Objective To evaluate the effectiveness of bronchial artery embolization(BAE)combined with surgical lobectomy in treating patients with refractory hemoptysis caused by bronchiectasis.Methods The clinical data of 168 patients with bronchiectasis and refractory hemoptysis,who were treated at the Wuhan Jinyintan Hospital of China from January 2018 to January 2022,were retrospectively analyzed.Of the 168 patients,91 underwent lobectomy(control group),and 71 underwent BAE combined with lobectomy(observation group).The therapeutic efficacy,intraoperative blood loss,surgical operation time,postoperative 3-day drainage volume,length of hospital stay,hemoptysis recurrence rate,and complications were compared between the two groups.Results In the observation group,the clinical efficacy was higher than that in the control group,while the intraoperative blood loss,operation time,length of hospital stay,postoperative 3-day drainage volume and recurrence rate were lower than those in the control group(all P＜0.05).No statistically significant difference in the incidence of complications existed between the two groups(P＞0.05).Conclusion In treating patients with refractory hemoptysis due to bronchiectasis,BAE combined with lobectomy can improve the therapeutic efficacy while not increasing the risk of complications.

Objective:To explore the predictive value of serum Dickkopf-related protein 1 (DKK1) and chemokine 21 (CCL21) expression for the pulmonary fibrosis progression in patients with rheumatoid arthritis associated interstitial lung disease (RA-ILD).Methods:A prospective study method was used. One hundred and eight patients with RA-ILD (RA-ILD group) and 108 patients with simple rheumatoid arthritis (RA group) from September 2020 to July 2023 in Jincheng People's Hospital were selected. The patients with RA-ILD were treated with disease-modifying antirheumatic drugs and anti fibrotic drugs. Before treatment, the serum DKK1, CCL21, C-reactive protein (CRP), anti cyclic citrullinated peptide antibody (ACPA), rheumatoid factor (RF), erythrocyte sedimentation rate (ESR) salivary liquefied glycan antigen 6 (KL-6) were detected; the 28 joints disease activity score (DAS28) and Warrick score were assessed. The patients with RA-ILD were followed up for 1 year, and the occurrence of pulmonary fibrosis progression was recorded. The patients with pulmonary fibrosis progression were included in the progressive subgroup and vice versa in the stable subgroup. Multivariate Logistic regression was used to analyze the independent risk factors for predicting pulmonary fibrosis progression within 1 year in patients with RA-ILD. The predictive value of serum DKK1 and CCL21 for predicting the pulmonary fibrosis progression within 1 year in patients with RA-ILD was analyzed by receiver operating characteristic (ROC) curve. The decision curve of serum DKK1 and CCL21 to predict the pulmonary fibrosis progression within 1 year in patients with RA-ILD was plotted using the R language package.Results:The DKK1 in RA-ILD group was significantly lower than that in RA group: (76.02 ± 9.80) ng/L vs. (86.44 ± 9.26) ng/L, the CCL21 was significantly higher than that in RA group: (202.02 ± 25.86) ng/L vs. (172.42 ± 18.35) ng/L, and there were statistical differences ( P<0.01). The patients with RA-ILD were followed up for 1 year, 25 cases (23.15%) developed pulmonary fibrosis progression (progressive subgroup), and 83 cases did not develop pulmonary fibrosis progression (stable subgroup). The Warrick score, CCL21, ACPA and KL-6 in progressive subgroup were significantly higher than those in stable subgroup: (11.80 ± 3.56) scores vs. (7.75 ± 1.81) scores, (224.53 ± 27.26) ng/L vs. (195.25 ± 21.32) ng/L, (452.46 ± 38.35) kU/L vs. (414.37 ± 31.63) kU/L and (466.35 ± 42.32) kU/L vs. (416.82 ± 38.34) kU/L, the DKK1 was significantly lower than that in stable subgroup: (68.65 ± 8.24) ng/L vs. (78.24 ± 9.15) ng/L, and there were statistical differences ( P<0.01); there were no statistical differences in DAS28, RF, ERS and CRP between the two subgroups ( P>0.05). Multivariate Logistic regression analysis result showed that Warrick score, DKK1, CCL21, ACPA and KL-6 were independent risk factors for predicting pulmonary fibrosis progression within 1 year in patients with RA-ILD ( OR = 2.601, 0.752, 1.110, 1.062 and 1.038; 95% CI 1.227 to 5.517, 0.578 to 0.978, 1.019 to 1.209, 1.009 to 1.118 and 1.001 to 1.076; P<0.05). The ROC curve analysis result showed that the area under the curve of DKK1 and CCL21 for predicting pulmonary fibrosis progression within 1 year in patients with