Jacob M Reeves1, George S Athwal2, James A Johnson3. 1. Department of Mechanical Engineering, The University of Western Ontario, London, ON, Canada; The Roth|McFarlane Hand and Upper Limb Centre, St. Joseph's Hospital, London, ON, Canada. 2. The Roth|McFarlane Hand and Upper Limb Centre, St. Joseph's Hospital, London, ON, Canada; Department of Surgery, The University of Western Ontario, London, ON, Canada. 3. Department of Mechanical Engineering, The University of Western Ontario, London, ON, Canada; The Roth|McFarlane Hand and Upper Limb Centre, St. Joseph's Hospital, London, ON, Canada; Department of Surgery, The University of Western Ontario, London, ON, Canada; Department of Biomedical Engineering, The University of Western Ontario, London, ON, Canada. Electronic address: jajohnso@uwo.ca.
Abstract
BACKGROUND: Shoulder arthroplasty humeral components have undergone several generational changes, with systems now offering shorter stems and stemless options. The stemless humeral implants obtain fixation in the trabecular bone of the proximal humerus through elaborate fixation features. To optimize implant design, the regional variations in bone density within the proximal humerus should be determined. As such, the purpose of this computed tomography-based study was to map the regional variations in bone density of the proximal humerus. METHODS: The trabecular-canal of the proximal humerus was extracted from computed tomography scans of 98 subjects and divided into 13 slices and 5 subsections (central, anterior, posterior, medial, and lateral). The average apparent density (ρAVG) was then quantified in each subsection of the trabecular-canal. RESULTS: Slice depth, subsection, and gender were all significant main effects, with additional significant interactions between slice depth, subsection, and osteoarthritic condition. The slices above the resection plane had the greatest ρAVG, with densities decreasing down the canal. The central subsection had significantly lower ρAVG than the peripheral sections, and the medial subsection tended to have the highest ρAVG (P < .001). Furthermore, the ρAVG of male subjects was significantly greater than that of female subjects (P < .001). CONCLUSIONS: The apparent density of the proximal humerus' trabecular-canal is nonuniform. This has implications for the design of stemless implants, indicating that implants seeking purchase in higher density bone should take advantage of the peripheral regions of the trabecular-canal within the first 15-20 mm beneath the humeral head resection plane.
BACKGROUND: Shoulder arthroplasty humeral components have undergone several generational changes, with systems now offering shorter stems and stemless options. The stemless humeral implants obtain fixation in the trabecular bone of the proximal humerus through elaborate fixation features. To optimize implant design, the regional variations in bone density within the proximal humerus should be determined. As such, the purpose of this computed tomography-based study was to map the regional variations in bone density of the proximal humerus. METHODS: The trabecular-canal of the proximal humerus was extracted from computed tomography scans of 98 subjects and divided into 13 slices and 5 subsections (central, anterior, posterior, medial, and lateral). The average apparent density (ρAVG) was then quantified in each subsection of the trabecular-canal. RESULTS: Slice depth, subsection, and gender were all significant main effects, with additional significant interactions between slice depth, subsection, and osteoarthritic condition. The slices above the resection plane had the greatest ρAVG, with densities decreasing down the canal. The central subsection had significantly lower ρAVG than the peripheral sections, and the medial subsection tended to have the highest ρAVG (P < .001). Furthermore, the ρAVG of male subjects was significantly greater than that of female subjects (P < .001). CONCLUSIONS: The apparent density of the proximal humerus' trabecular-canal is nonuniform. This has implications for the design of stemless implants, indicating that implants seeking purchase in higher density bone should take advantage of the peripheral regions of the trabecular-canal within the first 15-20 mm beneath the humeral head resection plane.
Authors: Jacob M Reeves; Tom Vanasse; Chris Roche; George S Athwal; James A Johnson; Kenneth J Faber; G Daniel G Langohr Journal: JSES Int Date: 2021-02-09