[This corrects the article DOI: 10.1016/j.apsb.2019.01.013.].

Venous system diseases mainly include varicose veins and venous malformations of lower limbs and the genital system. Most of them are chronic diseases that cause serious clinical symptoms to patients and affect their health and quality of life. Sclerotherapy has become the first-line therapy for venous system diseases. However, there are problems such as incomplete fibrosis and vascular recanalization after sclerotherapy, and improper operation will cause serious adverse consequences. Therefore, exploring a safe and effective sclerotherapy strategy is essential for developing clinically successful sclerotherapy. To solve the above problems, we proposed a new sclerotherapy strategy with a dual mechanism of "vascular damage and plasmin (PLA) system inhibition." We intended to construct a novel cationic surfactant (AEO_x-TA) by reacting tranexamic acid (TA), a parent structure, with fatty alcohol polyoxyethylene ether (AEO_x) by ester bonds. AEO_x-TA could damage vascular endothelium and initiate a coagulation cascade effect to induce thrombus. Furthermore, AEO_x-TA could be degraded by esterase and release the parent drug, TA, which could inhibit the PLA system to inhibit the degradation of thrombus and extracellular matrix and promote the process of vascular fibrosis. In addition, such surfactant-based sclerosants have foam-forming properties, and they can be blended with polyvinyl alcohol (PVA) to prepare a highly stable foam formulation (AEO_x-TA/P), which can achieve a precise drug delivery and prolonged drug retention time, thereby improving drug efficacy and reducing the risk of ectopic embolism. Overall, the novel cationic surfactant AEO_x-TA provides a new avenue to resolve the bottleneck: surfactant sclerosants' efficiency is relatively low in the current sclerotherapy.

Acute lung injury (ALI) has been a kind of acute and severe disease that is mainly characterized by systemic uncontrolled inflammatory response to the production of huge amounts of reactive oxygen species (ROS) in the lung tissue. Given the critical role of ROS in ALI, a Fe₃O₄ loaded bovine serum albumin (BSA) nanocluster (BF) was developed to act as a nanomedicine for the treatment of ALI. Combining with NIR irradiation, it exhibited excellent ROS scavenging capacity. Significantly, it also displayed the excellent antioxidant and anti-inflammatory functions for lipopolysaccharides (LPS) induced macrophages (RAW264.7), and Sprague Dawley rats via lowering intracellular ROS levels, reducing inflammatory factors expression levels, inducing macrophage M2 polarization, inhibiting NF-κB signaling pathway, increasing CD4⁺/CD8⁺ T cell ratios, as well as upregulating HSP70 and CD31 expression levels to reprogram redox homeostasis, reduce systemic inflammation, activate immunoregulation, and accelerate lung tissue repair, finally achieving the synergistic enhancement of ALI immunotherapy. It finally provides an effective therapeutic strategy of BF + NIR for the management of inflammation related diseases.

