| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/S8756-3282(97)00004-5 |
| P698 | PubMed publication ID | 9108359 |
| P2093 | author name string | Wang Z | |
| Norman TL | |||
| P2860 | cites work | Evolution of human walking | Q34049253 |
| Composition of the cement line and its possible mechanical role as a local interface in human compact bone | Q41421023 | ||
| Bone remodeling in response to in vivo fatigue microdamage | Q41498551 | ||
| Tensile testing of bone over a wide range of strain rates: effects of strain rate, microstructure and density | Q43432662 | ||
| Stress fractures. Identifiable risk factors | Q44618683 | ||
| Mathematical model for repair of fatigue damage and stress fracture in osteonal bone | Q46739401 | ||
| The role of fatigue in the pathogenesis of senile femoral neck fractures. | Q54116601 | ||
| Aging and matrix microdamage accumulation in human compact bone. | Q54155512 | ||
| Tensile strength of bone along and across the grain | Q59409107 | ||
| Fatigue life of compact bone—II. Effects of microstructure and density | Q67444583 | ||
| Compact bone fatigue damage--I. Residual strength and stiffness | Q67656185 | ||
| The natural history of vertebral osteoporosis. Is low bone mass an epiphenomenon? | Q68201055 | ||
| Microdamage in response to repetitive torsional loading in the rat tibia | Q69224563 | ||
| Stress fractures in athletes. A study of 320 cases | Q69741556 | ||
| A hypothetical mechanism for the stimulation of osteonal remodelling by fatigue damage | Q70403143 | ||
| Mechanical loading histories and cortical bone remodeling | Q70488742 | ||
| Increased intracortical remodeling following fatigue damage | Q72838175 | ||
| Radiographic and histologic analyses of stress fracture in rabbit tibias | Q93627878 | ||
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 375-379 | |
| P577 | publication date | 1997-04-01 | |
| P1433 | published in | Bone | Q15755003 |
| P1476 | title | Microdamage of human cortical bone: incidence and morphology in long bones | |
| P478 | volume | 20 |
| Q35189581 | A rate-dependent microcrack-bridging model that can explain the strain rate dependency of cortical bone apparent yield strength |
| Q90265187 | Accumulation of microdamage at complete and incomplete fracture sites in a patient with bilateral atypical femoral fractures on glucocorticoid and bisphosphonate therapy |
| Q34126530 | Activation of bone remodeling after fatigue: differential response to linear microcracks and diffuse damage |
| Q59295398 | Ageing Human Bone: Factors Affecting its Biomechanical Properties and the Role of Collagen |
| Q40060550 | Analysis of micro fracture in human Haversian cortical bone under compression |
| Q41078194 | Are bone turnover markers associated with volumetric bone density, size, and strength in older men and women? The AGES-Reykjavik study |
| Q36010491 | Association between non-enzymatic glycation, resorption, and microdamage in human tibial cortices |
| Q87420801 | Atypical femoral fractures, bisphosphonates, and mechanical stress |
| Q50797330 | Black bear femoral geometry and cortical porosity are not adversely affected by ageing despite annual periods of disuse (hibernation). |
| Q38417534 | Bone as a Structural Material |
| Q80527867 | Bone fracture analysis on the short rod chevron-notch specimens using the X-ray computer micro-tomography |
| Q73289431 | Bone strain and microcracks at stress fracture sites in human metatarsals |
| Q44873441 | Calculation of porosity and osteonal cement line effects on the effective fracture toughness of cortical bone in longitudinal crack growth |
| Q60859890 | Cortical bone tissue resists fatigue fracture by deceleration and arrest of microcrack growth |
| Q59295420 | Cumulative damage and the response of human bone in two-step loading fatigue |
| Q35202077 | Detecting microdamage in bone |
| Q34606313 | Determinants of microdamage in elderly human vertebral trabecular bone |
| Q48354098 | Development of a novel method for the strengthening and toughening of irradiation-sterilized bone allografts. |
| Q47974232 | Development of an in vivo bone fatigue damage model using axial compression of the rabbit forelimb |
