Background and Aims:Hepatocellular carcinoma(HCC)is the most prevalent type of liver malignancy,accounting for 80%of all primary liver cancer cases.Partial hepatectomy is widely considered to be the treatment of choice for HCC.However,post-hepatectomy liver failure(PHLF)is the most serious complication and the leading cause of perioperative death.Therefore,an accurate assessment of the risk of PHLF is particularly critical.Patients with large hepatocellular carcinoma have larger tumors(tumor diameter≥5 cm)and more resected liver tissue,and are more likely to develop PHLF.Previous studies have used various methods to assess the risk of PHLF,including liver function,Child-Pugh classification,model for end-stage liver disease,albumin-bilirubin(ALBI),and aspartate aminotransferase-to-platelet ratio index score.However,no model has been developed for data on hepatectomy for large HCC.Therefore,this study aims to analyze the risk factors of PHLF in HCC patients with large tumor and to construct a preoperative nomogram prediction model to guide and optimize clinical decision-making.Methods:The clinical data of 927 patients with large liver cancer who underwent radical hepatectomy in the First Affiliated Hospital of Anhui Medical University(721 cases,training cohort)and the Second Affiliated Hospital of Anhui Medical University(206 cases,validation cohort)from January 2018 to June 2023 were retrospectively collected.The patients'baseline data,laboratory examination,imaging data,and surgical information were collected.Univariate analysis combined with multivariate analysis was used to screen out the independent risk factors for inducing PHLF,and binary Logistic regression was used to construct a prediction model for PHLF.ROC,calibration,and clinical decision curves verified the model's performance.Results:There were no significant differences in all preoperative data between the training and validation cohorts(P>0.05).Grade B or C PHLF occurred in 192 of 927 patients(20.7%),including 8 patients with grade C PHLF.Univariate and multivariate Logistic regression analyses were used to determine the independent risk factors of PHLF,including tumor diameter,ALBI score,liver cirrhosis,vascular tumor thrombus,and intraoperative blood loss.These factors were included in the Logistic regression analysis,and a nomogram model was constructed to predict PHLF.The nomogram model was validated,and the C-index of the nomogram was 0.757.The ROC curve analysis of the prediction probability of the model showed that the AUC of the training set was 0.757(95%CI=0.703-0.811),and the AUC of the validation set was 0.779(95%CI=0.702-0.863).The validation showed that the model had good predictive ability.Conclusions:Tumor diameter,ALBI score,liver cirrhosis,vascular tumor thrombus,and intraoperative blood loss are independent risk factors for PHLF.The nomogram prediction model constructed in this study can accurately assess the risk of preoperative PHLF,which is helpful for better clinical management,reducing the occurrence of PHLF,and improving the postoperative prognosis of patients.

Objective To evaluate the clinical efficacy of robot-assisted navigation with percutaneous lag screw treatment for Hangman's fracture.Methods We retrospectively analyzed the clinical data of 5 patients treated with robot-assisted C2 percutaneous lag screw for Hangman's fracture in our hospital from September 2021 to August 2023.Patients were positioned with moderate head-neck flexion in a Mayfield head clamp.After closed reduction with manual traction under general anesthesia,the C2 percutaneous lag screws were implanted under TINAVI orthopedic surgical robot assistance.Postoperative cervical CT scans were used to assess screw placement accuracy and fracture healing quality.Clinical efficacy was evaluated by the Odom grading system.Results All the 5 patients were operated successfully without vertebral artery injury or neurological complications.A total of 10 screws were implanted.According to the Gertzbein-Robbins standard,9 screws belonged to the grade A,and 1 belonged to the grade B,with an accuracy of 90％(9/10)and an excellent rate of 100％(10/10).The neck incision length ranged 20-30 mm(mean,27 mm).The operation time was 86-160 min(mean,112.8 min).The intraoperative blood loss was 10-50 ml(mean,30 ml).The postoperative hospitalization was5-18 d(mean,8 d).The patients were followed up for 12-34 months(mean,23.6 months).All fractures healed without screw breakage or loosening.According to the Odom grading,4 cases were excellent,and 1 case was good.Conclusion Robot-assisted navigation C2 percutaneous lag screw treatment for Hangman's fracture is accurate and minimally invasive,safe and effective.

