In-Situ Distortion Prediction in Metal Additive Manufacturing Considering Boundary Conditions

Wenjia Wang,Jinqiang Ning,Steven Y. Liang 한국정밀공학회 2021 International Journal of Precision Engineering and Vol.22 No.5

Undesired distortion often occurs in metal additive manufacturing due to the high temperature gradient resulting from repeated thermal cycles. A good understanding and fast predictions of in-situ distortion are essential to achieve high dimensional accuracy and prevent delamination or failure of build parts. Experimental investigations and numerical methods have been employed to study the in-situ distortion. However, the complex measurement systems and high computational cost limit their applications. An analytical modeling method with closed-form solutions is proposed in this paper to predict the in-situ distortion of laser cladding process without using iteration-based numerical calculations. The effects of build edges and geometry are considered, which include thermal convection and radiation at boundaries. Heat input and heat sink solutions modified from the point moving heat source model are added together to predict the temperature profile of the build and substrate. The die-substrate assembly model is used to calculate the deflection during the manufacturing process. Alloy 625 is selected to test the predictive accuracy and computational efficiency of the presented analytical model. The predicted results are close to the experimental data of in-situ distortion in literature. The computational time is less than 30 s. The good predictive accuracy and low computational cost make the presented method a promising approach to study the full-field temperature and distortion of a geometrically complex part.

Function of Rhs proteins in porcine extraintestinal pathogenic Escherichia coli PCN033

Lu Wenjia,Tan Jia,Lu Hao,Wang Gaoyan,Dong Wenqi,Wang Chenchen,Li Xiaodan,Tan Chen 한국미생물학회 2021 The journal of microbiology Vol.59 No.9

Extraintestinal pathogenic Escherichia coli (ExPEC) is an important zoonotic pathogen that places severe burdens on public health and animal husbandry. There are many pathogenic factors in E. coli. The type VI secretion system (T6SS) is a nano-microbial weapon that can assemble quickly and inject toxic effectors into recipient cells when danger is encountered. T6SSs are encoded in the genomes of approximately 25% of sequenced Gram-negative bacteria. When these bacteria come into contact with eukaryotic cells or prokaryotic microbes, the T6SS assembles and secretes associated effectors. In the porcine ExPEC strain PCN033, we identified four classic rearrangement hotspot (Rhs) genes. We determined the functions of the four Rhs proteins through mutant construction and protein expression. Animal infection experiments showed that the Δrhs-1CT, Δrhs-2CT, Δrhs-3CT, and Δrhs-4CT caused a significant decrease in the multiplication ability of PCN033 in vivo. Cell infection experiments showed that the Rhs protein is involved in anti-phagocytosis activities and bacterial adhesion and invasion abilities. The results of this study demonstrated that rhs1, rhs3, and rh4 plays an important role in the interaction between PCN033 and host cell. Rhs2 has contribution to cell and mice infection. This study helps to elucidate the pathogenic mechanism governing PCN033 and may help to establish a foundation for further research seeking to identify potential T6SS effectors.

Preclinical investigation of artesunate as a therapeutic agent for hepatocellular carcinoma via impairment of glucosylceramidase-mediated autophagic degradation

Chen Wenjia,Ma Zhaochen,Yu Lingxiang,MAO Xia,Ma Nan,Guo Xiaodong,Yin Xiaoli,Jiang Funeng,Wang Qian,Wang Jigang,Fang Mingliang,Lin Na,Zhang Yanqiong 생화학분자생물학회 2022 Experimental and molecular medicine Vol.54 No.-

Artesunate (ART) has been indicated as a candidate drug for hepatocellular carcinoma (HCC). Glucosylceramidase (GBA) is required for autophagic degradation. Whether ART regulates autophagic flux by targeting GBA in HCC remains to be defined. Herein, our data demonstrated that the dramatic overexpression of GBA was significantly associated with aggressive progression and short overall survival times in HCC. Subsequent experiments revealed an association between autophagic activity and GBA expression in clinical HCC samples, tumor tissues from a rat model of inflammation-induced HCC and an orthotopic mouse model, and human HCC cell lines. Interestingly, probe labeling identified GBA as an ART target, which was further verified by both a glutathione-S-transferase pulldown assay and surface plasmon resonance analysis. The elevated protein expression of LC3B, the increased numbers of GFP-LC3B puncta and double-membrane vacuoles, and the enhanced expression of SQSTM1/p62 indicated that the degradation of autophagosomes in HCC cells was inhibited by ART treatment. Both the in vitro and in vivo data revealed that autophagosome accumulation through targeting of GBA was responsible for the anti-HCC effects of ART. In summary, this preclinical study identified GBA as one of the direct targets of ART, which may have promising potential to inhibit lysosomal autophagy for HCC therapy.

