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Proceedings of the National Academy of Sciences - PNAS, ISSN 1091-6490, 2011, Volume 108, Issue 4, pp. 1609 - 1614
Radiation therapy can result in bone injury with the development of fractures and often can lead to delayed and nonunion of bone... 
Femur | Free radicals | Stem cells | Irradiation | Bone marrow | Bones | Physical trauma | Bone marrow cells | Radiation damage | Mesenchymal stem cells | CFU-fibroblast | Self-renewal | Angiography | Repopulation | Differentiation | MIGRATION | CAPACITY | differentiation | ANGIOGENESIS | MULTIDISCIPLINARY SCIENCES | OSTEOGENESIS | self-renewal | angiography | CHEMOTHERAPY | TRANSPLANTATION | ORIGIN | ENGRAFTMENT | THERAPY | repopulation | Femur - pathology | Leukocyte Common Antigens - metabolism | Mesenchymal Stromal Cells - radiation effects | Blood Vessels - pathology | Bone Marrow - radiation effects | Blood Vessels - radiation effects | Radiation Injuries, Experimental - etiology | Free Radicals - metabolism | Antigens, Ly - metabolism | Colony-Forming Units Assay | Membrane Proteins - metabolism | Radiation Injuries, Experimental - metabolism | Osteoblasts - radiation effects | Femur - metabolism | Mice, Inbred C57BL | Bone Marrow Cells - pathology | Mesenchymal Stromal Cells - metabolism | Thiobarbituric Acid Reactive Substances - metabolism | Bone Marrow Cells - radiation effects | Radiation Injuries, Experimental - pathology | Fibroblasts - pathology | Femur - radiation effects | Integrin beta1 - metabolism | Osteoblasts - pathology | Animals | Fibroblasts - radiation effects | Bone Marrow - pathology | Mice | Mesenchymal Stromal Cells - pathology | Bone Marrow Cells - metabolism | Physiological aspects | Complications and side effects | Stem cell research | Care and treatment | Radiotherapy | Biological Sciences
Journal Article
Biomaterials, ISSN 0142-9612, 2009, Volume 30, Issue 6, pp. 1015 - 1025
Journal Article
Biomaterials, ISSN 0142-9612, 2011, Volume 32, Issue 32, pp. 8161 - 8171
Abstract We describe in this study the positive influences on in vitro and in vivo osteogenesis of photo-cured hyaluronic acid (HA) hydrogels loaded with... 
Advanced Basic Science | Dentistry | Bone tissue regeneration | Hydrogel | Hyaluronic acid | Photopolymerization | Simvastatin | NANOPARTICLES | CELLS | IN-VITRO | MATERIALS SCIENCE, BIOMATERIALS | ENGINEERING, BIOMEDICAL | Cell Death - radiation effects | Methacrylates - chemistry | RNA, Messenger - metabolism | Simvastatin - pharmacology | Spectroscopy, Fourier Transform Infrared | Tissue Scaffolds - chemistry | Polymerization - drug effects | Light | Surface Properties - drug effects | Methacrylates - chemical synthesis | Rheology - radiation effects | Cell Death - drug effects | Surface Properties - radiation effects | Osteogenesis - genetics | Bone Regeneration - drug effects | Cell Line | Cell Survival - drug effects | Rabbits | Calcification, Physiologic - drug effects | Polymerization - radiation effects | Osteogenesis - drug effects | RNA, Messenger - genetics | Hyaluronic Acid - chemistry | Calcification, Physiologic - radiation effects | Osteogenesis - radiation effects | Reverse Transcriptase Polymerase Chain Reaction | Cell Survival - radiation effects | Animals | Fibroblasts - radiation effects | Fibroblasts - drug effects | Cell Proliferation - drug effects | Fibroblasts - cytology | Mice | Kinetics | Hydrogels - chemistry | Rheology - drug effects | Cell Proliferation - radiation effects | Biological products | Antilipemic agents | Biomedical engineering
Journal Article
International journal of molecular sciences, ISSN 1661-6596, 10/2017, Volume 18, Issue 10, p. 2117
Space radiation may pose a risk to skeletal health during subsequent aging. Irradiation acutely stimulates bone remodeling in mice, although the long-term influence of space radiation on bone-forming potential (osteoblastogenesis... 
