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Universitetet i Bergen
Ying Xues bilde

Ying Xue

Senioringeniør
Institutt for klinisk odontologi
Tissen Engineering
  • E-postYing.Xue@uib.no
  • Telefon+47 55 58 65 19
  • Besøksadresse
    Årstadveien 19
    5009 Bergen
  • Postadresse
    Postboks 7804
    5020 Bergen
Vitenskapelig artikkel
  • Vis forfatter(e) (2022). The effect of resolvin D1 on bone regeneration in a rat calvarial defect model. Journal of Tissue Engineering and Regenerative Medicine.
  • Vis forfatter(e) (2022). Impact of Resolvin D1 on the inflammatory phenotype of periodontal ligament cell response to hypoxia. Journal of Periodontal Research. 1034-1042.
  • Vis forfatter(e) (2021). Endochondral ossification induced by cell transplantation of endothelial cells and bone marrow stromal cells with copolymer scaffold using a rat calvarial defect model. Polymers.
  • Vis forfatter(e) (2020). Thermodynamic parameters at bio-nano interface and nanomaterial toxicity: A case study on BSA interaction with ZnO, SiO2 and TiO2. Chemical Research in Toxicology. 2054-2071.
  • Vis forfatter(e) (2020). Label-free impedance flow cytometry for nanotoxicity screening. Scientific Reports.
  • Vis forfatter(e) (2020). Biological responses of dental pulp cells to surfaces modified by collagen 1 and fibronectin. Journal of Biomedical Materials Research. Part A. 1369-1379.
  • Vis forfatter(e) (2020). Altered surface hydrophilicity on copolymer scaffolds stimulate the osteogenic differentiation of human mesenchymal stem cells. Polymers. 1-15.
  • Vis forfatter(e) (2019). Impact of fish protein concentrate on apparent viscosity and physical properties of soy protein concentrate subjected to thermomechanical treatment. Journal of Food Engineering. 34-43.
  • Vis forfatter(e) (2019). Adenoviral mediated mono delivery of BMP2 is superior to the combined delivery of BMP2 and VEGFA in bone regeneration in a critical-sized rat calvarial bone defect. Bone Reports.
  • Vis forfatter(e) (2018). In vitro cytotoxicity assessment of nanodiamond particles and their osteogenic potential. Journal of Biomedical Materials Research. Part A. 1697-1707.
  • Vis forfatter(e) (2018). Human dental pulp stromal cell conditioned medium alters endothelial cell behavior. Stem Cell Research & Therapy. 1-12.
  • Vis forfatter(e) (2018). Delivery of VEGFA in bone marrow stromal cells seeded in copolymer scaffold enhances angiogenesis, but is inadequate for osteogenesis as compared with the dual delivery of VEGFA and BMP2 in a subcutaneous mouse model. Stem Cell Research & Therapy. 1-13.
  • Vis forfatter(e) (2017). Magnesium release from mesoporous carriers on endosseus implants does not influence bone maturation at 6 weeks in rabbit bone. Journal of Biomedical Materials Research. Part B - Applied biomaterials. 2118-2125.
  • Vis forfatter(e) (2017). Conditioned medium from human bone marrow stromal cells attenuates initial inflammatory reactions in dental pulp tissue. Traumatology.
  • Vis forfatter(e) (2017). Conditioned media from hypoxic-cultured human dental pulp cells promotes bone healing during distraction osteogenesis. Journal of Tissue Engineering and Regenerative Medicine. 2116-2126.
  • Vis forfatter(e) (2016). Influence of bone marrow stromal cell secreted molecules on pulpal and periodontal healing in replanted immature rat molars. Dental Traumatology. 231-239.
  • Vis forfatter(e) (2016). In vivo host response and degradation of copolymer scaffolds functionalized with nanodiamonds and bone morphogenetic protein 2. Advanced Healthcare Materials. 730-742.
  • Vis forfatter(e) (2016). Conditioned medium from human bone marrow stromal cells attenuates initial inflammatory reactions in dental pulp tissue. Dental Traumatology. 19-26.
  • Vis forfatter(e) (2016). Adenoviral Mediated Expression of BMP2 by Bone Marrow Stromal Cells cultured in 3D Copolymer Scaffolds Enhances Bone Formation. PLOS ONE.