RA-ILD was 0.779 and 0.795, with optimal cutoff values of 74.750 and 207.615 ng/L. The area under the curve of DKK1 combined with CCL21 for predicting pulmonary fibrosis progression within 1 year in patients with RA-ILD was 0.873. The decision curve analysis result showed that the DKK1 combined with CCL21 for predicting pulmonary fibrosis progression within 1 year could improve the predictive value (the maximum benefit rate was 23.15%). Conclusions:Compared with RA patients, RA-ILD patients have decreased serum DKK1 levels and increased CCL21 levels. In patients with RA-ILD, the low expression of DKK1 and high expression of CCL21 are the risk factors of pulmonary fibrosis progression, and detecting serum levels of DKK1 and CCL21 can predict the risk of pulmonary fibrosis progression.

Osteosarcoma(OS)is a common primary malignant bone tumor with high mortality,disability,metastasis,and recurrence rates and a complex pathogenesis,Resulting in serious effects on patient quality of life and huge economic burdens on families and society.Traditional Chinese medicine(TCM)has"multi-target,multi-component and multi-pathway"characteristics.Recent studies using animal and cell models demonstrated that the mechanism of OS progression was related to Notch,mitogen-activated protein kinase,Wnt/β-catenin,phosphatidylinositol 3-kinase/AKT,Hedgehog and nuclear factor-κB,transforming growth factor-β/Smad and signal transducer and activator of transcription pathways.TCM can exert anti-tumor effects by influencing biological processes such as cell proliferation,migration,invasion,apoptosis,and autophagy via interfering with the above signaling pathways.This review considers the roles of these signaling pathways in OS and summarizes the current research status of TCM interventions in the prevention and treatment of OS,with the aim of providing a reference for future studies of TCM treatments of OS and to provide new ideas for its clinical treatment.

Objective:To construct a sizeable naive human Fab phage display antibody library to screen high-affinity specific antibodies in vitro. Methods:Total RNA was extracted from peripheral blood mononuclear cells (PBMCs) of 126 healthy individuals, subsequently reverse-transcribed into cDNA, and used as a template. PCR amplification was performed to obtain the V H from IgG, IgM and light chain κ, λ, separately, with the initial PCR products serving as templates for a second round of PCR. Overlap extension PCR was employed to generate fragments of the κ and λ light chains. These fragments were ligated with the phage vector pNC3, which harbors the variable region 1 of the heavy chain, to construct a recombinant phage plasmid. This plasmid was then electroporated into competent Escherichia Coli TG1 cells to establish a naive human Fab phage display antibody library. One hundred clones were randomly selected for identification and sequencing, and antibody gene polymorphisms were analyzed using the IMGT database and MAFFT software. Recombinant α-hemolysin from Staphylococcus aureus was utilized to screen Fab antibody fragments through biopanning of the antibody library, followed by random selection of phage ELISA-identified clones. The positive clones (antigen A450∶blank control A450≥2.1) were sequenced. Results:Two large naive Fab phage display antibody libraries were successfully constructed, in which the capacity of κ and λ chain antibody libraries were 1.25×10 11 and 1.54×10 11, respectively. The titers for two antibody libraries were 6.04×10 13 CFU/ml and 3.50×10 13 CFU/ml. The positive transformation insertion rates for κ and λ chain antibody libraries were 96% (96/100) and 100% (100/100), respectively. Sequence analysis revealed that all antibody sequences were unique. The amino acid sequences in the skeletal region were relatively conserved. In contrast, significant variations in the length of the complementarity determining region (CDR) were found, and the diversity of amino acid sequence of the complementary determining region was high, especially the CDR3. Analysis using the IMGT database indicated that the sequences exhibited a broad distribution across variable-diversity-joining gene families. After six rounds of panning, specific phage antibodies enrichment targeting α-hemolysin were achieved. A total of 142 monoclonal antibodies were sequenced, yielding 8 distinct Fab antibody sequences. Conclusion:This study successfully constructed two naive human Fab phage display antibody libraries with large capacity and good diversity, which can be used for screening human antibodies for serum epidemiology.