Hesperidin Protects Against High-Fat Diet-Induced Lipotoxicity in Rats by Inhibiting Pyroptosis

Ruixi Luo,Weiyi Tian,Yudie Hu,La Wang,Wenjia Wang,Ping Wang,Zunli Ke,Didong Lou 한국식품영양과학회 2024 Journal of medicinal food Vol.27 No.2

It is currently thought that excess fatty acid-induced lipotoxicity in hepatocytes is a critical initiator in thedevelopment of nonalcoholic fatty liver disease (NAFLD). Lipotoxicity can induce hepatocyte death; thus, reducing lipotoxicityis one of the most effective therapeutic methods to combat NAFLD. Abundant evidence has shown that hesperidin(HSP), a type of flavanone mainly found in citrus fruits, is able to ameliorate NAFLD, but the molecular mechanisms areunclear. We previously reported that pyroptosis contributed to NAFLD development and that inhibiting pyroptosis contributedto blunting the progression of NAFLD in rat models. Therefore, we questioned whether HSP could contribute to amelioratingNAFLD by modulating pyroptosis. In this study, a high-fat diet (HFD) induced dyslipidemia and hepatic lipotoxicity in rats,and HSP supplementation ameliorated dyslipidemia and insulin resistance. In addition, the HFD also caused pyroptosis in theliver and pancreas, while HSP supplementation ameliorated pyroptosis. In vitro, we found that HSP ameliorated palmitic acidinducedlipotoxicity and pyroptosis in HepG2 and INS-1E cells. In conclusion, we showed for the first time that HSP has aprotective effect against liver and pancreas damage in terms of pyroptosis and provides a novel mechanism for the protectiveeffects of HSP on NAFLD.

Optimized Iterative Algorithm for Energy-Efficient Power Allocation in Two-tier Heterogeneous Networks

Wang Junliang,Li Wenjia,Liu Haitao 보안공학연구지원센터 2016 International Journal of Hybrid Information Techno Vol.9 No.12

In heterogeneous networks, the issue of interference between femtocells and macrocells should be carefully considered. Resource allocation schemes with cognitive technologies have been a key challenge to manage interference. In this paper, we investigate price-based power allocation strategies with the energy efficiency criterion for a spectrum-sharing heterogeneous cognitive network from the aspect of energy efficiency, and provide the utility function of macrocell and femtocells based on a non-cooperative Stackleberg game model. We build a combination of price vector and power allocation values by standard Lagrangian method and propose an improved iteration algorithm based on price updating to obtain the Stackleberg equilibrium solution. The simulation results verify the proposed method can improve energy efficiency and achieve better utility.

PREPARATION OF FOLATE-CONJUGATED BOVINE SERUM ALBUMIN NANOPARTICLES ADSORBING EPIRUBICIN HYDROCHLORIDE

XIUHUA ZHAO,JIAMING TANG,YUANGANG ZU,WEIGUO WANG,NA LI,WENJIA XU 성균관대학교(자연과학캠퍼스) 성균나노과학기술원 2013 NANO Vol.8 No.6

