Fully automated segmentation of callus by micro-CT compared to biomechanics.

A high percentage of closed femur fractures have slight comminution. Using micro-CT (?CT), multiple fragment segmentation is much more difficult than segmentation of unfractured or osteotomied bone. Manual or semi-automated segmentation has been performed to date. However, such segmentation is extremely laborious, time-consuming and error-prone. Our aim was to therefore apply a fully automated segmentation algorithm to determine ?CT parameters and examine their association with biomechanics.The femura of 64 rats taken after randomised inhibitory or neutral medication, in terms of the effect on fracture healing, and controls were closed fractured after a Kirschner wire was inserted. After 21 days, ?CT and biomechanical parameters were determined by a fully automated method and correlated (Pearson's correlation).The fully automated segmentation algorithm automatically detected bone and simultaneously separated cortical bone from callus without requiring ROI selection for each single bony structure. We found an association of structural callus parameters obtained by ?CT to the biomechanical properties. However, results were only explicable by additionally considering the callus location.A large number of slightly comminuted fractures in combination with therapies that influence the callus qualitatively and/or quantitatively considerably affects the association between ?CT and biomechanics. In the future, contrast-enhanced ?CT imaging of the callus cartilage might provide more information to improve the non-destructive and non-invasive prediction of callus mechanical properties. As studies evaluating such important drugs increase, fully automated segmentation appears to be clinically important.     «

A high percentage of closed femur fractures have slight comminution. Using micro-CT (?CT), multiple fragment segmentation is much more difficult than segmentation of unfractured or osteotomied bone. Manual or semi-automated segmentation has been performed to date. However, such segmentation is extremely laborious, time-consuming and error-prone. Our aim was to therefore apply a fully automated segmentation algorithm to determine ?CT parameters and examine their association with biomechanics.The...     »