| CALCIUM AND VITAMIN D IN BONE FRACTURE HEALING AND POST-TRAUMATIC BONE TURNOVER |
13 |
| LOCAL APPLICATION OF A GENTAMICIN-LOADED THERMO- RESPONSIVE HYDROGEL ALLOWS FOR FRACTURE HEALING UPON CLEARANCE OF A HIGH STAPHYLOCOCCUS AUREUS LOAD IN A RABBIT MODEL |
12 |
| INDUCED PLURIPOTENT STEM CELLS FOR CARTILAGE REPAIR: CURRENT STATUS AND FUTURE PERSPECTIVES |
12 |
| BIOACTIVE GLASS INDUCED OSTEOGENIC DIFFERENTIATION OF HUMAN ADIPOSE STEM CELLS IS DEPENDENT ON CELL ATTACHMENT MECHANISM AND MITOGEN-ACTIVATED PROTEIN KINASES |
9 |
| MESENCHYMAL STEM CELL SECRETOME REDUCES PAIN AND PREVENTS CARTILAGE DAMAGE IN A MURINE OSTEOARTHRITIS MODEL |
9 |
| THE ROLE OF BACTERIAL STIMULI IN INFLAMMATION-DRIVEN BONE FORMATION |
9 |
| THE OSTEO-INDUCTIVE ACTIVITY OF BONE-MARROW-DERIVED MONONUCLEAR CELLS RESIDES WITHIN THE CD14(+) POPULATION AND IS INDEPENDENT OF THE CD34(+) POPULATION |
8 |
| PROGENITOR CELLS IN AURICULAR CARTILAGE DEMONSTRATE CARTILAGE-FORMING CAPACITY IN 3D HYDROGEL CULTURE |
8 |
| EFFECTIVE USE OF MESENCHYMAL STEM CELLS IN HUMAN SKIN SUBSTITUTES GENERATED BY TISSUE ENGINEERING |
8 |
| PLATELET-RICH FIBRIN SECRETOME INDUCES THREE DIMENSIONAL ANGIOGENIC ACTIVATION IN VITRO |
8 |
| AUTOLOGOUS BILAYERED SELF-ASSEMBLED SKIN SUBSTITUTES (SASSs) AS PERMANENT GRAFTS:A CASE SERIES OF 14 SEVERELY BURNED PATIENTS INDICATING CLINICAL EFFECTIVENESS |
7 |
| DECELLULARISED TISSUES OBTAINED BY A CO2-PHILIC DETERGENT AND SUPERCRITICAL CO2 |
7 |
| MODULATION OF MACROPHAGE PHENOTYPE THROUGH CONTROLLED RELEASE OF INTERLEUKIN-4 FROM GELATINE COATINGS ON TITANIUM SURFACES |
7 |
| INJECTABLE BMP-2 DELIVERY SYSTEM BASED ON COLLAGEN-DERIVED MICROSPHERES AND ALGINATE INDUCED BONE FORMATION IN A TIME- AND DOSE-DEPENDENT MANNER |
7 |
| THERAPEUTIC EFFICACY OF INTRA-ARTICULAR DELIVERY OF ENCAPSULATED HUMAN MESENCHYMAL STEM CELLS ON EARLY STAGE OSTEOARTHRITIS |
7 |
| ADIPOSE-TISSUE-DERIVED THERAPEUTIC CELLS IN THEIR NATURAL ENVIRONMENT AS AN AUTOLOGOUS CELL THERAPY STRATEGY: THE MICROTISSUE-STROMAL VASCULAR FRACTION |
6 |
| OSTEOARTHRITIS AS AN ORGAN DISEASE: FROM THE CRADLE TO THE GRAVE |
6 |
| ENGINEERING OF A COMPLEX BONE TISSUE MODEL WITH ENDOTHELIALISED CHANNELS AND CAPILLARY-LIKE NETWORKS |
6 |
| THERMORESPONSIVE, REDOX-POLYMERIZED CELLULOSIC HYDROGELS UNDERGO IN SITU GELATION AND RESTORE INTERVERTEBRAL DISC BIOMECHANICS POST DISCECTOMY |
6 |
| THE THERMAL CONDUCTIVITY OF CORTICAL AND CANCELLOUS BONE |
6 |
| AGE-DEPENDENT CHANGES IN INTERVERTEBRAL DISC CELL MITOCHONDRIA AND BIOENERGETICS |
6 |
| OSTEOGENIC DIFFERENTIATION OF HUMAN ADIPOSE-DERIVED STEM CELLS IN 3D CONDITIONS - COMPARISON OF SPHEROIDS AND POLYSTYRENE SCAFFOLDS |
6 |
| BONE FORMATION BY HETERODIMERS THROUGH NON-VIRAL GENE DELIVERY OF BMP-2/6 AND BMP-2/7 |
5 |
| IMPACT OF TGF-beta FAMILY-RELATED GROWTH FACTORS ON CHONDROGENIC DIFFERENTIATION OF ADIPOSE-DERIVED STEM CELLS ISOLATED FROM LIPOASPIRATES AND INFRAPATELLAR FAT PADS OF OSTEOARTHRITIC PATIENTS |
5 |
| THE EFFECTS OF AGEING ON DENTAL PULP STEM CELLS, THE TOOTH LONGEVITY ELIXIR |
5 |
