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  • Search Condition : Filter (MeSH = Hydrogels)
Species Resource Title
Human and Animal Cells B16F10(RCB2630) Stiffness regulates dendritic cell and macrophage subtype development and increased stiffness induces a tumor-associated macrophage phenotype in cancer co-cultures.
Human and Animal Cells NIH3T3 Prevention of anastomotic stenosis for decellularized vascular grafts using rapamycin-loaded boronic acid-based hydrogels mimicking the perivascular tissue function.
Human and Animal Cells L929(RCB2619) A pH-driven genipin gelator to engineer decellularized extracellular matrix-based tissue adhesives.
Human and Animal Cells Hep G2(RCB1886) Visible light photocrosslinking of sugar beet pectin for 3D bioprinting applications.
Human and Animal Cells 293T(RCB2202) Engineering of an electrically charged hydrogel implanted into a traumatic brain injury model for stepwise neuronal tissue reconstruction.
Algae NIES-2173 Advanced light-tolerant microalgae-nitrifying bacteria consortia for stable ammonia removal under strong light irradiation using light-shielding hydrogel.
Human and Animal Cells CACO-2(RCB0988) Robust closure of post-endoscopic submucosal dissection perforation by microparticle-based wound dressing.
Human and Animal Cells NIH/3T3(RCB2767) The Balance between the Hemostatic Effect and Immune Response of Hyaluronan Conjugated with Different Chain Lengths of Inorganic Polyphosphate.
Human and Animal Cells ATDC5(RCB0565) Hyaluronic acid affects the in vitro induction effects of synthetic PAMPS and PDMAAm hydrogels on chondrogenic differentiation of ATDC5 cells, depending on the level of concentration.
Human and Animal Cells ATDC5(RCB0565) Hyaluronic acid enhances the effect of the PAMPS/PDMAAm double-network hydrogel on chondrogenic differentiation of ATDC5 cells.
Human and Animal Cells 3D printing of composite tissue with complex shape applied to ear regeneration.
Human and Animal Cells iPS-MEF-Ng-20D-17(APS0001) Bone and cartilage repair by transplantation of induced pluripotent stem cells in murine joint defect model.
Rats Administration of control-released hepatocyte growth factor enhances the efficacy of skeletal myoblast transplantation in rat infarcted hearts by greatly increasing both quantity and quality of the graft.