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A scaffold vaccine to promote tumor antigen cross-presentation via sustained toll-like receptor-2 (TLR2) activation Journal article
Xie, Daping, Han, Congwei, Chen, Chonghao, Liao, Zhencheng, Campos de Souza, Senio, Niu, Yiming, Mano, João F., Dong, Lei, Wang, Chunming. A scaffold vaccine to promote tumor antigen cross-presentation via sustained toll-like receptor-2 (TLR2) activation[J]. Bioactive Materials, 2024, 37, 315-330.
Authors:  Xie, Daping;  Han, Congwei;  Chen, Chonghao;  Liao, Zhencheng;  Campos de Souza, Senio; et al.
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:18.0/18.2 | Submit date:2024/05/16
Scaffold Vaccine  Tlr2 Agonist  Polysaccharide  Reactive Oxygen Species  Cross-presentation  
Extracellular matrix-mimetic immunomodulatory fibrous scaffold based on a peony stamens polysaccharide for accelerated wound healing Journal article
Huang, Rong, Li, Haiqin, Huang, Xiaoli, Zhou, Ya, Liu, Zhihai, Liu, Congming, Li, Qiu. Extracellular matrix-mimetic immunomodulatory fibrous scaffold based on a peony stamens polysaccharide for accelerated wound healing[J]. International Journal of Biological Macromolecules, 2024, 264, 130573.
Authors:  Huang, Rong;  Li, Haiqin;  Huang, Xiaoli;  Zhou, Ya;  Liu, Zhihai; et al.
Favorite | TC[WOS]:3 TC[Scopus]:3  IF:7.7/7.7 | Submit date:2024/05/02
Fibrous Scaffold  Polysaccharides  Wound Healing  
Novel magnetic silk fibroin scaffolds with delayed degradation for potential long-distance vascular repair Journal article
Liu, Xin, Sun, Yuxiang, Chen, Bo, Li, Yan, Zhu, Peng, Wang, Peng, Yan, Sen, Li, Yao, Yang, Fang, Gu, Ning. Novel magnetic silk fibroin scaffolds with delayed degradation for potential long-distance vascular repair[J]. Bioactive Materials, 2021, 7, 126-143.
Authors:  Liu, Xin;  Sun, Yuxiang;  Chen, Bo;  Li, Yan;  Zhu, Peng; et al.
Favorite | TC[WOS]:33 TC[Scopus]:35  IF:18.0/18.2 | Submit date:2023/01/30
Composite Scaffold  Extended Degradation  Iron Based Magnetic Nanoparticles  Silk Fibroin Scaffold  Vascular Tissue Engineering  
Structural insights into ankyrin repeat-mediated recognition of the kinesin motor protein KIF21A by KANK1, a scaffold protein in focal adhesion Journal article
Pan, Wenfei, Sun, Kang, Tang, Kun, Xiao, Qingpin, Ma, Chenxue, Yu, Cong, Wei, Zhiyi. Structural insights into ankyrin repeat-mediated recognition of the kinesin motor protein KIF21A by KANK1, a scaffold protein in focal adhesion[J]. JOURNAL OF BIOLOGICAL CHEMISTRY, 2018, 293(6), 1944-1956.
Authors:  Pan, Wenfei;  Sun, Kang;  Tang, Kun;  Xiao, Qingpin;  Ma, Chenxue; et al.
Favorite | TC[WOS]:24 TC[Scopus]:24  IF:4.0/4.4 | Submit date:2018/10/30
Crystal Structure  Focal Adhesion  Protein Complex  Scaffold Protein  Tumor Suppressor Gene  Kank  Ankyrin Repeat  
Modulating the phenotype of host macrophages to enhance osteogenesis in MSC-laden hydrogels: Design of a glucomannan coating material Journal article
Niu, Yiming, Li, Qiu, Xie, Ruiyu, Liu, Shang, Wang, Ruibing, Xing, Panfei, Shi, Yuchen, Wang, Yitao, Dong, Lei, Wang, Chunming. Modulating the phenotype of host macrophages to enhance osteogenesis in MSC-laden hydrogels: Design of a glucomannan coating material[J]. BIOMATERIALS, 2017, 139, 39-55.
Authors:  Niu, Yiming;  Li, Qiu;  Xie, Ruiyu;  Liu, Shang;  Wang, Ruibing; et al.
