InhaltsangabePerspectives of Advances in Musculoskeletal and Scaffold Biomaterial Imaging Technologies and Applications. Advances in Assessment of Quality of Bone and Orthopaedic Applications: Perspectives on Advances in Bone Imaging for Osteoporosis.- Bone Structure and Biomechanical Analyses Using Imaging and Simulation Technology.-Imaging Technologies for Orthopaedic Visualization and Simulation.-In vivo Bone Mineral Density and Structures in Humans - From Isotom over Densiscan to Xtreme-CTR.- Calibration of Micro-CT Data for Quantifying Bone Mineral and Biomaterial Density and Micorarchitecture.- Repositioning of the Region of Interest in the Radius of the Growing Child in Follow-Up Measurements by pQCT.- Non-invasive Bone Quality Assessment Using Quantitative Ultrasound Imaging and Acoustic Parameters.- Advances in Microscopic Technologies and Applications: Cortical Bone Mineral Status Evaluated by pQCT, Quantitative Backscattered Electron Imaging and Polarized Light Microscopy.-MicroCT and Imaging.- High-Fidelity Histologic Three-Dimensional Analysis of Bone and Cartilage.- Application of Laser Scanning Confocal Microscopy in Musculoskeletal Research.-Fiber-optic Nano-biosensors and Near-field Scanning Optical Microscopy for Biological Imaging.- Changes of Biological Function of Bone Cells and Effect of anti-osteoporosis Agents on Bone Cells.- Bone Histomorphometry in Various Metabolic Bone Diseases Studied by Bone Biopsy in China.-Cell Traction Force Microscopy.- Advances in Vascular Research and Applications: Contrast Enhancement Micro-CT Imaging of Soft Tissues. Advances in Scaffold Biomaterial Research and Applications: Materials Selection and Scaffold Fabrication for Tissue Engineering in Orthopaedics.-Quantification of Porosity, Connectivity and Material Density of Calcium Phosphate Ceramic Implants Using Micro Computed Tomography.- Bone Densitometries in Assessing Bone Mineral and Structural Profiles in Patients with Adolescent Idiopathic Scoliosis.- Application of Nano-CT and High Resolution Micro-CT to Study Bone Quality and Ultrastructure, Scaffold Biomaterials and Vascular Networks.- Bio-imaging Technologies in Studying Bone-Biomaterial Interface - Applications in Experimental Spinal Fusion Model.- Assessment of Bone, Cartilage, Tendon and Bone Cells by Confocal Laser Scanning Microscopy.-TEM study of Bone and Scaffold Materials.Specific Applications of Advances in Musculoskeletal and Scaffold Biomaterial Imaging Technologies. In Assessment of Osteoporosis and Treatment: Material and Structural Basis of Bone Fragility - A Rational Approach to Therapy.- Application of Micro CT and MRI in Clinical and Preclinical Studies of Osteoporosis and Related Disorders.- CT-based Microstructure Analysis for Assessment of Bone Fragility.- Discrimination of Contributing Factors to Bone Fragility using vQCT In-vivo.- Osteoporosis Research with VivaCT.- Mechanical Properties of Vertebral Trabeculae with Ageing Evaluated with MicroCT.- MRI Evaluation and Osteoporosis.- Multiple Bio-imaging Modalities in Evaluation of Epimedium-derived Phytoestrogenic Fraction for Prevention of Postmenopausal Osteoporosis.- Areal and Volumetric Bone Densitometry in Evaluation of Tai Chi Exercise for Prevention of Postmenopausal Osteoporosis.- Enhancement of Osteoporotic Bone Using Injectable Hydroxyapatite in OVX Goats Evaluated by Multi-imaging Modalities.- In Assessment of Fracture Repair: Quality of Healing Compared Between Osteoporotic Fracture and Normal Traumatic Fracture.-Monitoring Fracture Healing Using Digital Radiographies.-Fracture Callus Under Anti-resorptive Agents Treatment Evaluated by pQCT.- In Assessment of Osteonecrosis: Volumetric Measurement of Osteonecrotic Femoral Head Using Computerized MRI and Prediction for its Mechanical Properties.-Biomedical Engineering in Surgical Repair of Osteonecrosis - The Role of Imaging Technologies.- Contrast-enhanced MRI and micro-CT Adopted for Evaluation of a Lipid-lowerig and Antico