Objective To provide experimental evidence for selecting acupuncture timing in clinical practice,the optimal time for enhancing the brain effects of electroacupuncture at the Hegu acupoint(LI4)by observing brain imaging data,hemodynamic changes and differences in brain functional connectivity across the twelve traditional Chinese time periods were determined.Methods Thirty-six C57BL/6 mice were randomly divided into 12 groups corresponding to each of the twelve time periods(Zi,Chou,Yin,Mao,Chen,Si,Wu,Wei,Shen,You,Xu,Hai),with 3 mice per group.Each mouse received electroacupuncture stimulation using the same protocol.Brain imaging data and dynamic hemodynamic changes were collected using functional ultrasound imaging(FUS)ultrasound imaging technology every 0.4 s over a total duration of 420 s,covering pre-acupuncture(resting state),during acupuncture(task state),and post-acupuncture(post-task state)phases.The hippocampal region(HIP)was used as the observation point to analyze changes in functional connectivity between HIP and other brain regions before and after acupuncture.Results Compared to other time periods,the Mao group exhibited the largest whole-brain activation area and the highest average activation signal intensity.The hemodynamic signal increase in the hippocampal region was more pronounced,and the post-acupuncture blood flow signal intensity remained significantly higher than the pre-acupuncture resting state.Functional connectivity data revealed that,using 0.2 as the standard value,the Mao group showed the greatest number of altered brain regions before and after acupuncture.Notably,only in the Mao group was there a significant enhancement in connectivity between the bilateral hippocampal regions.Conclusion The immediate effects of electroacupuncture at the Hegu acupoint(LI4)and brain functional connectivity vary significantly across different time periods,aligning with the traditional Chinese medicine theory of meridian qi and blood flow.Mao time is identified as the optimal period.

Objective To explore the effect of lipoprotein a[Lp(a)]on the inflammatory state and cardiovascular system of patients with essential hypertension.Methods The clinical data of 234 patients with essential hypertension admitted from January 2022 to November 2023 were retrospectively collected.According to the serum Lp(a)concentration,they were divided into the normal Lp(a)group(n=185)and the high Lp(a)group(n=49).The differences in serum inflammatory markers C reactive protein(CRP),neutrophil-to-lymphocyte ratio(NLR),and fibrinogen between the two groups were compared.Pearson correlation analysis was used to analyze the correlation between Lp(a)and inflammatory markers,and the incidence of cardiac target organ damage between the two groups of patients was compared.Results Compared with the normal Lp(a)group,the CRP concentration,NLR and fibrinogen concentration of hypertensive patients in the high Lp(a)group increased(P<0.05,P<0.01),and the concentration of Lp(a)was positively correlated with CRP,NLR and fibrinogen(r=0.168,0.165,0.321,P<0.05).The incidence of myocardial infarction was higher in the high Lp(a)group[22.45%(11/49)]than in the normal Lp(a)group[7.57%(14/185)](P<0.01).Conclusion In patients with essential hypertension,high Lp(a)concentration is associated with a stronger inflammatory response,and elevated Lp(a)concentration is related to an increased incidence of myocardial infarction,suggesting that Lp(a)may affect target organ damage in patients with essential hypertension by promoting inflammation.

