Person
ISNI: 
0000 0001 3543 1247
https://isni.org/isni/0000000135431247
Name: 
Vashishth, D.
Vashishth, Deepak
Vashishth, Deepak D.
Creation class: 
article
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Creation role: 
author
Related names: 
Queen Mary, University of London
Titles: 
Age-dependent biomechanical modifications in bone.
Age-dependent fatigue behaviour of human cortical bone.
Age-related change in the damage morphology of human cortical bone and its role in bone fragility.
Anisotropy of age-related toughness loss in human cortical bone: a finite element study.
Bisphosphonate treatment modifies canine bone mineral and matrix properties and their heterogeneity
Changes in non-enzymatic glycation and its association with altered mechanical properties following 1-year treatment with risedronate or alendronate
Cohesive finite element modeling of age-related toughness loss in human cortical bone
Collagen glycation and its role in fracture properties of bone.
Contribution, development and morphology of microcracking in cortical bone during crack propagation
Crack growth resistance in cortical bone: Concept of microcrack toughening
Damage mechanisms and failure modes of cortical bone under components of physiological loading*
Decline in osteocyte lacunar density in human cortical bone is associated with accumulation of microcracks with age.
Determination of bone volume by osteocyte population.
Effects of collagen crosslinking on tissue fragility.
Effects of damage morphology on cortical bone fragility
Effects of intracortical porosity on fracture toughness in aging human bone: a microCT-based cohesive finite element study.
Effects of non-enzymatic glycation on cancellous bone fragility
Experimental validation of a microcracking-based toughening mechanism for cortical bone
Fatigue of cortical bone under combined axial-torsional loading
Fracture of cortical bone under controlled crack propagation and combined axial-torsional fatigue loading
Hierarchy of bone microdamage at multiple length scales
In vivo diffuse damage in human vertebral trabecular bone.
Influence of nonenzymatic glycation on biomechanical properties of cortical bone.
Influence of phase angle between axial and torsional loadings on fatigue fractures of bone.
Interactions between microstructural and geometrical adaptation in human cortical bone.
Microarchitecture Influences Microdamage Accumulation in Human Vertebral Trabecular Bone
Morphology, localization and accumulation of in vivo microdamage in human cortical bone.
non-invasive in vitro technique for the three-dimensional quantification of microdamage in trabecular bone, A
relative contributions of non-enzymatic glycation and cortical porosity on the fracture toughness of aging bone, The
Rising crack-growth-resistance behavior in cortical bone: implications for toughness measurements.
role of the collagen matrix in skeletal fragility., The
Sexual dimorphism and age dependence of osteocyte lacunar density for human vertebral cancellous bone.
Small animal bone biomechanics.
Susceptibility of aging human bone to mixed-mode fracture increases bone fragility
Trabecular shear stress in human vertebral cancellous bone: intra- and inter-individual variations.
Trabecular Shear Stresses Predict In Vivo Linear Microcrack Density but not Diffuse Damage in Human Vertebral Cancellous Bone
UPLC methodology for identification and quantitation of naturally fluorescent crosslinks in proteins: A study of bone collagen
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ASME -PUBLICATIONS- BED
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