Objective:To evaluate the efficacy of dexzopiclone combined with repetitive transcranial magnetic stimulation (rTMS) for post-stroke sleep disorders (PSSD) and its effects on sleep electroencephalography and neuroelectrophysiological parameters.Methods:180 PSSD patients admitted to Yulin First Hospital (December 2019-December 2020) were randomized into medication group ( n=90, dexzopiclone) and rTMS group ( n=90, dexzopiclone+rTMS). Outcomes included clinical efficacy, sleep quality [Pittsburgh Sleep Quality Index (PSQI), Self-Rating Scale for Sleep (SRSS)], electroencephalogram parameters [sleep latency (SL), total sleep time (TST), sleep efficiency], neuroelectrophysiological indices [bilateral motor thresholds], biochemical markers [S100β protein, brain-derived neurotrophic factor (BDNF)], adverse reactions, and 1-year recurrence rate. Results:After treatment, the rTMS group had a significantly higher efficacy (92.22%, 83/90) compared to the medication group (81.11%, 73/90) ( χ2=4.81, P=0.028). Compared to post-treatment, PSQI decreased to [7.47 (6.63,8.69) points vs. 13.56 (3.15,19.51) points] in the rTMS group and [9.56 (8.59,11.11) points vs. 14.01 (2.58,20.55) points] in the medication group ( U=8.82, 8.38; both P<0.001). SRSS scores decreased to [(15.23±2.88) points vs. (28.81±4.99) points) ( t=32.74, P<0.001) and (19.54±3.59) points vs. (28.15±4.71) points) ( t=19.68, P<0.001)], respectively. Compared to before treatment, the rTMS group had lower scores than the medication group ( U=7.80, t=8.88; P<0.01). SL reduced to (27.65±5.12) min vs. (44.92±8.21) min ( t=24.58, P<0.001) in rTMS group and (38.78±6.34) min vs. (45.23±8.56) min ( t=8.24, P<0.001) in medication groups. TST increased to (348.50±56.27) min vs. (299.21±52.14) min ( t=8.63, P<0.001) and (311.42±55.39) min vs. (275.65±52.23) min ( t=6.31, P<0.001), sleep efficiency improved to (70.96±12.33%) vs. (57.43±10.98%) ( t=11.01, P<0.001) and (62.37±11.28%) vs. (56.78±10.72%) ( t=4.82, P<0.001), while the rTMS group showed greater improvement ( t=4.46, 4.88; P<0.001). Compared to before treatment, left motor thresholds decreased to (55.65±2.48)% vs. (64.37±3.12)% and (61.76±3.17)% vs. (65.12±3.45)% post-treatment ( t=29.54, 9.63; P<0.001), with significant intergroup differences ( t=14.40, P<0.001). Right motor thresholds decreased to (56.28±3.45)% vs. (67.42±3.61)% and (60.89±3.39)% vs. (66.62±3.54)% ( t=29.94, 15.69; P<0.001), with intergroup differences ( t=9.04, P<0.01). Compared to before treatment, serum S100β levels decreased in both group post-treatment (23.65±3.23) ng/L vs. (65.37±7.89) ng/L and (29.76±3.61) ng/L vs. (63.48±7.34) ng/L ( t=71.19, 58.43; P<0.001), with lower levels in the rTMS group ( t=11.97, P<0.001). Compared to before treatment, BDNF increased to (554.48±69.78) ng/L vs. (502.82±64.11) ng/L and (524.90±67.66) ng/L vs. (505.12±64.45) ng/L post-treatment ( t=7.32, 2.84; P=0.001, 0.030), with higher levels in the rTMS group ( t=2.89, P=0.004). Adverse reaction rates were 4.44% (4/90) and 3.33% (3/90), respectively ( χ2=0.15, P=0.700). Recurrence rates were 1.18% (1/85) in the rTMS group and 3.90% (3/77) in the medication group ( χ2=0.37, P=0.544). Conclusion:The combination of dexzopiclone and repetitive transcranial magnetic stimulation (rTMS) demonstrates significant advantages and efficacy in treating post-stroke sleep disorders (PSSD). This approach comprehensively improves patients' sleep quality, EEG parameters and neuroelectrophysiological indicators while enhancing the regulatory effects of brain-derived neurotrophic factor (BDNF). Additionally, the therapy exhibits a favorable safety profile and prognosis.

This experiment was conducted to study the effects of replacing feed protein by Herme-tia illucens larvae meal on immune function,intestinal morphology and microflora of Sichuan white geese.A total of 64 healthy 1-day-old Sichuan white geese were randomly allocated into 4 groups with 4 replicates in each group and 4 geese in each replicate,namely the control group,the 2％HILM,4％HILM and 8％HILM groups fed diets contained 0％,2％,4％and 8％of HILM,re-spectively.The experimental period was 40 days.The results showed that compared with the con-trol group,8％HILM increased the levels of serum IgG1,IgG2a and complement C3,and the difference was statistically significant(P＜0.01).4％HILM significantly increased the expression level of CD4(P＜0.05),and 8％HILM significantly increased the expression level of IL-10(P＜0.05).The ratio of villus length to crypt depth(VH/CD)in the jejunum and ileum in 4％HILM group was significantly increased(P＜0.05).The SIgA level of jejunum was significantly increased in all HILM replacement groups(P＞0.05).The abundance of Bacteroides in 4％HILM group were extremely significantly increased(P＜0.01),and the abundance of Bilophila and Bilophila wadsworthia were significantly decreased in all HILM replacement groups(P＜0.05).In conclu-sion,HILM can enhance the immune function of Sichuan white geese,improve the intestinal mor-phology of jejunum and ileum,enhance the local mucosal immunity of jejunum,increase the abun-dance of beneficial bacteria in cecum and decrease the abundance of harmful bacteria in cecum,and protect intestinal health.

