Add to ORKGBone is unusual among structural materials as it is alive and capable of self-repair. Fatigue-induced microdamage is repaired by bone remodelling, but if damage accumulates too quickly, or remodelling is deficient, fatigue failure may result. Fatigue is thought to contribute to both stress and fragility fractures which are of major clinical importance. Despite this, we do not fully understand the nature of fatigue damage in bone. Human rib sections, containing microcracks stained with basic fuchsin, were serially sectioned and microcracks identified and reconstructed in three dimensions using computer software. Microcracks were elliptical in shape, 400 μm long and 100 μm wide, typical of a transversely isotropic material. Chelating agents w...
Despite its clinical importance in developing artificial bone, limited information is available rega...
During daily activities, bone is exposed to repetitive loading, and over time, this can lead to fail...
Fatigue-induced damage plays an important role in bone remodelling and in the formation of stress an...
Bone is unusual among structural materials as it is alive and capable of self-repair. Fatigue-induce...
Fatigue damage in bone occurs in the form of microcracks. This microdamage contributes to the format...
Fatigue damage in bone occurs in the form of microcracks and plays an important role in the initiati...
THESIS 6328Microcracking in bone acts as a stimulus for bone remodelling, contributes to the loss of...
Fatigue-induced microdamage in bone contributes to stress and fragility fractures and acts as a stim...
Bones provide support to the human body as well as protection of vital organs. During daily activiti...
Osteonal bone is often compared to a composite material and to metals as discontinuities within the ...
Bone quantity and quality are considered the main predictors of bone mechanical properties (i.e., st...
This article summarises a number of studies in the area of bone microdamage which were carried out i...
<p>Photomicrographs of calcified transverse sections of ulna at 60% of bone length, from proximal to...
Despite its clinical importance in developing artificial bone, limited information is available rega...
During daily activities, bone is exposed to repetitive loading, and over time, this can lead to fail...
Fatigue-induced damage plays an important role in bone remodelling and in the formation of stress an...
Bone is unusual among structural materials as it is alive and capable of self-repair. Fatigue-induce...
Fatigue damage in bone occurs in the form of microcracks. This microdamage contributes to the format...
Fatigue damage in bone occurs in the form of microcracks and plays an important role in the initiati...
THESIS 6328Microcracking in bone acts as a stimulus for bone remodelling, contributes to the loss of...
Fatigue-induced microdamage in bone contributes to stress and fragility fractures and acts as a stim...
Bones provide support to the human body as well as protection of vital organs. During daily activiti...
Osteonal bone is often compared to a composite material and to metals as discontinuities within the ...
Bone quantity and quality are considered the main predictors of bone mechanical properties (i.e., st...
This article summarises a number of studies in the area of bone microdamage which were carried out i...
<p>Photomicrographs of calcified transverse sections of ulna at 60% of bone length, from proximal to...
Despite its clinical importance in developing artificial bone, limited information is available rega...
During daily activities, bone is exposed to repetitive loading, and over time, this can lead to fail...
Fatigue-induced damage plays an important role in bone remodelling and in the formation of stress an...