Objective:To construct a sizeable naive human Fab phage display antibody library to screen high-affinity specific antibodies in vitro. Methods:Total RNA was extracted from peripheral blood mononuclear cells (PBMCs) of 126 healthy individuals, subsequently reverse-transcribed into cDNA, and used as a template. PCR amplification was performed to obtain the V H from IgG, IgM and light chain κ, λ, separately, with the initial PCR products serving as templates for a second round of PCR. Overlap extension PCR was employed to generate fragments of the κ and λ light chains. These fragments were ligated with the phage vector pNC3, which harbors the variable region 1 of the heavy chain, to construct a recombinant phage plasmid. This plasmid was then electroporated into competent Escherichia Coli TG1 cells to establish a naive human Fab phage display antibody library. One hundred clones were randomly selected for identification and sequencing, and antibody gene polymorphisms were analyzed using the IMGT database and MAFFT software. Recombinant α-hemolysin from Staphylococcus aureus was utilized to screen Fab antibody fragments through biopanning of the antibody library, followed by random selection of phage ELISA-identified clones. The positive clones (antigen A450∶blank control A450≥2.1) were sequenced. Results:Two large naive Fab phage display antibody libraries were successfully constructed, in which the capacity of κ and λ chain antibody libraries were 1.25×10 11 and 1.54×10 11, respectively. The titers for two antibody libraries were 6.04×10 13 CFU/ml and 3.50×10 13 CFU/ml. The positive transformation insertion rates for κ and λ chain antibody libraries were 96% (96/100) and 100% (100/100), respectively. Sequence analysis revealed that all antibody sequences were unique. The amino acid sequences in the skeletal region were relatively conserved. In contrast, significant variations in the length of the complementarity determining region (CDR) were found, and the diversity of amino acid sequence of the complementary determining region was high, especially the CDR3. Analysis using the IMGT database indicated that the sequences exhibited a broad distribution across variable-diversity-joining gene families. After six rounds of panning, specific phage antibodies enrichment targeting α-hemolysin were achieved. A total of 142 monoclonal antibodies were sequenced, yielding 8 distinct Fab antibody sequences. Conclusion:This study successfully constructed two naive human Fab phage display antibody libraries with large capacity and good diversity, which can be used for screening human antibodies for serum epidemiology.

Osteosarcoma(OS)is a common primary malignant bone tumor with high mortality,disability,metastasis,and recurrence rates and a complex pathogenesis,Resulting in serious effects on patient quality of life and huge economic burdens on families and society.Traditional Chinese medicine(TCM)has"multi-target,multi-component and multi-pathway"characteristics.Recent studies using animal and cell models demonstrated that the mechanism of OS progression was related to Notch,mitogen-activated protein kinase,Wnt/β-catenin,phosphatidylinositol 3-kinase/AKT,Hedgehog and nuclear factor-κB,transforming growth factor-β/Smad and signal transducer and activator of transcription pathways.TCM can exert anti-tumor effects by influencing biological processes such as cell proliferation,migration,invasion,apoptosis,and autophagy via interfering with the above signaling pathways.This review considers the roles of these signaling pathways in OS and summarizes the current research status of TCM interventions in the prevention and treatment of OS,with the aim of providing a reference for future studies of TCM treatments of OS and to provide new ideas for its clinical treatment.

