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Journal of Biomedical Science and Engineering, ISSN 1937-6871, 2013, Volume 6, Issue 8, pp. 775 - 781
It has been discussed whether reduced glutathione (GSH) could promote the chondrogenic differentiation ability of human umbilical cord mesenchymal stem cells... 
Chondrogenesis
Journal Article
European Journal of Immunology, ISSN 0014-2980, 02/2016, Volume 46, Issue 2, pp. 440 - 445
Mesenchymal stem cells are known to exert immunomodulatory effects in inflammatory diseases. Immuneregulatory cells lead to progressive joint destruction in... 
Cartilage Chondrogenesis ⋅ Chondrogenic progenitor cells ⋅ Rheumatoid arthritis ⋅ Interleukin 17 (IL‐17) | Interleukin 17 (IL-17) | Rheumatoid arthritis | Cartilage Chondrogenesis | Chondrogenic progenitor cells | ACTIVATION | Cartilage Chondrogenesis Chondrogenic progenitor cells Rheumatoid arthritis Interleukin 17 (IL-17) | ARTICULAR-CARTILAGE | DISEASE | TISSUE | IL-17 | IMMUNOLOGY | NF-KAPPA-B | EXPRESSION | Stem Cells - immunology | Chondrogenesis - drug effects | Immunotherapy - methods | Cytokines - metabolism | Cartilage - pathology | Humans | Middle Aged | Cells, Cultured | Interleukin-17 - immunology | Male | Matrix Metalloproteinase 3 - metabolism | Core Binding Factor Alpha 1 Subunit - metabolism | Arthritis, Rheumatoid - therapy | Adalimumab - administration & dosage | Chondrogenesis - immunology | Antibodies, Monoclonal - administration & dosage | Antibodies, Blocking - therapeutic use | Stem Cells - drug effects | Female | Aged | Receptors, Interleukin-17 - metabolism | Arthritis, Rheumatoid - immunology | Core Binding Factor Alpha 1 Subunit - genetics | Interleukins | Rheumatoid factor | Arthritis | Proteins | Tumor necrosis factor-TNF | Rodents | Mesenchyme | Destruction | Interleukin | Antibodies | mRNA | Inflammatory diseases | Interleukin 6 | Cartilage | Antagonism | Receptors | Pharmaceutical industry | Chondrogenesis | Repair | Players | Cbfa-1 protein | Cytokines | Immunomodulation | Secretion | Patients | Interleukin 17 | Diseases | Tumor necrosis factor | Stem cells | Interleukin 10 | Cells (biology) | Monoclonal antibodies | Tumors | Index Medicus | Short Communication
Journal Article
Inhibition of chondrogenic differentiation in chick limb-bud mesenchyme microcultures treated with cyclosporine, 12/2006
Objectives: To explore the effects of cyclosporine (CsA) on skeletal development (chondrogenesis). Materials and Methods: Mesenchymal cells obtained from... 
Chondrogenesis, skeletal development spectrophotometric analysis
Journal
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 6/2013, Volume 110, Issue 25, pp. 10117 - 10122
Methacrylated hyaluronic acid (HA) hydrogels provide a backbone polymer with which mesenchymal stem cells (MSCs) can interact through several cell surface... 
Cartilage | Control groups | Hydrogels | Collagens | Antibodies | Cadherins | Chondrogenesis | Embryonic stem cells | Mesenchymal stem cells | Biomaterials | ADHESION | IN-VITRO CHONDROGENESIS | MULTIDISCIPLINARY SCIENCES | HYALURONIC-ACID HYDROGELS | EXTRACELLULAR-MATRIX | LIMB CHONDROGENESIS | DIFFERENTIATION | BETA-CATENIN | TRANSIENT EXPOSURE | EXPRESSION | MESENCHYMAL STEM-CELLS | Cadherins - metabolism | Humans | Cell Communication - physiology | Male | Antigens, CD - genetics | Antigens, CD - metabolism | Microspheres | Mesenchymal Stromal Cells - cytology | Molecular Mimicry | Polyhydroxyethyl Methacrylate - pharmacology | Gene Expression Regulation, Developmental | Cartilage - cytology | Hyaluronan Receptors - metabolism | Cadherins - genetics | Cell Differentiation - physiology | Extracellular Matrix Proteins - metabolism | Alginates - pharmacology | Cells, Cultured | Mesenchymal Stromal Cells - metabolism | Cartilage - metabolism | Chondrogenesis - physiology | Glucuronic Acid - pharmacology | Animals | Transforming Growth Factor beta3 - pharmacokinetics | Mice, Nude | Mice | Hydrogels - pharmacology | Hexuronic Acids - pharmacology | Physiological aspects | Cell interaction | Research | Health aspects | Stem cells | Cell culture | Peptides | Acids | Gene expression | Biopolymers | Index Medicus | Biological Sciences | Physical Sciences
Journal Article
Acta Biomaterialia, ISSN 1742-7061, 04/2017, Volume 53, pp. 329 - 342
Recently, hyaluronic acid (HA) hydrogels have been extensively researched for delivering cells and drugs to repair damaged tissues, particularly articular... 