To explore the effect of Macleaya cordata extract(MCE)on growth performance and serum biochemistry of Sichuan White Geese,and to analyze its mechanism of action by network pharmacology and molecular docking technology combined with animal experiments verification.A total of 90 1-day-old healthy goslings were randomly divided into 5 groups with 18 goslings per group after 5 d of adaptive feeding.The control group(CON)was fed with basal diet,the antibiotic group(CTC)was supplemented with 450 mg/kg chlortetracycline premix,and the low MCE group(MCEL),medium MCE group(MCEM)and high MCE group(MCEH)were supple-mented with 200,300 and 400 mg/kg MCE,respectively.The experimental period was 21 d.On the basis of the above experiments,Network pharmacology and molecular docking technology were used to predict the core targets and signaling pathways of MCE to promote geese growth from the levels of antioxidant,immune and apoptosis,and the expression levels of the core target genes were detected by Real-time fluorescence quantitative PCR.The results showed that compared with the CON group,MCE supplementation could increase the average daily weight gain,decrease the ratio of feed to gain,significantly increase the contents of serum GH,T3,T4,TP and ALB(P＜0.05),and significantly decrease the contents of serum AST and TG(P＜0.05).Network pharmacology analysis predicted 2 active ingredient and 237 active ingredient targets,and concluded that the mechanism of MCE promoting the growth of Sichuan White Geese may be related to the role of 5 key targets such as SRC,HSP90AA1,CASP3,ESR1 and MAPK14,and the action of MAPK,apop-tosis and other signaling pathways.Molecular docking results showed that the active ingredients of sanguinarine and chelerythrine in MCE could act through MAPK14.The validation results of core targets showed that MCE could significantly reduce the mRNA expression levels of CytC,CASP2,CASP3 and CASP9 in spleen(P＜0.05)and significantly increase the mRNA expression levels of Mcl-1(P＜0.05).These results indicated that MCE could promote the growth performance of Si-chuan White Geese by regulating apoptosis,promoting the secretion of serum growth-related hor-mones and improving biochemical indicators.

Objective To obtain tree shrew Vasorin(VASN)recombinant protein through prokaryotic expression and purification,prepare monoclonal antibody against tree shrew VASN by immunizing mice with this protein,and preliminarily evaluate its application value.Methods Reverse transcription-polymerase chain reaction(RT-PCR)was used to amplify the full-length sequence of tree shrew VASN gene in vitro.The tree shrew VASN gene fragment was inserted into pET-30a vector to construct pET-30a-VASN recombinant plasmid.The recombinant plasmid was subjected to double digestion with BamH Ⅰ and Sal Ⅰfor identification,and its correctness was further verified by sequencing.The recombinant plasmid with correct sequencing was transformed into BL21(DE3)competent cells,and isopropyl β-D-thiogalactoside(IPTG)was used to induce expression of VASN recombinant protein.Proteins were separated by sodium dodecyl sulfate polyacrylamide gel electrophoresis(SDS-PAGE),and the VASN recombinant protein was purified by KCI.Purified recombinant protein was used to immunize BALB/c mice for four times,and serum antibody titer was detected by enzyme-linked immunosorbent assay(ELISA).Splenocytes from mice with serum antibody titer above 1:10 000 were used for cell fusion with myeloma cells.Hypoxanthine-aminopterin-thymidine(HAT)culture medium was first used to screen hybridoma cells.ELISA was used to screen positive hybridoma cell lines that could secrete specific antibodies,and monoclonal hybridoma cell lines were obtained by limiting dilution method.VASN monoclonal antibodies were prepared in large quantities by ascites induction method,purified using rProtein G,and the affinity and in vitro reaction specificity of the monoclonal antibodies were detected by ELISA and Western blotting.Results The full-length sequence of the tree shrew VASN gene was successfully amplified and the recombinant plasmid vector of tree shrew pET-30a-VASN was constructed.The sequence obtained by sequencing of the recombinant plasmid vector was identical to the tree shrew VASN target gene sequence.Recombinant protein VASN mainly existed in the form of inclusion bodies,and the purity after purification reached 90％,meeting the requirements of subsequent immunization experiments.After four immunizations with recombinant protein VASN,mouse serum antibody titer reached 1:729 000.Monoclonal positive hybridoma cell lines were obtained through ascites induction and purification,and the constant affinity value of monoclonal antibodies measured by ELISA reached 2.59x107 L/mol.Western blotting results showed that the tree shrew VASN monoclonal antibody could bind to tree shrew VASN recombinant protein,but it showed no binding reaction with porcine retinol-binding protein 4 recombinant protein,human VASN-leucine rich repeat recombinant protein,or bovine serum albumin.Anti-tree shrew VASN monoclonal antibody could specifically recognize VASN protein in tree shrew heart,liver,spleen,lung,kidney and muscle,with clear bands and clean background.Immunohistochemical detection results showed that this monoclonal antibody could recognize VASN protein in tree shrew spleen,lung,and tree shrew immortalized fibroblasts with high VASN mRNA expression levels,and the detection results were positive.Conclusion Monoclonal antibody against tree shrew VASN is successfully prepared.This antibody can be used for immunohistochemical detection of tree shrew immortalized fibroblasts,spleen tissue,and lung tissue,providing an important tool for further research on the function of VASN in tree shrew models.