| Q34932153 | Discoveries, drugs and skeletal disorders |
| Q73920188 | Does suppression of bone turnover impair mechanical properties by allowing microdamage accumulation? |
| Q46295396 | Effects of preexisting microdamage, collagen cross-links, degree of mineralization, age, and architecture on compressive mechanical properties of elderly human vertebral trabecular bone |
| Q54517967 | Epidemiology, radiology and histology of atypical femoral fractures. |
| Q33602332 | Evaluating bone quality in patients with chronic kidney disease |
| Q33913782 | FATIGUE OF BIOMATERIALS: HARD TISSUES. |
| Q90253734 | Fatigue as the missing link between bone fragility and fracture |
| Q53977217 | Fatigue damage-fracture mechanics interaction in cortical bone. |
| Q77596758 | Fluorescence-aided detection of microdamage in compact bone |
| Q92312137 | Gradient fluid shear stress regulates migration of osteoclast precursors |
| Q30494296 | Hierarchy of Bone Microdamage at Multiple Length Scales |
| Q33774987 | Histology of 8 atypical femoral fractures: remodeling but no healing |
| Q30839821 | In vivo diffuse damage in human vertebral trabecular bone |
| Q45113674 | Influence of microdamage on fracture toughness of the human femur and tibia |
| 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 |
| Q36203370 | Microcracks in cortical bone: how do they affect bone biology? |
| Q51601927 | Microdamage accumulation changes according to animal mass: an intraspecies investigation. |
| Q35541103 | Microdamage and bone strength |
| Q92189057 | Microdamage as a Bone Quality Component: Practical Guidelines for the Two-Dimensional Analysis of Linear Microcracks in Human Cortical Bone |
| Q36442946 | Micromechanical modeling of R-curve behaviors in human cortical bone |
| Q36052388 | Morphology, localization and accumulation of in vivo microdamage in human cortical bone |
| Q27025025 | Multiscale imaging of bone microdamage |
| Q30444855 | Non destructive characterization of cortical bone micro-damage by nonlinear resonant ultrasound spectroscopy. |
| Q42713585 | Non-destructive characterization of microdamage in cortical bone using low field pulsed NMR. |
| Q30483455 | Probabilistic failure analysis of bone using a finite element model of mineral-collagen composites |
| 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 |
| Q53361937 | Repair mechanisms for microdamage in bone. |
| Q35197628 | Risk of atypical femoral fracture during and after bisphosphonate use. |
| Q46938829 | Sensitivity of multiple damage parameters to compressive overload in cortical bone |
| Q27334660 | Synchrotron radiation micro-CT at the micrometer scale for the analysis of the three-dimensional morphology of microcracks in human trabecular bone |
| Q51812466 | The cellular transducer in damage-stimulated bone remodelling: a theoretical investigation using fracture mechanics |
| Q86358287 | The complex relationship between bone remodeling and the physical and material properties of bone |
| Q38004934 | The contribution of the extracellular matrix to the fracture resistance of bone |
| Q42115558 | The effect of strain rate on fracture toughness of human cortical bone: a finite element study |
| Q61968595 | The effects of damage and microcracking on the impact strength of bone |
| Q51121356 | The effects of loading time on osseointegration and new bone formation around dental implants: a histologic and histomorphometric study in dogs. |
| Q35842418 | The effects of zoledronate on the survival and function of human osteoblast-like cells |
| Q33700394 | The resistance of cortical bone tissue to failure under cyclic loading is reduced with alendronate |
| Q36593298 | The role of osteocytes and bone microstructure in preventing osteoporotic fractures |
| Q44889466 | Time-dependent circumferential deformation of cortical bone upon internal radial loading |
| Q41711451 | Toward a unifying theory of bone remodeling |
| Q37720668 | Variability of in vivo linear microcrack accumulation in the cortex of elderly human ribs |
| Q35784221 | Viscoelastic properties of human cortical bone tissue depend on gender and elastic modulus |
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