| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/S8756-3282(99)00253-7 |
| P698 | PubMed publication ID | 10678409 |
| P2093 | author name string | D Vashishth | |
| M B Schaffler | |||
| D P Fyhrie | |||
| S J Qiu | |||
| J Koontz | |||
| Y N Yeni | |||
| D Lundin-Cannon | |||
| P2860 | cites work | Three-dimensional confocal images of microdamage in cancellous bone | Q32004763 |
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| The epidemiology of fragility fractures: is there a role for bone quality? | Q40798016 | ||
| Bone quality: a determinant for certain risk factors for bone fragility | Q40798022 | ||
| Bone remodeling in response to in vivo fatigue microdamage | Q41498551 | ||
| Bone microdamage and skeletal fragility in osteoporotic and stress fractures | Q41548269 | ||
| Microdamage of human cortical bone: incidence and morphology in long bones | Q45103961 | ||
| In vivo trabecular microcracks in human vertebral bone. | Q51002385 | ||
| Aging and matrix microdamage accumulation in human compact bone. | Q54155512 | ||
| Changes in the Stiffness, Strength, and Toughness of Human Cortical Bone With Age | Q59295429 | ||
| Crack growth resistance in cortical bone: Concept of microcrack toughening | Q63814533 | ||
| Sex differences in age-related loss of vertebral trabecular bone mass and structure--biomechanical consequences | Q69447187 | ||
| A quantitative histologic study of bone turnover in young adult beagles | Q70420895 | ||
| Alterations to the en bloc basic fuchsin staining protocol for the demonstration of microdamage produced in vivo | Q70929906 | ||
| Failure mechanisms in human vertebral cancellous bone | Q72045390 | ||
| Increased intracortical remodeling following fatigue damage | Q72838175 | ||
| Trabecular bone volume and microdamage accumulation in the femoral heads of women with and without femoral neck fractures | Q74045664 | ||
| Assessment of cancellous bone quality in severe osteoarthrosis: bone mineral density, mechanics, and microdamage | Q74472402 | ||
| Damage type and strain mode associations in human compact bone bending fatigue | Q74793935 | ||
| Intracortical remodeling in adult rat long bones after fatigue loading | Q77298546 | ||
| P433 | issue | 2 | |
| P304 | page(s) | 147-152 | |
| P577 | publication date | 2000-02-01 | |
| P1433 | published in | Bone | Q15755003 |
| P1476 | title | In vivo diffuse damage in human vertebral trabecular bone | |
| P478 | volume | 26 |
| Q36296930 | A direct role of collagen glycation in bone fracture |
| Q30469283 | A non-invasive in vitro technique for the three-dimensional quantification of microdamage in trabecular bone |
| Q47939429 | A quasi-brittle continuum damage finite element model of the human proximal femur based on element deletion. |
| Q34126530 | Activation of bone remodeling after fatigue: differential response to linear microcracks and diffuse damage |
| Q36005508 | Activation of resorption in fatigue-loaded bone involves both apoptosis and active pro-osteoclastogenic signaling by distinct osteocyte populations |
| Q34402472 | Age-dependence of power spectral density and fractal dimension of bone mineralized matrix in atomic force microscope topography images: potential correlates of bone tissue age and bone fragility in female femoral neck trabeculae. |
| Q36010491 | Association between non-enzymatic glycation, resorption, and microdamage in human tibial cortices |
| Q30369765 | Biomechanics and mechanobiology of trabecular bone: a review. |
| Q35211086 | Bone microdamage, remodeling and bone fragility: how much damage is too much damage? |
| Q37352318 | Density and architecture have greater effects on the toughness of trabecular bone than damage. |
| Q34606313 | Determinants of microdamage in elderly human vertebral trabecular bone |
| Q34468075 | Dilatational band formation in bone |
| Q51798694 | Effects of damage on the orthotropic material symmetry of bovine tibial trabecular bone. |
| Q30455235 | Effects of fatigue on microstructure and mechanical properties of bone organic matrix under compression. |
| Q33906661 | Effects of mechanical forces on maintenance and adaptation of form in trabecular bone |
| Q46295396 | Effects of preexisting microdamage, collagen cross-links, degree of mineralization, age, and architecture on compressive mechanical properties of elderly human vertebral trabecular bone |
| Q47664047 | Elevated solute transport at sites of diffuse matrix damage in cortical bone: Implications on bone repair |