To explore the effect of Macleaya cordata extract(MCE)on growth performance and serum biochemistry of Sichuan White Geese,and to analyze its mechanism of action by network pharmacology and molecular docking technology combined with animal experiments verification.A total of 90 1-day-old healthy goslings were randomly divided into 5 groups with 18 goslings per group after 5 d of adaptive feeding.The control group(CON)was fed with basal diet,the antibiotic group(CTC)was supplemented with 450 mg/kg chlortetracycline premix,and the low MCE group(MCEL),medium MCE group(MCEM)and high MCE group(MCEH)were supple-mented with 200,300 and 400 mg/kg MCE,respectively.The experimental period was 21 d.On the basis of the above experiments,Network pharmacology and molecular docking technology were used to predict the core targets and signaling pathways of MCE to promote geese growth from the levels of antioxidant,immune and apoptosis,and the expression levels of the core target genes were detected by Real-time fluorescence quantitative PCR.The results showed that compared with the CON group,MCE supplementation could increase the average daily weight gain,decrease the ratio of feed to gain,significantly increase the contents of serum GH,T3,T4,TP and ALB(P＜0.05),and significantly decrease the contents of serum AST and TG(P＜0.05).Network pharmacology analysis predicted 2 active ingredient and 237 active ingredient targets,and concluded that the mechanism of MCE promoting the growth of Sichuan White Geese may be related to the role of 5 key targets such as SRC,HSP90AA1,CASP3,ESR1 and MAPK14,and the action of MAPK,apop-tosis and other signaling pathways.Molecular docking results showed that the active ingredients of sanguinarine and chelerythrine in MCE could act through MAPK14.The validation results of core targets showed that MCE could significantly reduce the mRNA expression levels of CytC,CASP2,CASP3 and CASP9 in spleen(P＜0.05)and significantly increase the mRNA expression levels of Mcl-1(P＜0.05).These results indicated that MCE could promote the growth performance of Si-chuan White Geese by regulating apoptosis,promoting the secretion of serum growth-related hor-mones and improving biochemical indicators.