InhaltsangabePerspectives of Advances in Musculoskeletal and Scaffold Biomaterial Imaging Technologies and Applications. Advances in Assessment of Quality of Bone and Orthopaedic Applications: Perspectives on Advances in Bone Imaging for Osteoporosis.- Bone Structure and Biomechanical Analyses Using Imaging and Simulation Technology.-Imaging Technologies for Orthopaedic Visualization and Simulation.-In vivo Bone Mineral Density and Structures in Humans - From Isotom over Densiscan to Xtreme-CTR.- Calibration of Micro-CT Data for Quantifying Bone Mineral and Biomaterial Density and Micorarchitecture.- Repositioning of the Region of Interest in the Radius of the Growing Child in Follow-Up Measurements by pQCT.- Non-invasive Bone Quality Assessment Using Quantitative Ultrasound Imaging and Acoustic Parameters.- Advances in Microscopic Technologies and Applications: Cortical Bone Mineral Status Evaluated by pQCT, Quantitative Backscattered Electron Imaging and Polarized Light Microscopy.-MicroCT and Imaging.- High-Fidelity Histologic Three-Dimensional Analysis of Bone and Cartilage.- Application of Laser Scanning Confocal Microscopy in Musculoskeletal Research.-Fiber-optic Nano-biosensors and Near-field Scanning Optical Microscopy for Biological Imaging.- Changes of Biological Function of Bone Cells and Effect of anti-osteoporosis Agents on Bone Cells.- Bone Histomorphometry in Various Metabolic Bone Diseases Studied by Bone Biopsy in China.-Cell Traction Force Microscopy.- Advances in Vascular Research and Applications: Contrast Enhancement Micro-CT Imaging of Soft Tissues. Advances in Scaffold Biomaterial Research and Applications: Materials Selection and Scaffold Fabrication for Tissue Engineering in Orthopaedics.-Quantification of Porosity, Connectivity and Material Density of Calcium Phosphate Ceramic Implants Using Micro Computed Tomography.- Bone Densitometries in Assessing Bone Mineral and Structural Profiles in Patients with Adolescent Idiopathic Scoliosis.-Application of Nano-CT and High Resolution Micro-CT to Study Bone Quality and Ultrastructure, Scaffold Biomaterials and Vascular Networks.- Bio-imaging Technologies in Studying Bone-Biomaterial Interface - Applications in Experimental Spinal Fusion Model.- Assessment of Bone, Cartilage, Tendon and Bone Cells by Confocal Laser Scanning Microscopy.-TEM study of Bone and Scaffold Materials.Specific Applications of Advances in Musculoskeletal and Scaffold Biomaterial Imaging Technologies. In Assessment of Osteoporosis and Treatment: Material and Structural Basis of Bone Fragility - A Rational Approach to Therapy.- Application of Micro CT and MRI in Clinical and Preclinical Studies of Osteoporosis and Related Disorders.- CT-based Microstructure Analysis for Assessment of Bone Fragility.- Discrimination of Contributing Factors to Bone Fragility using vQCT In-vivo.- Osteoporosis Research with VivaCT.- Mechanical Properties of Vertebral Trabeculae with Ageing Evaluated with MicroCT.- MRI Evaluation and Osteoporosis.- Multiple Bio-imaging Modalities in Evaluation of Epimedium-derived Phytoestrogenic Fraction for Prevention of Postmenopausal Osteoporosis.- Areal and Volumetric Bone Densitometry in Evaluation of Tai Chi Exercise for Prevention of Postmenopausal Osteoporosis.- Enhancement of Osteoporotic Bone Using Injectable Hydroxyapatite in OVX Goats Evaluated by Multi-imaging Modalities.- In Assessment of Fracture Repair: Quality of Healing Compared Between Osteoporotic Fracture and Normal Traumatic Fracture.-Monitoring Fracture Healing Using Digital Radiographies.-Fracture Callus Under Anti-resorptive Agents Treatment Evaluated by pQCT.- In Assessment of Osteonecrosis: Volumetric Measurement of Osteonecrotic Femoral Head Using Computerized MRI and Prediction for its Mechanical Properties.-Biomedical Engineering in Surgical Repair of Osteonecrosis - The Role of Imaging Technologies.- Contrast-enhanced MRI and micro-CT Adopted for Evaluation of a Lipid-lowerig and