.

Meibomian gland dysfunction is a chronic and diffuse disease of the meibomian glands, characterized by obstruction and(or)abnormal secretion of the terminal ducts. Clinically, it can lead to tear film abnormalities and inflammation of the ocular surface, resulting in symptoms of ocular irritation and potential corneal damage that may impact visual function. Meibomian gland dysfunction can be classified into two types based on meibomian gland secretion: low secretion type and high secretion type. The low secretion type further includes acinar atrophy type and obstruction type. In recent years, research has revealed that patients with diabetes experience chronic damage to their meibomian gland tissue in the early stages of the disease, leading to structural and functional changes. The incidence and severity of meibomian gland dysfunction are higher in diabetic patients. However, there are numerous complex factors contributing to this condition in diabetes patients, and mechanisms remain unclear at present. This article reviews both domestic and international research progress on the pathological mechanism underlying meibomian gland dysfunction in diabetes.

Acute leukemias caused by mixed lineage leukemia(MLL)gene rearrangements(MLL-r)are characterized by high invasiveness and a poor prognosis,with few specific treatment options available.MLL protein is essential in embryonic development and hematopoiesis.It exhibits histone methyltransferase activity and can interact with various proteins through its functional domains,thus regulating downstream target gene expression through epigenetic modifications.MLL-r leads to the formation of MLL fusion proteins(MLL-FPs),in which the C-terminal is replaced by fusion partner proteins;over 100 such partner proteins have been identified to date.In numerous studies of the molecular mechanism,Menin serves as an important cofacter in the leukemogenesis of MLL-FPs and participates in forming the key complex when interacting with the N terminal of MLL protein,resulting in the disregulation of certain targeted genes,which makes the development of Menin-MLL inhibitors theoretically possible.To date,several small molecules have been identified that inhibit Menin-MLL interaction,including thienopyrimidine derivatives,piperidine derivatives,pyrimidine derivatives,and macrocyclic mimic peptides.Based on these prototypes,at least seven drugs are currently undergoing clinical evaluation,with some promising preliminary data regarding safety,tolerability,and efficacy.This review summarizes the structure and function of MLL,the mechanism of the occurrence of MLL-r leukemia,and current Menin-MLL inhibitors tested in MLL-r leukemia.

Objective To construct a diagnostic model for the phlegm-dampness obstruction syndrome in patients with coronary heart disease stable angina pectoris(CSAP);To provide a reference for clinical syndrome differentiation.Methods Totally 305 patients'clinical data were collected from the Department of Cardiology,Dongying Hospital Affiliated to Shandong University of Traditional Chinese Medicine,from May 2022 to January 2024.The least absolute shrinkage and selection operator(LASSO)was used to select features,and multiple models were constructed and compared using machine learning(ML)algorithms.The optimal ML model was selected for training,validation,and testing.Finally,the operational logic of the optimal model was explained using Shapley Additive Explanations(SHAP),and two typical examples were provided to help users understand the model's operational logic.Results LASSO regression identified chest pain,body mass index(BMI),limb heaviness,drinking history,age,triglycerides(TG),total cholesterol(TC),and low-density lipoprotein cholesterol(LDL-C)as features included in the model.After comparing multiple models,the Gaussian Naive Bayes(GNB)model demonstrated the best performance.The final constructed GNB model achieved an average AUC of 0.938(95%CI:0.903-0.972)in the training set,an average AUC of 0.927(95%CI:0.851-0.992)in the validation set,and an AUC of 0.856(95%CI:0.751-0.961)in the test set.The learning curve showed that the error between the training and validation sets in the model converged as the number of training samples increased.The calibration curve showed that the model had good consistency in predicting the probability of observed phlegm-dampness obstruction syndrome patients.The clinical decision curve(DCA)showed that the model could provide clinical benefits for patients at a decision threshold below 0.7.The features ranked by SHAP importance in order were chest pain,BMI,LDL-C,TG,limb heaviness,TC,drinking history and age.Conclusion The diagnostic model for CSAP phlegm-dampness obstruction syndrome constructed in this study can assist physicians in the syndrome differentiation of patients,thereby enabling the formulation of integrated clinical treatment plans combining traditional Chinese and Western medicine,and aiding patients in achieving better clinical therapeutic outcomes.

AIM:To explore the mechanism by which Qingshen granules(QSG)intervene in the microRNA-4516(miR-4516)targeted regulation of the SIAH3/PINK1 axis,enhancing mitophagy and inhibiting renal fibrosis.METHODS:Male SD rats were randomly divided into three groups:control,model,and QSG groups.The QSG aqueous solution was administered via gavage once daily,4 mL each time,for 8 consecutive weeks.Blood creatinine levels were measured in each group.Hematoxylin-eosin(HE)and Masson staining were utilized to assess the degree of renal patholog-ical damage.Western blot analysis was performed to determine the expression levels of β-actin,PINK1,Parkin,SIAH3,VDAC1,Mfn1,Mfn2,OPA1,LC3B,and P62 proteins in renal tissue.RT-qPCR was used to detect the mRNA expres-sion level of SIAH3 in rat kidney tissue,and transmission electron microscopy was employed to observe mitochondrial dam-age in renal tissue.QSG-containing serum and transforming growth factor-β1(TGF-β1)were used to induce an HK-2 cell fibrosis model.The cells were divided into the following groups:normal cell(NC)group,model cell(MC)group,MC+miR-4516 mimics group,MC+miR-4516 NC+QSG group,MC+miR-4516 mimics+QSG group,and MC+QSG group.Cell activity in each group was detected using the CCK-8 method,and Western blot analysis was performed to determine E-cad-herin and α-SMA protein expression levels.The regulation of SIAH3 by miR-4516 was verified using a dual luciferase re-porter assay.RT-qPCR was used to detect the mRNA expression of miR-4516,SIAH3 mRNA,and PINK1.RESULTS:The results indicated that QSG intervention reduced fibrosis in rat renal tissue and HK-2 cells,decreased SIAH3 mRNA expression,increased PINK1 expression,and activated mitophagy in renal tissue.In vitro results confirmed that QSG can elevate miR-4516 expression,inhibit SIAH3 mRNA expression,promote PINK1 expression in HK-2 cells,and reduce the expression of the fibrosis marker protein α-SMA.CONCLUSION:In summary,this study preliminarily clarified the mechanism by which QSG intervention targets miR-4516 to regulate the SIAH3/PINK1 axis,thereby enhancing mitophagy and inhibiting renal fibrosis.