Degradation | Hyaluronic acid | Chondrogenesis | Sulfation | Hypertrophy | MATERIALS SCIENCE, BIOMATERIALS | AUGMENTATION | ENGINEERING, BIOMEDICAL | REGENERATION | TISSUE | STEM-CELL CHONDROGENESIS | MSC CHONDROGENESIS | REPAIR | IN-VIVO | SCAFFOLDS | OSTEOARTHRITIS | HYALGAN(R) | Chondrogenesis - drug effects | Humans | Cartilage, Articular - growth & development | Intercellular Signaling Peptides and Proteins - chemistry | Male | Hypertrophy - pathology | Mesenchymal Stem Cell Transplantation - instrumentation | Delayed-Action Preparations - administration & dosage | Tissue Scaffolds | Combined Modality Therapy - instrumentation | Mesenchymal Stromal Cells - cytology | Delayed-Action Preparations - pharmacology | Sulfates - chemistry | Delayed-Action Preparations - chemical synthesis | Diffusion | Intercellular Signaling Peptides and Proteins - administration & dosage | Mesenchymal Stromal Cells - physiology | Mesenchymal Stromal Cells - drug effects | Hypertrophy - etiology | Hypertrophy - prevention & control | Cells, Cultured | Hyaluronic Acid - chemistry | Rats | Treatment Outcome | Osteoarthritis, Knee - therapy | Absorption, Physicochemical | Rats, Sprague-Dawley | Mesenchymal Stem Cell Transplantation - methods | Cartilage, Articular - pathology | Chondrogenesis - physiology | Animals | Intercellular Signaling Peptides and Proteins - pharmacology | Osteoarthritis, Knee - pathology | Combined Modality Therapy - methods | Osteoarthritis, Knee - physiopathology | Cartilage, Articular - drug effects | Hydrogels - chemistry | Sulfates | Biological products | Analysis | Stem cells | Protein binding | Index Medicus
Journal Article
Biomaterials, ISSN 0142-9612, 2015, Volume 64, pp. 21 - 32
Abstract While cell condensation has been thought to enhance chondrogenesis, no direct evidence so far confirms that cell–cell contact itself increases... 
Advanced Basic Science | Dentistry | Mesenchymal stem cell | Cell–cell contact | Chondrogenic differentiation | Micropatterning | PEG hydrogel | Oxygen tension | Cell-cell contact | HYDROGELS | MATERIALS SCIENCE, BIOMATERIALS | GAP-JUNCTION COMMUNICATION | ENGINEERING, BIOMEDICAL | CROSS-LINKING | HYPOXIA | ADHESION | IN-VITRO CHONDROGENESIS | CULTURE-CONDITIONS | EXPANSION | N-CADHERIN EXPRESSION | CONDENSATION | Oxygen - pharmacology | Chondrogenesis - drug effects | Hydrogels | Oligopeptides | Chondrogenesis - genetics | Cell Hypoxia | RNA, Messenger - biosynthesis | Mesenchymal Stromal Cells - cytology | Collagen Type I - genetics | Culture Media | Cell Shape | Hypoxia-Inducible Factor 1, alpha Subunit - biosynthesis | Collagen Type II - biosynthesis | Gold | Mesenchymal Stromal Cells - drug effects | Tissue Engineering - methods | Polyethylene Glycols | Hypoxia-Inducible Factor 1, alpha Subunit - genetics | Cells, Cultured | Gene Expression Regulation | Cell Communication | Rats | Cell Adhesion | Rats, Sprague-Dawley | Collagen Type II - genetics | Chondrogenesis - physiology | Collagen Type I - biosynthesis | Animals | SOX9 Transcription Factor - biosynthesis | Partial Pressure | SOX9 Transcription Factor - genetics | Ethylene glycol | RNA | Collagen | Analysis | Stem cells | Aspartate | Glycine | Cell differentiation | Index Medicus | Peptides | Spreading | Collagens | Hypoxia | Differentiation | Contact
Journal Article
Autophagy, ISSN 1554-8627, 2019, pp. 1 - 11
Chondrogenesis is accompanied by not only cellular renovation, but also metabolic stress. Therefore, macroautophagy/autophagy is postulated to be involved in... 
autophagy | chondrogenesis | Atg7 | glycogenolysis | cartilage
Journal Article
Journal Article
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 4/2005, Volume 102, Issue 14, pp. 5062 - 5067
Previous studies have demonstrated the ability of bone morphogenetic proteins (BMPs) to promote chondrogenic differentiation in vitro. However, the in vivo... 
