During bone regeneration, mechanical loading is believed to be responsible for provoking bone formation, however previous investigations into tissue level loading have been limited to crosssectional studies and relied upon idealized models for mechanics. By applying in vivo time-lapse micro-computed tomography (microCT) in concert with imaged based micro-finite element (microFE) analysis we have overcome these limitations and have identified an association between tissue loading and bone formation during fracture healing. A femoral defect of 1.24[SD = 0.13] mm was created in five female mice (C57BL/6); the femur was first stabilized with an external fixator (MouseExFix, RISystem, Switzerland). Weekly scans were performed using microCT imagi...
Longitudinal in vivo micro-computed tomography (micro-CT) is of interest to non-invasively capture t...
Recently, micro-Finite Element (micro-FE) analysis based on High Resolution peripheral Quantitative ...
The treatment of large segmental bone defects remains a significant clinical challenge. Due to limit...
During bone regeneration, mechanical loading is believed to be responsible for provoking bone format...
\u3cp\u3eAn improved understanding of how local mechanical stimuli guide the fracture healing proces...
An improved understanding of how local mechanical stimuli guide the fracture healing process has the...
Bone healing and remodeling are mechanically driven processes. While the generalized response to mec...
Thorough preclinical evaluation of functionalized biomaterials for treatment of large bone defects i...
Biomaterials for bone regeneration are constantly under development, and their application in critic...
Mechanical loading allows both investigation into the mechano-regulation of fracture healing as well...
Biomechanical testing is the gold standard to determine bone competence, and has been used extensive...
Longitudinal in vivo micro-computed tomography (micro-CT) is of interest to non-invasively capture t...
Recently, micro-Finite Element (micro-FE) analysis based on High Resolution peripheral Quantitative ...
The treatment of large segmental bone defects remains a significant clinical challenge. Due to limit...
During bone regeneration, mechanical loading is believed to be responsible for provoking bone format...
\u3cp\u3eAn improved understanding of how local mechanical stimuli guide the fracture healing proces...
An improved understanding of how local mechanical stimuli guide the fracture healing process has the...
Bone healing and remodeling are mechanically driven processes. While the generalized response to mec...
Thorough preclinical evaluation of functionalized biomaterials for treatment of large bone defects i...
Biomaterials for bone regeneration are constantly under development, and their application in critic...
Mechanical loading allows both investigation into the mechano-regulation of fracture healing as well...
Biomechanical testing is the gold standard to determine bone competence, and has been used extensive...
Longitudinal in vivo micro-computed tomography (micro-CT) is of interest to non-invasively capture t...
Recently, micro-Finite Element (micro-FE) analysis based on High Resolution peripheral Quantitative ...
The treatment of large segmental bone defects remains a significant clinical challenge. Due to limit...
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