  • Vis forfatter(e) (2015). Release and bioactivity of bone morphogenetic protein-2 are affected by scaffold binding techniques in vitro and in vivo. Journal of Controlled Release. 148-157.
  • Vis forfatter(e) (2015). Leukocyte transmigration into tissue-engineered constructs is influenced by endothelial cells through Toll-like receptor signaling. Stem Cell Research & Therapy.
  • Vis forfatter(e) (2014). The effect of hydroxyapatite nanocrystals on osseointegration of titanium implants: an in vivo rabbit study. International Journal of Dentistry. 9 sider.
  • Vis forfatter(e) (2014). Surfactant as a critical factor when tuning the hydrophilicity in three-dimensional polyester-based scaffolds: Impact of hydrophilicity on their mechanical properties and the cellular response of human osteoblast-like cells. Biomacromolecules. 1259-1268.
  • Vis forfatter(e) (2014). Photocatalytically induced hydrophilicity influences bone remodeling at longer healing periods: a rabbit study. Clinical Oral Implants Research. 749-754.
  • Vis forfatter(e) (2014). Mesenchymal stem cells induce endothelial cell quiescence and promote capillary formation. Stem Cell Research & Therapy.
  • Vis forfatter(e) (2014). Local release of magnesium from mesoporous TiO2 coatings stimulates the peri-implant expression of osteogenic markers and improves osteoconductivity in vivo. Acta Biomaterialia. 5193-5201.
  • Vis forfatter(e) (2014). Bone marrow stromal cell paracrine factors direct osteo/odontogenic differentiation of dental pulp cells. Tissue Engineering Part A. 3063-3072.
  • Vis forfatter(e) (2013). In vitro evaluation of human fetal osteoblast response to magnesium loaded mesoporous TiO2 coating. Journal of Biomedical Materials Research. Part A. 3862-3871.
  • Vis forfatter(e) (2013). Endothelial microvascular networks affect gene-expression profiles and osteogenic potential of tissue-engineered constructs. Stem Cell Research & Therapy. 10 sider.
  • Vis forfatter(e) (2013). Copolymer cell/scaffold constructs for bone tissue engineering: Co-culture of low ratios of human endothelial and osteoblast-like cells in a dynamic culture system. Journal of Biomedical Materials Research. Part A. 1113-1120.
  • Vis forfatter(e) (2013). Co-culture of human bone marrow stromal cells with endothelial cells alters gene expression profiles. International Journal of Artificial Organs. 650-662.
  • Vis forfatter(e) (2013). Biological effects of functionalizing copolymer scaffolds with nanodiamond particles. Tissue Engineering. 1783-1791.
  • Vis forfatter(e) (2012). The effect of laminin-1doped nanoroughness implant surfaces: gene expression and morphological evaluation. International Journal of Biomaterials.
  • Vis forfatter(e) (2012). Osteogenic stimulatory conditions enhance growth and maturation of endothelial cell microvascular networks in culture with mesenchymal stem cells. Journal of Tissue Engineering.
  • Vis forfatter(e) (2011). Genetic responses to nanostructured calcium-phosphate-coated implants. Journal of Dental Research. 1422-1427.
  • Vis forfatter(e) (2011). Effect of endothelial cells on bone regeneration using poly(L-lactide-co-1,5-dioxepan-2-one) scaffolds. Journal of Biomedical Materials Research. Part A. 349-357.
  • Vis forfatter(e) (2011). Comparison of short-run cell seeding methods for poly(L-lactide-co-1,5-dioxepan-2-one) scaffold intended for bone tissue engineering. International Journal of Artificial Organs. 432-441.
  • Vis forfatter(e) (2010). Growth and differentiation of bone marrow stromal cells on biodegradable polymer scaffolds: An in vitro study. Journal of Biomedical Materials Research. Part A. 1244-1251.
  • Vis forfatter(e) (2009). Endothelial cells influence the osteogenic potential of bone marrow stromal cells. Biomedical engineering online. 34.
Vitenskapelig foredrag
  • Vis forfatter(e) (2022). Towards risk governance of nanomaterials: adaptation and validation of test methods for characterization and hazard assessment.
  • Vis forfatter(e) (2017). Validation of an Impedance-Based Flow Cytometry Technique for High-Throughput Nanotoxicity Screening.
