Calcaneus fracture is the most common tarsal bone fracture and is associated with external loads resulting from vehicle crashes, under body blasts, or sports. Almost 50% of weight bearing by the foot occurs through the calcaneus and its surgical fixation remains a challenging procedure. Postmortem human subjects were used to measure the regional trabecular BMD of the calcaneus. Mean age, height and weight of the included 14 specimens was 69 years, 177 cm and 80 kg respectively. Using a custom mode within Quantitative Computed Tomography clinical software; calcaneal trabecular BMD in the anterior and posterior regions was quantified. Tolerance data and calcaneus fracture patterns were also available for these specimens from previous tests. The posterior region of the calcaneus had a higher mean BMD (114 mg/cc) than the anterior region (81 mg/cc). These BMD differences also paralleled injury outcome of specimens from axial loading with 50% of specimens resulting in high severity anterior region calcaneal fractures and 36% of specimens resulting in low severity posterior calcaneal fractures. These findings may be reflective of the lower BMD in the anterior region, although the load was uniformly distributed across the plantar surface of the foot. Severity of fracture was greater (intraarticular/crush) in the anterior region as compared to fractures of the posterior region. The BMD ratio between anterior and posterior was significant (p = 0.02) between anterior region fractures and posterior region fractures. The ratio parameter may indicate that the disparity in trabecular BMD between anterior and posterior calcaneus regions is more important in predicting injury outcome than the absolute BMD value of each region.
Keywords: Axial loading; Calcaneus; Calcaneus BMD variations; QCT; Tolerance.
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