Background and Aims:Hepatocellular carcinoma(HCC)is the most prevalent type of liver malignancy,accounting for 80%of all primary liver cancer cases.Partial hepatectomy is widely considered to be the treatment of choice for HCC.However,post-hepatectomy liver failure(PHLF)is the most serious complication and the leading cause of perioperative death.Therefore,an accurate assessment of the risk of PHLF is particularly critical.Patients with large hepatocellular carcinoma have larger tumors(tumor diameter≥5 cm)and more resected liver tissue,and are more likely to develop PHLF.Previous studies have used various methods to assess the risk of PHLF,including liver function,Child-Pugh classification,model for end-stage liver disease,albumin-bilirubin(ALBI),and aspartate aminotransferase-to-platelet ratio index score.However,no model has been developed for data on hepatectomy for large HCC.Therefore,this study aims to analyze the risk factors of PHLF in HCC patients with large tumor and to construct a preoperative nomogram prediction model to guide and optimize clinical decision-making.Methods:The clinical data of 927 patients with large liver cancer who underwent radical hepatectomy in the First Affiliated Hospital of Anhui Medical University(721 cases,training cohort)and the Second Affiliated Hospital of Anhui Medical University(206 cases,validation cohort)from January 2018 to June 2023 were retrospectively collected.The patients'baseline data,laboratory examination,imaging data,and surgical information were collected.Univariate analysis combined with multivariate analysis was used to screen out the independent risk factors for inducing PHLF,and binary Logistic regression was used to construct a prediction model for PHLF.ROC,calibration,and clinical decision curves verified the model's performance.Results:There were no significant differences in all preoperative data between the training and validation cohorts(P>0.05).Grade B or C PHLF occurred in 192 of 927 patients(20.7%),including 8 patients with grade C PHLF.Univariate and multivariate Logistic regression analyses were used to determine the independent risk factors of PHLF,including tumor diameter,ALBI score,liver cirrhosis,vascular tumor thrombus,and intraoperative blood loss.These factors were included in the Logistic regression analysis,and a nomogram model was constructed to predict PHLF.The nomogram model was validated,and the C-index of the nomogram was 0.757.The ROC curve analysis of the prediction probability of the model showed that the AUC of the training set was 0.757(95%CI=0.703-0.811),and the AUC of the validation set was 0.779(95%CI=0.702-0.863).The validation showed that the model had good predictive ability.Conclusions:Tumor diameter,ALBI score,liver cirrhosis,vascular tumor thrombus,and intraoperative blood loss are independent risk factors for PHLF.The nomogram prediction model constructed in this study can accurately assess the risk of preoperative PHLF,which is helpful for better clinical management,reducing the occurrence of PHLF,and improving the postoperative prognosis of patients.

Objective To compare the changes in biological indicators of human corneal epithe-lial(HCET)cells and rabbit corneas after exposure to different doses of ultraviolet B(UVB)radia-tion,so as to evaluate the impact of UVB radiation on corneal injury effects.Methods In cell exper-iment,HCET cells were divided into groups with radiation doses of 0,6,12,18,and 24 mJ/cm2.The effect of UVB radiation on HCET cell viability was detected using the CCK-8 assay,and the level of intracellular DNA damage was assessed by immunofluorescence.In the animal experiment,15 healthy New Zealand white rabbits(30 eyes)were randomly divided into groups with radiation doses of 0,1.35,2.16,4.32,and 6.48 J/cm2.The UVB exposure time for the radiation groups was 30 minutes per day for 3 consecutive days.Corneal injury was evaluated using methods such as slit-lamp microscopy,sodium fluorescein staining,central corneal thickness measurement,optical coherence tomography(OCT)imaging,and hematoxylin and eosin(HE)staining.Results Compared with the control group,cell viability in the radiation groups gradually decreased,and the level of DNA damage gradually increased with increasing radiation dose.As the radiation dose increased in the radiation groups,the degree of corneal opacity in rabbits gradually worsened,the central corneal area gradu-ally thickened,and OCT revealed high-intensity scattered light signals with the formation of shadow areas.Results from HE staining,immunohistochemistry,Western blot(WB),and sodium fluores-cein staining showed that the 1.35 J/cm2 group caused mild corneal injury,with damage reaching the corneal epithelial layer.In the 2.16 J/cm2 group,the corneal injury presented as dense punctate distribution,with damage extending from the epithelial layer to the superficial stroma.The number of ephrin type-A receptor 2(EphA2)protein-stained cells was relatively small,and the staining was light,showing a weak positive result.In the 4.32 J/cm2 and 6.48 J/cm2 groups,the corneal injury was irreversible,with damage gradually progressing from the corneal epithelial layer and superficial stroma to the endothelial layer.The number of EphA2 protein-stained cells was relatively large,and the staining was dark,showing a strong positive result.Conclusion This study comprehensively e-valuates the dose-dependent injury effects of UVB on HCET cells and New Zealand white rabbit cor-neas through cell and animal experiments.It elucidates that UVB radiation could induce corneal cell DNA damage,promote inflammatory responses,and trigger apoptosis by upregulating γ-phosphoryla-ted histone H2AX(γH2AX)and EphA2.The self-repair ability and process of corneal injury are preliminarily explored,providing a basis for further research on mechanisms of corneal injury caused by ultraviolet radiation and the development of protective drugs.