Osteoblast | Oxidative stress | Ionizing radiation | Cancellous bone | Spaceflight | TRANSCRIPTION FACTORS | STEM-CELLS | MARROW | BIOCHEMISTRY & MOLECULAR BIOLOGY | cancellous bone | osteoblast | BETA-CATENIN | CHEMISTRY, MULTIDISCIPLINARY | spaceflight | IRRADIATION | BONE LOSS | MUSCULOSKELETAL DISUSE | MICE | IONIZING-RADIATION | ionizing radiation | oxidative stress | Oxidative Stress | Protons - adverse effects | Gene Expression - genetics | Mice, Inbred C57BL | Oxidation-Reduction - radiation effects | Male | Bone Marrow Cells - radiation effects | Osteogenesis - radiation effects | Radiation Dosage | Gene Expression - radiation effects | Iron Isotopes - adverse effects | Animals | Musculoskeletal Physiological Phenomena - radiation effects | Radiation Exposure - adverse effects | Linear Energy Transfer | Mice | Dose-Response Relationship, Radiation | Osteogenesis - genetics | Radiation, Ionizing | Protons | Adherent cells | Cell culture | Genes | Superoxide dismutase | Cesium isotopes | Lysates | Biomedical materials | Catalase | Computed tomography | Mineralization | Rodents | Computer architecture | Bone marrow | Biocompatibility | Inhibition | Extraterrestrial radiation | Bone loss | Radiation effects | Bone remodelling | Exposure | Gene expression | Radiation dosage | Nodules | Polymerase chain reaction | Osteoblastogenesis | GADD45 protein | Radiation damage | Bone (cancellous) | Biochemistry & Molecular Biology | Chemistry
Journal Article
PloS one, ISSN 1932-6203, 04/2015, Volume 10, Issue 4, p. e0119334
.... The oxic effects on radiosensitivity, cell cycle progression are largely unknown, and the radiation effects on hMSCs differentiation capacities remained unexplored... 
CARTILAGE REPAIR | MATRIX SYNTHESIS | RECRUITMENT | MARROW | BONE MORPHOGENETIC PROTEIN-2 | MULTIDISCIPLINARY SCIENCES | BREAKS | IONIZING-RADIATION | STROMAL CELLS | HYPOXIA | EXPRESSION | Mesenchymal Stromal Cells - radiation effects | Humans | Male | Young Adult | G2 Phase Cell Cycle Checkpoints - radiation effects | Mesenchymal Stromal Cells - cytology | Cellular Senescence - radiation effects | Adult | Collagen - genetics | Osteoblasts - cytology | Chondrogenesis | Cell Differentiation - radiation effects | Cell Line | Gene Expression | Osteoblasts - radiation effects | Cell Cycle - radiation effects | Oxygen Consumption | Mesenchymal Stromal Cells - metabolism | Cell Survival - radiation effects | Collagen - metabolism | X-Rays | Adolescent | Osteoblasts - metabolism | Osteogenesis | Cell Proliferation - radiation effects | Cell culture | Alkaline phosphatase | Collagen (type I) | Radiosensitivity | Mesenchyme | Sox9 protein | Genes | Radiation | Impairment | Collagens | Osteoblasts | Mimicry | Defects | Degradation | Proteins | Cell cycle | Bone marrow | Biocompatibility | Radiation effects | Cbfa-1 protein | Osteopontin | Radiation therapy | Gene expression | Collagenase 3 | Osteoblastogenesis | S phase | Stem cells | Irradiation | Hypoxia | Differentiation | Viability | Three dimensional models | Tumors
Journal Article
Journal Article
Biomaterials, ISSN 0142-9612, 2009, Volume 30, Issue 3, pp. 344 - 353
Journal Article
Journal Article
Stem cell research & therapy, ISSN 1757-6512, 08/2016, Volume 7, Issue 1, p. 117
.... Methods: Two female pigs received a single 18 Gy dose of ionizing radiation to an 18 x 8 cm area on the dorsal body skin via a 6 MeV electron beam... 
