Hydrogels to model 3D in vitro microenvironment of tumor vascularization
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Zebrafish as an Emerging Model Organism to Study Angiogenesis in Development and RegenerationPeptide Hydrogels - Versatile Matrices for 3D Cell Culture in Cancer MedicineModulation of the tumor microenvironment for cancer treatment: a biomaterials approachIn vitro methods to study bubble-cell interactions: Fundamentals and therapeutic applicationsMicroencapsulation of Neuroblastoma Cells and Mesenchymal Stromal Cells in Collagen Microspheres: A 3D Model for Cancer Cell Niche Study.The effects of self-assembling peptide RADA16 hydrogel on malignant phenotype of human hepatocellular carcinoma cell.Biomaterials and emerging anticancer therapeutics: engineering the microenvironment.Biomimetic on-a-chip platforms for studying cancer metastasisBioreactor-Based Tumor Tissue Engineering.Biomimetic Hydrogels Incorporating Polymeric Cell-Adhesive Peptide To Promote the 3D Assembly of Tumoroids.Bioprinting the Cancer Microenvironment.Mechanotransduction in cancer.Development of a 3D angiogenesis model to study tumour - endothelial cell interactions and the effects of anti-angiogenic drugs.Contributions of 3D Cell Cultures for Cancer Research.In vitro porcine blastocyst development in three-dimensional alginate hydrogels.Cell Spheroids with Enhanced Aggressiveness to Mimic Human Liver Cancer In Vitro and In Vivo.Simulation of ECM with Silk and Chitosan Nanocomposite Materials.Fundamentals of Laser-Based Hydrogel Degradation and Applications in Cell and Tissue Engineering.The Influence of Hyaluronic Acid and Glioblastoma Cell Coculture on the Formation of Endothelial Cell Networks in Gelatin Hydrogels.Matrix stiffness and tumor-associated macrophages modulate epithelial to mesenchymal transition of human adenocarcinoma cells.Vascular Tissue Engineering: Progress, Challenges, and Clinical Promise.Engineering Breast Cancer Microenvironments and 3D Bioprinting.Inspired by Nature: Hydrogels as Versatile Tools for Vascular Engineering.Biomechanical forces in tissue engineered tumor models3D hydrogel breast cancer models for studying the effects of hypoxia on epithelial to mesenchymal transitionDevelopment of a novel and economical agar-based non-adherent three-dimensional culture method for enrichment of cancer stem-like cells
P2860
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P2860
Hydrogels to model 3D in vitro microenvironment of tumor vascularization
description
2014 nî lūn-bûn
@nan
2014 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Hydrogels to model 3D in vitro microenvironment of tumor vascularization
@ast
Hydrogels to model 3D in vitro microenvironment of tumor vascularization
@en
Hydrogels to model 3D in vitro microenvironment of tumor vascularization
@nl
type
label
Hydrogels to model 3D in vitro microenvironment of tumor vascularization
@ast
Hydrogels to model 3D in vitro microenvironment of tumor vascularization
@en
Hydrogels to model 3D in vitro microenvironment of tumor vascularization
@nl
prefLabel
Hydrogels to model 3D in vitro microenvironment of tumor vascularization
@ast
Hydrogels to model 3D in vitro microenvironment of tumor vascularization
@en
Hydrogels to model 3D in vitro microenvironment of tumor vascularization
@nl
P2860
P1476
Hydrogels to model 3D in vitro microenvironment of tumor vascularization
@en
P2093
Kyung Min Park
Sharon Gerecht
P2860
P356
10.1016/J.ADDR.2014.06.002
P407
P577
2014-06-23T00:00:00Z