AIM:To investigate the role of S100 calcium-binding protein A8(S100A8)in a canine model of atrial fibrillation(AF)induced by obstructive sleep apnea(OSA).METHODS:Ten adult Beagle dogs were randomly as-signed to OSA(n=5)and control(n=5)groups.The OSA model was established by daily tracheal intubation with alternat-ing airway obstruction and ventilation recovery for 4 h per day,sustained over 12 weeks.Model validation was conducted through arterial blood gas analysis,airway pressure monitoring,and esophageal pressure measurements.Open-chest elec-trophysiological studies were performed to assess atrial effective refractory period(ERP),dispersion of ERP(dERP),and AF inducibility.Tandem mass tag-based quantitative proteomics was used to identify differentially expressed proteins in atrial tissue.Key protein expression and localization were verified using immunohistochemistry and immunofluorescence.RESULTS:Compared with the control group,the OSA group exhibited significantly lower arterial blood pH and partial pressure of oxygen,and higher partial pressure of carbon dioxide in arterial blood,confirming successful model establish-ment.Histopathological analysis revealed disorganized cardiomyocyte architecture,fatty degeneration,inflammatory cell infiltration,and a significant increase in myocardial fibrosis in the OSA group(P<0.05).Electrophysiological data showed increased AF inducibility and dERP,and decreased ERP(P<0.05).Proteomic analysis identified 267 differen-tially expressed proteins,including 128 up-regulated and 139 down-regulated proteins.Immunohistochemical analysis showed significant upregulation of S100A8,S100A9,myeloperoxidase,and nuclear factor-κB p65(P<0.05),while im-munofluorescence demonstrated increased expression of matrix metalloproteinase-9 and transforming growth factor-β1 in the OSA group(P<0.01).CONCLUSION:The OSA promotes upregulation of S100A8 in myocardial tissue,enhances atrial electrical remodeling and fibrosis,and increases susceptibility to AF.These findings suggest that S100A8 may play a key role in the pathogenesis and progression of OSA-related AF.