Cell proliferation | Mesenchymal stromal cells | Senescence | Cell differentiation | Swine | Radiation | MEDICINE, RESEARCH & EXPERIMENTAL | ACTIVATED RECEPTOR-GAMMA | ADIPOCYTES | BONE-MARROW | DEATH | CELL BIOLOGY | MESSENGER-RNA | PROTEINS | EXPRESSION | NORMAL TISSUE-INJURY | ADIPOGENIC DIFFERENTIATION | Osteogenesis - physiology | Adipose Tissue - physiology | Mesenchymal Stromal Cells - radiation effects | Fibroblasts - physiology | Adipocytes - physiology | Stem Cells - metabolism | Adipogenesis - physiology | Adipose Tissue - radiation effects | Adipose Tissue - metabolism | Subcutaneous Fat - metabolism | Chondrocytes - physiology | beta-Galactosidase - metabolism | Female | Chondrocytes - radiation effects | Cell Differentiation - physiology | Chondrocytes - metabolism | Mesenchymal Stromal Cells - physiology | Fibroblasts - metabolism | Radiation, Ionizing | Cell Differentiation - radiation effects | Adipogenesis - radiation effects | Cell Proliferation - physiology | Cells, Cultured | Stem Cells - radiation effects | Mesenchymal Stromal Cells - metabolism | Osteogenesis - radiation effects | Chondrogenesis - physiology | Chondrogenesis - radiation effects | Animals | Fibroblasts - radiation effects | Adipocytes - metabolism | Adipocytes - radiation effects | Stem Cells - physiology | Cell Proliferation - radiation effects | Usage | Care and treatment | Stem cells | Research | Radiotherapy | Cancer
Journal Article
Lasers in medical science, ISSN 1435-604X, 2018, Volume 34, Issue 1, pp. 115 - 126
Tissue engineering aims to take advantage of the ability of undifferentiated stem cells to differentiate into multiple cell types to repair damaged tissue.... 
Cartilage | Quantum Optics | Medicine & Public Health | Mesenchymal stem cells, bone | Low level light therapy | Optics, Lasers, Photonics, Optical Devices | Photobiomodulation | Comparison of wavelengths | Dentistry | Medicine/Public Health, general | SURGERY | ENGINEERING, BIOMEDICAL | bone | PROMOTES PROLIFERATION | IRRADIATION | IN-VITRO | THERAPY | BIPHASIC DOSE-RESPONSE | OSTEOBLASTS | PHOTOTHERAPY | Mesenchymal stem cells | Cell Differentiation - radiation effects | Rabbits | Alkaline Phosphatase - genetics | Collagen Type I - metabolism | Chondrogenesis - genetics | Mesenchymal Stem Cells - radiation effects | Alkaline Phosphatase - metabolism | Cells, Cultured | Osteogenesis - radiation effects | Collagen Type II - genetics | Cell Lineage - radiation effects | Cell Shape - radiation effects | Collagen Type II - metabolism | Chondrogenesis - radiation effects | Animals | Collagen Type I - genetics | Lasers | Mesenchymal Stem Cells - cytology | Cartilage - cytology | Gene Expression Regulation - radiation effects | Low-Level Light Therapy | Osteogenesis - genetics | Bone and Bones - cytology | Cell Proliferation - radiation effects | Cell proliferation | Osteocalcin | Mesenchyme | Tissue engineering | Sox9 protein | Irradiated | I.R. radiation | Clear cutting | Polymerase chain reaction | Biomedical materials | Cell growth | Wavelengths | Stem cells | Bone marrow | Organic light emitting diodes | Irradiation | Biomarkers | Biocompatibility | Aggrecan | Differentiation | Osteogenesis | photobiomodulation | low level light therapy | comparison of wavelengths | mesenchymal stem cells | cartilage
Journal Article
Journal Article