This work investigated the preparation process of folate-conjugated bovine serum albumin nanoparticles (FA–BSANPs) adsorbing epirubicin hydrochloride (EPI) nanoparticles (FA–EPI–BSANPs), a specific-targeting drug delivery system in cancer chemotherapy. The BSANPs were prepared by desolvation as a drug carrier system and conjugated with folate to produce FA–EPI–BSANPs that specifically target tumors by cross-linking. EPI, an anticancer drug, was adsorbed by this drug carrier system. The influences of six experimental parameters, namely, the adsorption time, FA–BSANPs solution-adsorbed EPI concentration, stirring speed, FA–BSANPs solution pH, the ratio of glutaraldehyde and BSA, and mass ratio of FA–BSANPs to EPI, on the drug loading efficiency (DLR) and drug entrapment efficiency (DER) of FA–EPI–BSANPs were investigated via the single factor method. The results indicated that the optimum operation conditions were obtained with 145.4 nm±0.5 nm MPS, 23.41% DLR and 98.93% DER. The N-hydroxysuccinimide-folate content associated with BSANPs was up to 0.9757% (wt). The DLR and DER of EPI increased with increasing adsorption time, FA–BSANPs solution concentration, and pH value, peaking at 1750 rpm with increasing stirring speed, but decreasing thereafter. The FA–EPI–BSANPs obtained were characterized by laser light scattering, scanning electron microscopy, Fourier transform infrared spectroscopy, differential scanning calorimetry, X-ray diffraction and thermogravimetric analysis. Drug release in vitro was investigated, as well. The characterization results showed that EPI in FA–EPI–BSANPs existed in an amorphous, instead of crystalline state. Most of the EPI was enclosed by FA–BSANPs, and a small amount was adsorbed onto the surface of the FA–BSANPs. The FA–EPI–BSANPs particles are nearly ellipsoidal and significantly affect sustained release. The inhibitory rate of FA–EPI–BSANP was mensurated by MTT method. The inhibitory rate of FA–EPI–BSANPs for SMMC 7721 cell developed with raise of concentration and was higher than other samples. The IC50 values of FA–EPI–BSANPs and EPI were 11.5 μg/mL and 18.8 μg/mL, respectively. The target ability of FA–EPI–BSANP for SMMC 7721 cell was mensurated by fluorescence (FITC) modified albumin techniques. The uptake rate of FA–EPI–BSANPs was higher than samples without folate conjugated, and increased with increased concentration.

The effect of various sandblasting conditions on surface changes of dental zirconia and shear bond strength between zirconia core and indirect composite resin

Jiefei Shen,Xin Li,Naichuan Su,Wenjia Liu,Yunmao Liao,Li Yue,Hang Wang,Hai Zhang 대한치과보철학회 2015 The Journal of Advanced Prosthodontics Vol.7 No.3

PURPOSE To measure the surface loss of dental restorative zirconia and the short-term bond strength between an indirect composite resin (ICR) and zirconia ceramic after various sandblasting processes. MATERIALS AND METHODS Three hundred zirconia bars were randomly divided into 25 groups according to the type of sandblasting performed with pressures of 0.1, 0.2, 0.4 and 0.6 MPa, sandblasting times of 7, 14 and 21 seconds, and alumina powder sizes of 50 and 110 µm. The control group did not receive sandblasting. The volume loss and height loss on zirconia surface after sandblasting and the shear bond strength (SBS) between the sandblasted zirconia and ICR after 24-h immersion were measured for each group using multivariate analysis of variance (ANOVA) and Least Significance Difference (LSD) test (α=.05). After sandblasting, the failure modes of the ICR/zirconia surfaces were observed using scanning electron microscopy. RESULTS The volume loss and height loss were increased with higher sandblasting pressure and longer sandblasting treatment, but they decreased with larger powder size. SBS was significantly increased by increasing the sandblasting time from 7 seconds to 14 seconds and from 14 seconds to 21 seconds, as well as increasing the size of alumina powder from 50 µm to 110 µm. SBS was significantly increased from 0.1 MPa to 0.2 MPa according to the size of alumina powder. However, the SBSs were not significantly different with the sandblasting pressure of 0.2, 0.4 and 0.6 MPa. The possibilities of the combination of both adhesive failure and cohesive failure within the ICR were higher with the increases in bonding strength. CONCLUSION Based on the findings of this study, sandblasting with alumina particles at 0.2 MPa, 21 seconds and the powder size of 110 µm is recommended for dental applications to improve the bonding between zirconia core and ICR.