Objective:To investigate the association between serum thyroid-stimulating hormone(TSH) level and the 10-year risk of atherosclerotic cardiovascular disease(ASCVD) in men over 50 years old with type 2 diabetes mellitus(T2DM).Methods:This study included male T2DM patients aged≥50 years, diagnosed at the First Hospital of Lanzhou University between July 2021 and March 2022. Patients were categorized into three groups based on serum TSH level: elevated TSH group(T3, TSH>5.91 mIU/L) and normal TSH group, which was further divided into T1(0.56 mIU/L≤TSH<3.24 mIU/L) and T2(3.24 mIU/L≤TSH≤5.91 mIU/L) group. The 10-year ASCVD risk index was compared across groups. Spearman correlation and multiple linear regression analyses were used to assess the independent association between TSH level and 10-year ASCVD risk index. Results:A total of 490 male T2DM patients aged≥50 years were included(T1: 310, T2: 131, T3: 49). The 10-year ASCVD risk index was significantly higher in T3 group than that in T1 group(18.40% vs 13.90%, χ2=9.47, P<0.05). Serum TSH level showed a positive correlation with the 10-year ASCVD risk( r=0.144, P<0.05). After adjusting for confounders such as age, hypertension, lipid profile, diabetes duration, aspartate aminotransferase, albumin, lactate dehydrogenase, estimated glomerular filtration rate, creatinine, and phosphorus, multiple linear regression confirmed that TSH level was independently associated with the 10-year ASCVD risk index( β=0.23, 95% CI 0.02-0.45). Conclusions:Higher serum TSH level is independently associated with an increased 10-year ASCVD risk in men over 50 years old with T2DM. Regular TSH monitoring may aid in cardiovascular risk stratification in this population.

Objective:To explore cortical activation during the obstacle avoidance task in convalescent stroke patients,and examine the effect of obstacle avoidance difficulty on brain activation.Method:A total of 20 convalescent stroke patients were recruited to perform various motor tasks,including walking,simple obstacle avoidance,difficult obstacle avoidance,and motor imagery.Functional near-infrared spectroscopy(fNIRS)was used to detect the oxygenated hemoglobin concentration in the prefrontal cortex(PFC),premotor cortex(PMC)and supplementary motor area(SMA)of the patients.Additional relevant sec-ondary indicators were evaluated and collected.Statistical analysis was performed without grouping and with grouping.Result:The activation levels of bilateral PFC,PMC and SMA during the dynamic task were significantly dif-ferent from those during the static tasks(P＜0.05),with the highest activation observed in the PFC.There were significant differences between simple and difficult obstacle avoidance tasks in the unaffected-side SMA(P＜0.05).In addition,there was a linear positive correlation between the peak activation level of PMC on the unaffected side and Tinetti score(P＜0.05).Conclusion:Bilateral PFC,PMC and SMA are involved in limb movement in convalescent stroke patients,with PFC showing the highest level of activation.In addition,SMA on the unaffected side may contribute to regulating the difficulty of obstacle avoidance.Moreover,the peak activation level of PMC on the unaffected side is associated with balance and walking function.

To construct a safe and effective multi-epitope vaccine against the S1 protein of chicken infectious bronchitis virus(IBV).In this study,homologous and non-homologous dominant epitopes of IBV M41,T,QX and H120 virulent strain S1 proteins were screened by various online bioprediction software,respectively,and a new peptide W with high immunogenicity was construc-ted by connecting the screened B-cell and T-cell epitopes with a linker peptide.W was ligated to the truncated sequence of the four viral strains by T2A yietding to the eukaryotic expression vector pEGFP-N1,and it was identified by PCR and double digestion,the obtained recombinant plasmid was transfected into HEK293A cells and target protein expression was measured by Western blot.The constructed plasmid was injected intramuscularly twice to detect the antibody level,cytokine level,and peripheral blood T cell subsets were detected after two immunizations.The epitope pro-tein W was successfully constructed,which was structurally stable,antigenic,and soluble;the re-combinant plasmid pEGFP-WMQtH,pEGFP-W,and pEGFP-MQtH matched the expected size;anti-IBV IgG antibody levels in pEGFP-N1 was increased greatly compared to the PBS group.cyto-kines IL-2,and γ interferon(IFN-γ)were increased greatly(P＜0.05);peripheral blood CD4+/CD8a value(P＜0.05)was increased greatly.The W epitope protein was successfully constructed,which can effectively activate the humoral immunity and cellular immunity against four infectious bronchitis viruses(IBV),laying a foundation for the development of an effective vaccine against IB.