| THERMOREVERSIBLE HYALURONAN-HYDROGEL AND AUTOLOGOUS NUCLEUS PULPOSUS CELL DELIVERY REGENERATES HUMAN INTERVERTEBRAL DISCS IN AN EX VIVO, PHYSIOLOGICAL ORGAN CULTURE MODEL |
5 |
| A CROSSLINKED COLLAGEN MEMBRANE VERSUS A NON-CROSSLINKED BILAYER COLLAGEN MEMBRANE FOR SUPPORTING OSTEOGENIC FUNCTIONS OF HUMAN BONE MARROW-MULTIPOTENT STROMAL CELLS |
5 |
| CELLS UNDER PRESSURE - THE RELATIONSHIP BETWEEN HYDROSTATIC PRESSURE AND MESENCHYMAL STEM CELL CHONDROGENESIS |
5 |
| WOVEN BONE OVERVIEW: STRUCTURAL CLASSIFICATION BASED ON ITS INTEGRAL ROLE IN DEVELOPMENTAL, REPAIR AND PATHOLOGICAL BONE FORMATION THROUGHOUT VERTEBRATE GROUPS |
5 |
| DEXAMETHASONE: CHONDROPROTECTIVE CORTICOSTEROID OR CATABOLIC KILLER? |
5 |
| A METAPHYSEAL FRACTURE RAT MODEL FOR MECHANISTIC STUDIES OF OSTEOPOROTIC BONE HEALING |
4 |
| COMPLETE REGENERATION OF LARGE BONE DEFECTS IN RATS WITH COMMERCIALLY AVAILABLE FIBRIN LOADED WITH BMP-2 |
4 |
| DIVERSE EFFECTS OF PULSED ELECTRICAL STIMULATION ON CELLS -WITH A FOCUS ON CHONDROCYTE AND CARTILAGE REGENERATION |
4 |
| BIOFABRICATION OF MULTISCALE BONE EXTRACELLULAR MATRIX SCAFFOLDS FOR BONE TISSUE ENGINEERING |
4 |
| ERYTHROPOIETIN PROMOTES NETWORK FORMATION OF TRANSPLANTED ADIPOSE TISSUE-DERIVED MICRO VASCULAR FRAGMENTS |
4 |
| A METHOD FOR CHARACTERISING HUMAN INTERVERTEBRAL DISC GLYCOSAMINOGLYCAN DISACCHARIDES USING LIQUID CHROMATOGRAPHY-MASS SPECTROMETRY WITH MULTIPLE REACTION MONITORING |
4 |
| TiO2 NANOPARTICLES CAN SELECTIVELY BIND CXCL8 IMPACTING ON NEUTROPHIL CHEMOTAXIS |
4 |
| INHIBITION OF APOPTOSIS EXACERBATES FATIGUE-DAMAGE TENDON INJURIES IN AN IN VIVO RAT MODEL |
4 |
| OSTEOGENIC EXTRACELLULAR MATRIX SHEET FOR BONE TISSUE REGENERATION |
4 |
| THE FUNCTIONAL ROLE OF CHONDROGENIC STEM/PROGENITO R CELLS: NOVEL EVIDENCE FOR IMMUNOMODULATORY PROPERTIES AND REGENERATIVE POTENTIAL AFTER CARTILAGE INJURY |
4 |
| COBALT IONS STIMULATE A FIBROTIC RESPONSE THROUGH MATRIX REMODELLING, FIBROBLAST CONTRACTION AND RELEASE OF PRO-FIBROTIC SIGNALS FROM MACROPHAGES |
4 |
| CARRAGEENAN ENHANCES CHONDROGENESIS AND OSTEOGENESIS IN HUMAN BONE MARROW STEM CELL CULTURE |
4 |
| NOSE TO BACK: COMPATIBILITY OF NASAL CHONDROCYTES WITH ENVIRONMENTAL CONDITIONS MIMICKING A DEGENERATED INTERVERTEBRAL DISC |
3 |
| ADVANCES OF HYALURONIC ACID IN STEM CELL THERAPY AND TISSUE ENGINEERING, INCLUDING CURRENT CLINICAL TRIALS |
3 |
| IMPACT OF HUMAN PLATELET LYSATE ON THE EXPANSION AND CHONDROGENIC CAPACITY OF CULTURED HUMAN CHONDROCYTES FOR CARTILAGE CELL THERAPY |
3 |
| TRANSCRIPTIONAL ACTIVATION OF ENPP1 BY OSTERIX IN OSTEOBLASTS AND OSTEOCYTES |
3 |
| NONDESTRUCTIVE FLUORESCENCE LIFETIME IMAGING AND TIME-RESOLVED FLUORESCENCE SPECTROSCOPY DETECT CARTILAGE MATRIX DEPLETION AND CORRELATE WITH MECHANICAL PROPERTIES |
3 |
| LOCALISATION OF MINERALISED TISSUE IN A COMPLEX SPINNER FLASK ENVIRONMENT CORRELATES WITH PREDICTED WALL SHEAR STRESS LEVEL LOCALISATION |
3 |
| PRECLINICAL IN VIVO MODELS OF FRACTURE-RELATED INFECTION: A SYSTEMATIC REVIEW AND CRITICAL APPRAISAL |
3 |
| OSMOSENSING, OSMOSIGNALLING AND INFLAMMATION: HOW INTERVERTEBRAL DISC CELLS RESPOND TO ALTERED OSMOLARITY |
3 |