Caspase Recruitment Domain Containing Protein 9 Suppresses Non-Small Cell Lung Cancer Proliferation and Invasion via Inhibiting MAPK/p38 Pathway

Linyue Pan,Yuting Tan,Bin Wang,Wenjia Qiu,Yulei Yin,Haiyan Ge,Huili Zhu 대한암학회 2020 Cancer Research and Treatment Vol.52 No.3

Purpose Caspase recruitment domain containing protein 9 (CARD9) has been demonstrated to be a pro-tumor factor in various cancers. However, our previous study found a significant decrease of CARD9 in malignant pleural effusion compared with benign pleural effusion. So we investigated the role of CARD9 in non-small cell lung cancer (NSCLC) and its working mechanism. Materials and Methods Immunohistochemistry, western blot, and quantitative real-time polymerase chain reaction were used to detect the expression of CARD9 in specimens of NSCLC patients. The Cancer Genome Atlas (TCGA) database was also used to analyze the expression of CARD9 in NSCLC and its predicting value for prognosis. Immunofluorescence was used for CARD9 cellular location. Cell growth assay, clonal formation assay, wound healing assay, matrigel invasion assay, and flow cytometry were used to test cell proliferation, migration, invasion, apoptosis, and cycle progression of NSCLC cells with CARD9 knockdown or CARD9 overexpression. Co-immunoprecipitation was used to identify the interaction between CARD9 and B-cell lymphoma 10 (BCL10). SB203580 was used to inhibit p38 activation. Results CARD9 was decreased in NSCLC tissues compared with normal tissues; low CARD9 expression was associated with poor survival. CARD9 was expressed both in tumor cells and macrophages. Downregulation of CARD9 in NSCLC cells enhanced the abilities of proliferation, invasion, and migration via activated mitogen-activated protein kinases (MAPK)/p38 signaling, while overexpression of CARD9 presented antitumor effects. BCL10 was identified to interact with CARD9. Conclusion We demonstrate that CARD9 is an independent prognostic factor in NSCLC patients and inhibits proliferation, migration, and invasion by suppressing MAPK/p38 pathway in NSCLC cells.

The effect of various sandblasting conditions on surface changes of dental zirconia and shear bond strength between zirconia core and indirect composite resin

Su, Naichuan,Yue, Li,Liao, Yunmao,Liu, Wenjia,Zhang, Hai,Li, Xin,Wang, Hang,Shen, Jiefei The Korean Academy of Prosthodonitics 2015 The Journal of Advanced Prosthodontics Vol.7 No.3

PURPOSE. To measure the surface loss of dental restorative zirconia and the short-term bond strength between an indirect composite resin (ICR) and zirconia ceramic after various sandblasting processes. MATERIALS AND METHODS. Three hundred zirconia bars were randomly divided into 25 groups according to the type of sandblasting performed with pressures of 0.1, 0.2, 0.4 and 0.6 MPa, sandblasting times of 7, 14 and 21 seconds, and alumina powder sizes of 50 and $110{\mu}m$. The control group did not receive sandblasting. The volume loss and height loss on zirconia surface after sandblasting and the shear bond strength (SBS) between the sandblasted zirconia and ICR after 24-h immersion were measured for each group using multivariate analysis of variance (ANOVA) and Least Significance Difference (LSD) test (${\alpha}$=.05). After sandblasting, the failure modes of the ICR/zirconia surfaces were observed using scanning electron microscopy. RESULTS. The volume loss and height loss were increased with higher sandblasting pressure and longer sandblasting treatment, but they decreased with larger powder size. SBS was significantly increased by increasing the sandblasting time from 7 seconds to 14 seconds and from 14 seconds to 21 seconds, as well as increasing the size of alumina powder from $50{\mu}m$ to $110{\mu}m$. SBS was significantly increased from 0.1 MPa to 0.2 MPa according to the size of alumina powder. However, the SBSs were not significantly different with the sandblasting pressure of 0.2, 0.4 and 0.6 MPa. The possibilities of the combination of both adhesive failure and cohesive failure within the ICR were higher with the increases in bonding strength. CONCLUSION. Based on the findings of this study, sandblasting with alumina particles at 0.2 MPa, 21 seconds and the powder size of $110{\mu}m$ is recommended for dental applications to improve the bonding between zirconia core and ICR.

Erratum - The effect of various sandblasting conditions on surface changes of dental zirconia and shear bond strength between zirconia core and indirect composite resin

Naichuan Su,Li Yue,Yunmao Liao,Wenjia Liu,Hai Zhang,Xin Li,Hang Wang,Jiefei Shen 대한치과보철학회 2015 The Journal of Advanced Prosthodontics Vol.7 No.6