Objective:To explore the predictive value of serum Dickkopf-related protein 1 (DKK1) and chemokine 21 (CCL21) expression for the pulmonary fibrosis progression in patients with rheumatoid arthritis associated interstitial lung disease (RA-ILD).Methods:A prospective study method was used. One hundred and eight patients with RA-ILD (RA-ILD group) and 108 patients with simple rheumatoid arthritis (RA group) from September 2020 to July 2023 in Jincheng People's Hospital were selected. The patients with RA-ILD were treated with disease-modifying antirheumatic drugs and anti fibrotic drugs. Before treatment, the serum DKK1, CCL21, C-reactive protein (CRP), anti cyclic citrullinated peptide antibody (ACPA), rheumatoid factor (RF), erythrocyte sedimentation rate (ESR) salivary liquefied glycan antigen 6 (KL-6) were detected; the 28 joints disease activity score (DAS28) and Warrick score were assessed. The patients with RA-ILD were followed up for 1 year, and the occurrence of pulmonary fibrosis progression was recorded. The patients with pulmonary fibrosis progression were included in the progressive subgroup and vice versa in the stable subgroup. Multivariate Logistic regression was used to analyze the independent risk factors for predicting pulmonary fibrosis progression within 1 year in patients with RA-ILD. The predictive value of serum DKK1 and CCL21 for predicting the pulmonary fibrosis progression within 1 year in patients with RA-ILD was analyzed by receiver operating characteristic (ROC) curve. The decision curve of serum DKK1 and CCL21 to predict the pulmonary fibrosis progression within 1 year in patients with RA-ILD was plotted using the R language package.Results:The DKK1 in RA-ILD group was significantly lower than that in RA group: (76.02 ± 9.80) ng/L vs. (86.44 ± 9.26) ng/L, the CCL21 was significantly higher than that in RA group: (202.02 ± 25.86) ng/L vs. (172.42 ± 18.35) ng/L, and there were statistical differences ( P<0.01). The patients with RA-ILD were followed up for 1 year, 25 cases (23.15%) developed pulmonary fibrosis progression (progressive subgroup), and 83 cases did not develop pulmonary fibrosis progression (stable subgroup). The Warrick score, CCL21, ACPA and KL-6 in progressive subgroup were significantly higher than those in stable subgroup: (11.80 ± 3.56) scores vs. (7.75 ± 1.81) scores, (224.53 ± 27.26) ng/L vs. (195.25 ± 21.32) ng/L, (452.46 ± 38.35) kU/L vs. (414.37 ± 31.63) kU/L and (466.35 ± 42.32) kU/L vs. (416.82 ± 38.34) kU/L, the DKK1 was significantly lower than that in stable subgroup: (68.65 ± 8.24) ng/L vs. (78.24 ± 9.15) ng/L, and there were statistical differences ( P<0.01); there were no statistical differences in DAS28, RF, ERS and CRP between the two subgroups ( P>0.05). Multivariate Logistic regression analysis result showed that Warrick score, DKK1, CCL21, ACPA and KL-6 were independent risk factors for predicting pulmonary fibrosis progression within 1 year in patients with RA-ILD ( OR = 2.601, 0.752, 1.110, 1.062 and 1.038; 95% CI 1.227 to 5.517, 0.578 to 0.978, 1.019 to 1.209, 1.009 to 1.118 and 1.001 to 1.076; P<0.05). The ROC curve analysis result showed that the area under the curve of DKK1 and CCL21 for predicting pulmonary fibrosis progression within 1 year in patients with RA-ILD was 0.779 and 0.795, with optimal cutoff values of 74.750 and 207.615 ng/L. The area under the curve of DKK1 combined with CCL21 for predicting pulmonary fibrosis progression within 1 year in patients with RA-ILD was 0.873. The decision curve analysis result showed that the DKK1 combined with CCL21 for predicting pulmonary fibrosis progression within 1 year could improve the predictive value (the maximum benefit rate was 23.15%). Conclusions:Compared with RA patients, RA-ILD patients have decreased serum DKK1 levels and increased CCL21 levels. In patients with RA-ILD, the low expression of DKK1 and high expression of CCL21 are the risk factors of pulmonary fibrosis progression, and detecting serum levels of DKK1 and CCL21 can predict the risk of pulmonary fibrosis progression.