【Objective】 To investigate the status of blood donation of pregnant women's family members, so as to recruit their family members and establish potential blood donation team. 【Methods】 Questionnaire survey was carried out among family members of pregnant women who participated in blood preparation plan by random sampling. 【Results】 The motivations of self-efficacy, internal reward, severity and stress of blood donors were significantly higher than those of non-donors, but non-donors concerned more about negative feelings of phlebotomy(P<0.05). People with rare blood type, low age, high income, weak negative motivation and strong positive motivation had stronger blood donation intention and higher probability of blood donation behavior(P<0.05). 【Conclusion】 It is necessary to expand blood sources through multiple channels by organizing publicity activities around targeted groups, such as establishing channels for blood donation reservation, taking the lead role of the donated crowd, so as to build up a recruitment team for voluntary blood donation.

Objective:To investigate whether transplantation of gingival mesenchymal stem cells (GMSCs) can inhibit radiation-induced senescence of alveolar epithelial cells type Ⅱ (AECⅡ) and its role in the prevention of radiation-induced pulmonary fibrosis (RIPF).Methods:Mouse type Ⅱ alveolar epithelial cells (MLE12) were irradiated with 6 Gy X-rays and then co-cultured with GMSCs. The extent of cellular senescence of MLE12 cells was assessed by cell morphology, β-Gal staining, and senescence secretion-associated phenotype (SASP) assay. RIPF model was constructed by unilaterally irradiating the right chest of C57BL/6 mice with 17 Gy X-rays. GMSCs were transplanted 1 d after irradiation. At 180 d after irradiation, the pulmonary organ ratio, HE staining, and Masson staining were used to assess intra-pulmonary structure and interstitial collagen deposition in the lung. β-Gal immunohistochemistry and immunofluorescence co-localization with AECⅡ were measured to assess the degree of cellular senescence in the lung. The SASP expression changes in lung tissue were detected by qRT-PCR. The protein expressions in P53-P21 and P16 pathways were detected by Western blot assay. P21 expression in AECⅡ was detected by immunofluorescence co-localization assay.Results:GMSCs effectively inhibited radiation-induced senescence of MLE12 cells, reduced the ratio of radiation-elevated β-Gal positive cells by 11.8% ( t=6.72, P<0.05), and decreased the expressions of SASP (IL-6, IL-8, IL-1β) ( t=28.43, 28.43, 4.82, P<0.05). GMSCs transplantation improved the survival rate of irradiated mice, prevented radiation-induced alveolar structural collapse thickening and collagen deposition, reduced the number of senescent cells in the irradiated lung tissues by 23.9% ( t=21.83, P<0.05), and inhibited the expressions of SASP ( t=8.86, 20.63, P<0.05). GMSCs also inhibited the expression of P53-P21, P16-related proteins in MLE12 cells and lung tissues of mice after irradiation. Conclusions:GMSCs inhibit senescence-related P53-P21 and P16 pathways, prevent radiation-induced AECⅡ senescence, as well as the development of RIPF.

Objective:To study the genotyping and regional distribution characteristics of Yersinia pestis by single nucleotide polymorphism (SNP) in Gansu Province. Methods:A total of 52 strains of Yersinia pestis isolated from Himalaya Marmot plague foci and Spermophilus alaschanicus plague foci in Gansu Province from 1962 to 2017 were selected for culture and extraction of DNA. The genomic DNA of Yersinia pestis was sequenced by the second generation of Illumina PE150 to identify the SNP sites. The species characteristics of Yersinia pestis in Gansu Province was determined by the Kimura-2-parameter model of neighbor joining of Mega 10.0 software based on the SNP sites. The molecular evolutionary tree of the groups was determined by Hasegawa-Kishino-Yano model of maximum likelihood method according to the SNP sites. Results:A total of 103 SNP sites were identified in 52 strains of Yersinia pestis in Gansu Province, including 28 intergenic loci, 43 non-synonymous mutations, 31 synonymous mutations and 1 nonsense mutation. The 52 strains of Yersinia pestis were divided into 2 biotypes and 3 groups, which were ancient type (1.IN2, 3.ANT) and medieval type (2.MED). Among them, 35 strains belonged to 1.IN2 group, 13 strains belonged to 3.ANT group, and 4 strains belonged to 2.MED group. The 1.IN2 group was further divided into 5 subgroups: the groups of Yuerhong Town and Dangchengwan Town in Subei County, the groups of Mati Town and Dahe Town in Sunan County, and the group of Xiahe County. The 3.ANT group was further divided into 2 subgroups: the groups of Hongliuwan Town in Aksay County and Machang in Dangchengwan Town of Subei County. Conclusion:The SNP method can be used to genotype Yersinia pestis from different plague foci in Gansu Province, which has certain regional characteristics.