A new method to determine cortical bone thickness in CT images using a hybrid approach of parametric profile representation and local adaptive thresholds: Accuracy results

Abstract: MotivationCortical bone is an important contributor to bone strength and is pivotal to understand the etiology of osteoporotic fractures and the specific mechanisms of antiosteoporotic treatment regimen. 3D computed tomography (CT) can be used to measure cortical thickness, density, and mass in the proximal femur, lumbar vertebrae, and distal forearm. However, the spatial resolution of clinical whole body CT scanners is limited by radiation exposure; partial volume artefacts severely impair the accurate assess… Show more

“…The Medical Image Analysis Framework for the Femur (MIAF Femur Version 7.1.0MRH) was used to measure three-dimensional bone parameters of the proximal femur ( 14 ). An important advantage of this software is that the three dimensional bone segmentation is combining global and adaptive local thresholds with volume growing and morphological operations ( 16 , 17 ). Both surfaces are displayed in axial, sagittal, and coronal reformation for operator control and manual editing if necessary.…”

Associations of Muscle Size and Density With Proximal Femur Bone in a Community Dwelling Older Population

“…The Medical Image Analysis Framework for the Femur (MIAF Femur Version 7.1.0MRH) was used to measure three-dimensional bone parameters of the proximal femur ( 14 ). An important advantage of this software is that the three dimensional bone segmentation is combining global and adaptive local thresholds with volume growing and morphological operations ( 16 , 17 ). Both surfaces are displayed in axial, sagittal, and coronal reformation for operator control and manual editing if necessary.…”

Associations of Muscle Size and Density With Proximal Femur Bone in a Community Dwelling Older Population

“…Other algorithms that produce validated subject specific estimates of cortical thickness have been recently published and may be candidate to be included in FE models. However, regardless of the implementation (from image deconvolution approaches similar in concept to CBM [62,63], to statistical models that swiftly produce FEfriendly surfaces [64]) they do not provide local cortical density estimates, as they all assume for density a fully mineralised condition. Knowledge of cortical thickness can be enough to improve FE modelling of the overall bone structural behaviour and simulated stress, but local strains are highly influenced by the elastic modulus, in turn related to density estimates.…”

Cortical bone mapping improves finite element strain prediction accuracy at the proximal femur

“…Following intensity profile sampling, the full width at half‐maximum measurement strategy 20 , 21 was adopted to identify the apparent bone void space. Briefly, the ridges and valleys in the intensity profile were located by finding the localized maxima and minima, the localized region with intensity less than 0.5 × (maxima + minima) was defined as the bone void space.…”

Focal osteoporosis defect is associated with vertebral compression fracture prevalence in a bone mineral density‐independent manner