Bone
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This study was designed to investigate predictable factors of mortality, second fracture, and functional recovery within 24 months of hip fracture surgery in elderly patients. In addition, the authors sought to identify differences in survival and functional outcomes according to fracture type. Four hundred and fifteen patients with acute, first-time and lower-energy trauma hip fractures were enrolled into this prospective cohort study and followed for a minimum of 24 months. ⋯ A fall within 1 year of surgery and a solitary life were found to be closely associated with the risk of a second fracture, and malignancy and cognitive impairment with a poor functional outcome. Operation time and the 2-year second fracture rate differed significantly between the two fracture groups. An understanding of the incidences and risk factors of mortality and postoperative outcomes following hip fracture surgery in elderly patients provides a valuable basis to improve in health care of geriatric population.
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The mouse fracture model is ideal for research into the pathways of healing because of the availability of genetic and transgenic mice and the ability to create cell-specific genetic mutations. While biomechanical tests and histology are available to assess callus integrity and tissue differentiation, respectively, micro-computed tomography (μCT) analysis has increasingly been utilized in fracture studies because it is non-destructive and provides descriptions of the structural and compositional properties of the callus. However, the dynamic changes of μCT properties that occur during healing are not well defined. ⋯ Similarly, none of the biomechanical properties were found to distinguish consistently between the fractured and un-fractured femur. Micro-CT parameters assessing callus structure and size (J, I, and TV) were more sensitive to changes in callus over time post-fracture than those assessing callus substance (TMD, BV/TV, and BMD). Sample size estimates based on these results indicate that utilization of μCT requires fewer animals than biomechanics and thus is more practical for evaluating the healing femur in the mouse fracture model.