Objective To obtain tree shrew Vasorin(VASN)recombinant protein through prokaryotic expression and purification,prepare monoclonal antibody against tree shrew VASN by immunizing mice with this protein,and preliminarily evaluate its application value.Methods Reverse transcription-polymerase chain reaction(RT-PCR)was used to amplify the full-length sequence of tree shrew VASN gene in vitro.The tree shrew VASN gene fragment was inserted into pET-30a vector to construct pET-30a-VASN recombinant plasmid.The recombinant plasmid was subjected to double digestion with BamH Ⅰ and Sal Ⅰfor identification,and its correctness was further verified by sequencing.The recombinant plasmid with correct sequencing was transformed into BL21(DE3)competent cells,and isopropyl β-D-thiogalactoside(IPTG)was used to induce expression of VASN recombinant protein.Proteins were separated by sodium dodecyl sulfate polyacrylamide gel electrophoresis(SDS-PAGE),and the VASN recombinant protein was purified by KCI.Purified recombinant protein was used to immunize BALB/c mice for four times,and serum antibody titer was detected by enzyme-linked immunosorbent assay(ELISA).Splenocytes from mice with serum antibody titer above 1:10 000 were used for cell fusion with myeloma cells.Hypoxanthine-aminopterin-thymidine(HAT)culture medium was first used to screen hybridoma cells.ELISA was used to screen positive hybridoma cell lines that could secrete specific antibodies,and monoclonal hybridoma cell lines were obtained by limiting dilution method.VASN monoclonal antibodies were prepared in large quantities by ascites induction method,purified using rProtein G,and the affinity and in vitro reaction specificity of the monoclonal antibodies were detected by ELISA and Western blotting.Results The full-length sequence of the tree shrew VASN gene was successfully amplified and the recombinant plasmid vector of tree shrew pET-30a-VASN was constructed.The sequence obtained by sequencing of the recombinant plasmid vector was identical to the tree shrew VASN target gene sequence.Recombinant protein VASN mainly existed in the form of inclusion bodies,and the purity after purification reached 90％,meeting the requirements of subsequent immunization experiments.After four immunizations with recombinant protein VASN,mouse serum antibody titer reached 1:729 000.Monoclonal positive hybridoma cell lines were obtained through ascites induction and purification,and the constant affinity value of monoclonal antibodies measured by ELISA reached 2.59x107 L/mol.Western blotting results showed that the tree shrew VASN monoclonal antibody could bind to tree shrew VASN recombinant protein,but it showed no binding reaction with porcine retinol-binding protein 4 recombinant protein,human VASN-leucine rich repeat recombinant protein,or bovine serum albumin.Anti-tree shrew VASN monoclonal antibody could specifically recognize VASN protein in tree shrew heart,liver,spleen,lung,kidney and muscle,with clear bands and clean background.Immunohistochemical detection results showed that this monoclonal antibody could recognize VASN protein in tree shrew spleen,lung,and tree shrew immortalized fibroblasts with high VASN mRNA expression levels,and the detection results were positive.Conclusion Monoclonal antibody against tree shrew VASN is successfully prepared.This antibody can be used for immunohistochemical detection of tree shrew immortalized fibroblasts,spleen tissue,and lung tissue,providing an important tool for further research on the function of VASN in tree shrew models.

This experiment was conducted to study the effects of replacing feed protein by Herme-tia illucens larvae meal on immune function,intestinal morphology and microflora of Sichuan white geese.A total of 64 healthy 1-day-old Sichuan white geese were randomly allocated into 4 groups with 4 replicates in each group and 4 geese in each replicate,namely the control group,the 2％HILM,4％HILM and 8％HILM groups fed diets contained 0％,2％,4％and 8％of HILM,re-spectively.The experimental period was 40 days.The results showed that compared with the con-trol group,8％HILM increased the levels of serum IgG1,IgG2a and complement C3,and the difference was statistically significant(P＜0.01).4％HILM significantly increased the expression level of CD4(P＜0.05),and 8％HILM significantly increased the expression level of IL-10(P＜0.05).The ratio of villus length to crypt depth(VH/CD)in the jejunum and ileum in 4％HILM group was significantly increased(P＜0.05).The SIgA level of jejunum was significantly increased in all HILM replacement groups(P＞0.05).The abundance of Bacteroides in 4％HILM group were extremely significantly increased(P＜0.01),and the abundance of Bilophila and Bilophila wadsworthia were significantly decreased in all HILM replacement groups(P＜0.05).In conclu-sion,HILM can enhance the immune function of Sichuan white geese,improve the intestinal mor-phology of jejunum and ileum,enhance the local mucosal immunity of jejunum,increase the abun-dance of beneficial bacteria in cecum and decrease the abundance of harmful bacteria in cecum,and protect intestinal health.