Objectives: . The annual prevalence of chronic rhinosinusitis (CRS) is increasing, and the lack of effective treatments imposes a substantial burden on both patients and society. The formation of nasal polyps in patients with CRS is closely related to tissue remodeling, which is largely driven by the epithelial-mesenchymal transition (EMT). MicroRNA (miRNA) plays a pivotal role in the pathogenesis of numerous diseases through the miRNA-mRNA regulatory network; however, the specific mechanism of the miRNAs involved in the formation of nasal polyps remains unclear. Methods: . The expression of EMT markers and Smad3 were detected using western blots, quantitative real-time polymerase chain reaction, and immunohistochemical and immunofluorescence staining. Differentially expressed genes in nasal polyps and normal tissues were screened through the Gene Expression Omnibus database. To predict the target genes of miR-145-5p, three different miRNA target prediction databases were used. The migratory ability of cells was evaluated using cell migration assay and wound healing assays. Results: . miR-145-5p was associated with the EMT process and was significantly downregulated in nasal polyp tissues. In vitro experiments revealed that the downregulation of miR-145-5p promoted EMT. Conversely, increasing miR-145-5p levels reversed the EMT induced by transforming growth factor-β1. Bioinformatics analysis suggested that miR-145-5p targets Smad3. Subsequent experiments confirmed that miR-145-5p inhibits Smad3 expression. Conclusion . Overall, miR-145-5p is a promising target to inhibit nasal polyp formation, and the findings of this study provide a theoretical basis for nanoparticle-mediated miR-145-5p delivery for the treatment of nasal polyps.

Objective Based on the clinical characteristics of refractory epilepsy in traditional Chinese and Western medicine,this study compares the existing animal models of refractory epilepsy,evaluates the effectiveness and limitations of the models,and explores the integration of traditional Chinese and Western medicine theory and optimization of model construction.Our aim is to provide new research directions for elucidating the mechanism and prevention of refractory epilepsy.Methods By reviewing relevant literature and summarizing the available data,we examined current refractory epilepsy animal models,focusing on their replication methods,animal strains,as well as advantages and disadvantages of animal models.Based on the Western medicine diagnostic criteria and traditional Chinese medicine syndrome differentiation criteria for refractory epilepsy,the coincidence of existing animal models and clinical symptoms were analyzed and evaluated.Results Our review of existing refractory epilepsy animal models revealed that electrical and chemical kindling are common modeling methods.The lithium-pilocarpine model and the intrahippocampal kainic acid model show high congruence with the symptom characteristics of traditional Chinese and Western medical clinical diagnosis and are widely used.Existing models mostly focus on simulating the pathological changes of refractory epilepsy,while neglecting the factors such as congenital endowment and emotional disorders,which have been emphasized in traditional Chinese medicine.Therefore,there are still certain limitations in simulating the complexity of etiology,clinical heterogeneity,and drug treatment responsiveness of refractory epilepsy.Conclusion Although replicating animal models can reflect their pathogenesis to some extent,there are still significant differences between them and the natural pathological state and clinical manifestations of the body.The existing animal models of refractory epilepsy mostly use electrical stimulation or chemical drug induction,which has certain advantages in simulating epileptic persistence and drug resistance.However,there are still limitations such as a single induction method and insufficiently complex pathological changes.In the future,efforts can be made to integrate traditional Chinese medicine syndrome differentiation and conventional electrical stimulation or chemical drug induction methods.By simulating multiple pathogenic factors,a refractory epilepsy animal model covering different traditional Chinese medicine syndrome types can be established.At the same time,multi-dimensional indicators such as behavior,electrophysiology,imaging,and histopathology can be used to construct a more comprehensive evaluation system,in order to improve the clinical relevance and translational application value of the model.During the modeling process,liver depression syndrome models can be established through methods such as tail clamping,chronic restraint,and single cage feeding with neck shackle.A model of phlegm coagulation syndrome can be established using high-fat feed feeding method.A model of qi stagnation and blood stasis syndrome can be established using tail clip and adrenaline injection.A model of essence exhaustio due to kidney deficiency syndrome can be established by combining panic induced kidney injury with fatigue swimming.It is also possible to simulate changes of yin-yang in the environment by altering lighting and temperature conditions and study the impact of environmental changes on traditional Chinese medicine animal models.The aim of this study is to provide more ideas for the treatment and research of refractory epilepsy.