View | Adobe PDF | Favorite | TC[WOS]:67 TC[Scopus]:74  IF:12.8/13.1 | Submit date:2018/10/30
Bioactive Coating  Glucomannan Polysaccharides  Scaffold-tissue Integration  Macrophages  Osteogenesis  
Porous nanofibrous poly(l-lactic acid) scaffolds supporting cardiovascular progenitor cells for cardiac tissue engineering Journal article
Liu Q., Tian S., Zhao C., Chen X., Lei I., Wang Z., Ma P.X.. Porous nanofibrous poly(l-lactic acid) scaffolds supporting cardiovascular progenitor cells for cardiac tissue engineering[J]. Acta Biomaterialia, 2015, 26, 105-114.
Authors:  Liu Q.;  Tian S.;  Zhao C.;  Chen X.;  Lei I.; et al.
Favorite | TC[WOS]:85 TC[Scopus]:93 | Submit date:2019/01/16
Cardiac Differentiation  Cardiac Tissue Engineering  Cardiovascular Progenitor Cell  Embryonic Stem Cell  Extracellular Matrix  Porous Nanofibrous Scaffold  
Porous nanofibrous poly (l-lactic acid) scaffolds supporting cardiovascular progenitor cells for cardiac tissue engineering Journal article
Liu, QH, Tian, S, Zhao, C, Chen, X, Lei, IL, Wang, Z, Ma, PX. Porous nanofibrous poly (l-lactic acid) scaffolds supporting cardiovascular progenitor cells for cardiac tissue engineering[J]. ACTA BIOMATERIALIA, 2015, 26, 105-114.
Authors:  Liu, QH;  Tian, S;  Zhao, C;  Chen, X;  Lei, IL; et al.
Favorite | TC[WOS]:85 TC[Scopus]:93  IF:9.4/9.9 | Submit date:2019/01/14
Embryonic Stem Cell  Cardiovascular Progenitor Cell  Cardiac Differentiation  Extracellular Matrix  Porous Nanofibrous Scaffold  Cardiac Tissue Engineering  
Nanofiber scaffolds facilitate functional regeneration of peripheral nerve injury Journal article
Zhan X., Gao M., Jiang Y., Zhang W., Wong W.M., Yuan Q., Su H., Kang X., Dai X., Zhang W., Guo J., Wu W.. Nanofiber scaffolds facilitate functional regeneration of peripheral nerve injury[J]. Nanomedicine: Nanotechnology, Biology, and Medicine, 2013, 9(3), 305-315.
Authors:  Zhan X.;  Gao M.;  Jiang Y.;  Zhang W.;  Wong W.M.; et al.
Favorite | TC[WOS]:70 TC[Scopus]:80 | Submit date:2018/12/28
Axonal Regeneration  Nanofiber Scaffold  Peripheral Nerve Injury  Remyelination  Self-assembling Peptide  
In vivo differentiation of adipose-derived stem cells in an injectable poloxamer-octapeptide hybrid hydrogel Journal article
Huang J., Wang S., Wei C., Xu Y., Wang Y., Jin J., Teng G.. In vivo differentiation of adipose-derived stem cells in an injectable poloxamer-octapeptide hybrid hydrogel[J]. Tissue and Cell, 2011, 43(6), 344-349.
Authors:  Huang J.;  Wang S.;  Wei C.;  Xu Y.;  Wang Y.; et al.
Favorite | TC[WOS]:17 TC[Scopus]:19 | Submit date:2019/01/16
Adipose Tissue Engineering  Adipose-derived Stem Cells  Hydrogel  Scaffold  Soft Tissue Defects  
Self-assembling peptide nanofiber scaffold promotes the reconstruction of acutely injured brain Journal article
Guo J., Leung K.K.G., Su H., Yuan Q., Wang L., Chu T.-H., Zhang W., Pu J.K.S., Ng G.K.P., Wong W.M., Dai X., Wu W.. Self-assembling peptide nanofiber scaffold promotes the reconstruction of acutely injured brain[J]. Nanomedicine: Nanotechnology, Biology, and Medicine, 2009, 5(3), 345-351.
Authors:  Guo J.;  Leung K.K.G.;  Su H.;  Yuan Q.;  Wang L.; et al.
Favorite | TC[WOS]:137 TC[Scopus]:149 | Submit date:2018/12/28
Inflammation  Reconstruction  Self-assembling Peptide Nanofiber Scaffold  Traumatic Brain Injury