| Q52117511 | Gender-specific pubertal changes in volumetric cortical bone mineral density at the proximal radius. |
| Q30494296 | Hierarchy of Bone Microdamage at Multiple Length Scales |
| Q58578651 | In Vivo Osteocyte Mechanotransduction: Recent Developments and Future Directions |
| Q91329973 | In vivo Labeling of Bone Microdamage in an Animal Model of Type 1 Diabetes Mellitus |
| Q36922581 | In vivo microdamage is an indicator of susceptibility to initiation and propagation of microdamage in human femoral trabecular bone. |
| Q36777313 | Living with cracks: damage and repair in human bone |
| Q35962480 | Mechanical failure begins preferentially near resorption cavities in human vertebral cancellous bone under compression |
| Q43608298 | Mechanistic fracture criteria for the failure of human cortical bone |
| Q50516899 | Methodological approach for the detection of both microdamage and fluorochrome labels in ewe bone and human trabecular bone. |
| Q35747398 | Microarchitecture influences microdamage accumulation in human vertebral trabecular bone |
| Q41323498 | Microcracks and osteoclast resorption activity in vitro |
| Q35080548 | Microdamage caused by fatigue loading in human cancellous bone: relationship to reductions in bone biomechanical performance |
| Q51102452 | Modeling microdamage behavior of cortical bone. |
| Q36052388 | Morphology, localization and accumulation of in vivo microdamage in human cortical bone |
| Q27025025 | Multiscale imaging of bone microdamage |
| Q34614556 | Nanoscale examination of microdamage in sheep cortical bone using synchrotron radiation transmission x-ray microscopy |
| Q35429148 | Non-enzymatic glycation alters microdamage formation in human cancellous bone. |
| Q46780338 | Nonlinear behavior of trabecular bone at small strains |
| Q30879535 | Observations of microdamage around osteocyte lacunae in bone. |
| Q37137450 | Osteocyte apoptosis controls activation of intracortical resorption in response to bone fatigue |
| Q33803842 | Osteocyte apoptosis is required for production of osteoclastogenic signals following bone fatigue in vivo. |
| Q30483455 | Probabilistic failure analysis of bone using a finite element model of mineral-collagen composites |
| Q34016761 | Quantitative relationships between microdamage and cancellous bone strength and stiffness |
| Q84996701 | Relationships between in vivo microdamage and the remarkable regional material and strain heterogeneity of cortical bone of adult deer, elk, sheep and horse calcanei |
| Q44218153 | Relative roles of microdamage and microfracture in the mechanical behavior of trabecular bone |
| Q53361937 | Repair mechanisms for microdamage in bone. |
| Q35171248 | Role of trabecular microarchitecture in the formation, accumulation, and morphology of microdamage in human cancellous bone. |
| Q46665045 | Sensitivity of damage predictions to tissue level yield properties and apparent loading conditions |
| Q35529112 | Shear strength and toughness of trabecular bone are more sensitive to density than damage |
| Q45968375 | Similarity in the fatigue behavior of trabecular bone across site and species. |
| Q30397387 | Structural and mechanical repair of diffuse damage in cortical bone in vivo |
| Q21195248 | Subchondral bone in osteoarthritis: insight into risk factors and microstructural changes |
| Q37264577 | The effect of recovery time and test conditions on viscoelastic measures of tensile damage in cortical bone |
| Q35002114 | The effects of tensile-compressive loading mode and microarchitecture on microdamage in human vertebral cancellous bone |
| Q46011363 | The importance of intrinsic damage properties to bone fragility: a finite element study. |
| Q28767542 | The real response of bone to exercise |
| Q36593298 | The role of osteocytes and bone microstructure in preventing osteoporotic fractures |
| Q42380946 | The roles of architecture and estrogen depletion in microdamage risk in trabecular bone |
| Q87419278 | Three-dimensional morphology of microdamage in peri-screw bone: a scanning electron microscopy of methylmethacrylate cast replica |
| Q38079559 | Towards patient-specific material modeling of trabecular bone post-yield behavior. |
| Q74424105 | Trabecular shear stress in human vertebral cancellous bone: intra- and inter-individual variations |
| Q37476854 | Translational aspects of bone quality--vertebral fractures, cortical shell, microdamage and glycation: a tribute to Pierre D. Delmas |
| Q33644824 | Wedge Indentation Fracture of Cortical Bone: Experimental Data and Predictions |
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