Objective Network pharmacology,molecular docking,metabolomics and experimental verification were used to investigate the effect of Gegen Decoction on epileptic seizure under cerebral hypoxia.Methods The core targets of Gegen Decoction,epilepsy and cerebral hypoxia were screened by network pharmacology,and the correlation between ligand and receptor was verified by molecular docking.Further animal experiments were carried out to verify the effect of Gegen Decoction on the rat model with epilepsy accompanied by cerebral hypoxia,which was established by lithium chlorine-pilocarpine method combined with unilateral common carotid artery ligation and placing in a closed chamber with oxygen content of 10%-15%.Sixty rats were randomly divided into blank group,model group,phenytoin sodium(26 g·kg-1)group,high-,medium-and low-dose(10.62,5.31,2.655 g·kg-1)Gegen Decoction groups.After treatment,the number of epileptic seizures rats in each group was counted,and the recovery of nerve function and epileptic seizures were evaluated.HE staining was used to observe the morphological changes of the CA1 region of hippocampus in rats.The expression of interleukin-6(IL-6)and interleukin-17(IL-17)were detected by immunohistochemistry.The changes of brain neurotransmitters were analyzed by targeted metabolomics.Results Network pharmacological results suggested that 128 active components and 228 targets were obtained.A PPI network map of drug-disease was constructed by STRING.The results showed that STAT3,IL-6 and AKT1 were the core targets.GO enrichment for biological processes(BP)involves responses to external irritant,oxygen levels,hypoxia and metabolic processes of reactive oxygen species.Cell components(CC)mainly involve in the impact on cell membrane and protein kinase complex,while molecular function(MF)involves in influence on the binding of ubiquitin-like protein and ubiquitin-like protein ligase.The key pathways of Gegen Decoction in the treatment of hypoxic-induced epilepsy in the brain,which were analyzed by KEGG,involved lipid and atherosclerosis signaling pathway,IL-17 signaling pathway,Th-17 signaling pathway and so on.The experimental results showed that the number of seizures in the Gegen Decoction group was significantly decreased compared with that in the model group(P＜0.01),the morphology and structure of hippocampal cells were improved to varying degrees,and cell vacuolation was reduced.The expression of IL-17A and IL-6 in all treatment groups was lower than those in model group,and there was statistical significance in medium-dose Gegen Decoction group(P＜0.01,P＜0.05).Brain metabolomics test showed that compared with model group,monoamine neurotransmitters including 5-hydroxytryptophan(5-HTP)and norepinephrine(NE)were increased in high-dose Gegen Decoction group,while tryptophan metabolite kynurenine(Kyn)was decreased.Conclusion Gegen Decoction can reduce the levels of serum inflammatory factors IL-6 and IL-17A in epileptic rats under hypoxia.Moreover,Gegen Decoction can reduce epileptic seizures by improving hypoxia-induced inflammatory response,increasing the content of monoamine neurotransmitter(5-HTP and NE),as well as reducing the content of tryptophan metabolite Kyn and the toxin of tryptophan metabolism pathway.