  • Vis forfatter(e) (2013). Prevascularization of tissue-engineered constructs with endothelial and mesenchymal stem cells.
  • Vis forfatter(e) (2010). Utveckling av ett nytt scaffold før Tissue Engineering.
  • Vis forfatter(e) (2010). Development of a novel polymer scaffold for tissue engineering.
  • Vis forfatter(e) (2009). The role of endothelial progenitor cells for an improved bone regeneration model.
  • Vis forfatter(e) (2009). In a direct contact co-culture model: effect of endothelial cells on growth and differentiation of osteogenic cells.
  • Vis forfatter(e) (2008). Effect of human endothelial cells on human bone marrow stromal cell differentiation.
  • Vis forfatter(e) (2008). Cellular spreading, growth and differentiation in 3D copolymer.
Doktorgradsavhandling
  • Vis forfatter(e) (2011). Interactions between endothelial and bone marrow stromal cells of relevance to bone tissue engineering.
Sammendrag/abstract
  • Vis forfatter(e) (2011). Gene expression profiles of BMSC cocultured with EC. Journal of Dental Research.
  • Vis forfatter(e) (2011). ECs co-cultured with BMSCs in poly(L-lactide-co-1,5-dioxepan-2-one) scaffolds enhanced bone regeneration. Journal of Dental Research.
Poster
  • Vis forfatter(e) (2022). Serum biomarker profiling in smokers and non-smokers following periodontal therapy. .
  • Vis forfatter(e) (2017). Use of Dental Pulp Cell Secretome in a Cell-free Tissue Regeneration Approach.
  • Vis forfatter(e) (2017). Impedance-based methods for label-free rapid nanotoxicity screening.
  • Vis forfatter(e) (2017). Dental Pulp Cells Secretome Regulates Endothelial Cell Adhesion and Morphology.
  • Vis forfatter(e) (2017). Dental Pulp Cells Secretome Regulates Endothelial Cell Adhesion and Morphology.
  • Vis forfatter(e) (2016). Toxicological assessment of nano-diamond particles used in tissue engineering scaffolds for bone tissue regeneration.
  • Vis forfatter(e) (2016). High throughput nanoTOX screening using impedance: A data analysis example.
  • Vis forfatter(e) (2016). Cytotoxicity of engineered nanomaterials assessed by impedance-based monitoring.
  • Vis forfatter(e) (2014). Prevascularization of tissue-engineered constructs with endothelial and mesenchymal stem cells.
  • Vis forfatter(e) (2014). Leukocyte Transmigration into Tissue-engineered Constructs is influenced by Endothelial Cells.
  • Vis forfatter(e) (2014). Chondral ossification from copolymer scaffolds loaded with co-cultured cells.
  • Vis forfatter(e) (2013). Endothelial Microvascular Networks Influence Gene Expression Profiles in MSCs.
  • Vis forfatter(e) (2013). Effect of growth factors on human dental pulp stem cells.
  • Vis forfatter(e) (2013). Culture conditions for human Dental Pulp Cells affect regenerative potential of conditioned media.
  • Vis forfatter(e) (2012). Osteogenic conditions stimulate microvascular networks – establishing culture conditions for stem cell based reconstruction of bone defects.
  • Vis forfatter(e) (2011). Gene expression profiles of BMSC cocultured with EC.
  • Vis forfatter(e) (2011). ECs co-cultured with BMSCs in poly(L-lactide-co-1,5-dioxepan-2-one) scaffolds enhanced bone regeneration.
  • Vis forfatter(e) (2010). Endothelial progenitor cells enhanced bone regeneration on poly(L-lactide-co-1,5-dioxepan-2-one) scaffold.
  • Vis forfatter(e) (2009). GROWTH AND DIFFERENTIATION OF MESENCHYMAL STEM CELLS ON BIODEGRADABLE POLYMER SCAFFOLDS.
  • Vis forfatter(e) (2008). Comparative Study of Three Copolymer Scaffolds Seeded with Human MSC.
  • Vis forfatter(e) (2008). Co-culuture of endothelial cells and mesenchymal stem cells on 3D scaffolds.
Vitenskapelig oversiktsartikkel/review
  • Vis forfatter(e) (2022). An updated review of the effects of eicosapentaenoic acid- and docosahexaenoic acid-derived resolvins on bone preservation. Prostaglandins & other lipid mediators. 1-7.

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