Cartilage | Biological Sciences | Receptors | Cell growth | Chondrocytes | Collagens | Epiphyses | Chondrogenesis | Condensation | Embryos | Cellular differentiation | Skeletal development | Bone morphogenetic protein | Endochondral ossification | Sox proteins | SIGNALING PATHWAYS | BONE MORPHOGENETIC PROTEIN-2 | MULTIDISCIPLINARY SCIENCES | cartilage | RECEPTOR | bone morphogenetic protein | skeletal development | MULTIPOTENTIAL MESENCHYMAL CELLS | CARTILAGE FORMATION | FACTOR SOX9 | MEDIATOR SMAD1 | LIMB CHONDROGENESIS | endochondral ossification | DIFFERENTIATION | Protein-Serine-Threonine Kinases - deficiency | Chondrogenesis - genetics | Extracellular Matrix - metabolism | SOXD Transcription Factors | DNA-Binding Proteins - metabolism | Receptors, Growth Factor - genetics | Osteochondrodysplasias - genetics | Gene Expression Regulation, Developmental | Bone Morphogenetic Protein Receptors, Type I | Cell Differentiation | Chondrocytes - metabolism | Chondrocytes - pathology | High Mobility Group Proteins - metabolism | Signal Transduction | Osteochondrodysplasias - embryology | Protein-Serine-Threonine Kinases - physiology | Protein-Serine-Threonine Kinases - genetics | Nuclear Proteins - metabolism | Mice, Knockout | Transcription Factors - metabolism | Chondrogenesis - physiology | Phenotype | Receptors, Growth Factor - physiology | Animals | Receptors, Growth Factor - deficiency | Mice | SOX9 Transcription Factor | Extracellular Matrix - pathology | Proteins | Bones | Skeleton | Research | Genetics | Index Medicus
Journal Article
Cell Transplantation, ISSN 0963-6897, 1/2010, Volume 19, Issue 1, pp. 29 - 42
Journal Article
Journal of Cellular and Molecular Medicine, ISSN 1582-1838, 06/2010, Volume 14, Issue 6a, pp. 1338 - 1346
This study investigated the effect of mechanical load on human mesenchymal stem cell (hMSC) differentiation under different exogenous transforming growth... 
TGF‐β | human bone marrow mesenchymal stem cells | mechanical load | chondrogenesis | TGF‐β pathway | fibrin‐polyurethane scaffold composites | Mechanical load | TGF-β1 | TGF-β pathway | Fibrin-polyurethane scaffold composites | Human bone marrow mesenchymal stem cells | Chondrogenesis | PROGENITOR CELLS | MEDICINE, RESEARCH & EXPERIMENTAL | CYCLIC HYDROSTATIC-PRESSURE | ADULT | CELL BIOLOGY | TGF-beta | GROWTH-FACTOR-BETA | IN-VITRO CHONDROGENESIS | ARTICULAR-CARTILAGE | GENE-EXPRESSION | AGAROSE CULTURE | fibrin-polyurethane scaffold composites | TGF-beta pathway | DIFFERENTIATION | STROMAL CELLS | Transforming Growth Factor beta3 - pharmacology | Mesenchymal Stromal Cells - drug effects | Chondrogenesis - drug effects | Enzyme-Linked Immunosorbent Assay | Chondrogenesis - genetics | Glycosaminoglycans - metabolism | Humans | Cells, Cultured | Mesenchymal Stromal Cells - metabolism | Stress, Mechanical | Culture Media, Conditioned - pharmacology | DNA - metabolism | Gene Expression Regulation - drug effects | Tissue Scaffolds | Receptors, Transforming Growth Factor beta - antagonists & inhibitors | Receptors, Transforming Growth Factor beta - metabolism | Signal Transduction - drug effects | Protein-Serine-Threonine Kinases - antagonists & inhibitors | Protein-Serine-Threonine Kinases - metabolism | Transforming Growth Factor beta1 - pharmacology | Index Medicus
Journal Article