Spencer J. Stanbury scite author profile

Composite bone models are increasingly used in orthopaedic biomechanics research and surgical education—applications that traditionally relied on cadavers. Cadaver bones are suboptimal for myriad reasons, including issues of cost, availability, preservation, and inconsistency between specimens. Further, cadaver samples disproportionately represent the elderly, whose bone quality may not be representative of the greater orthopaedic population. The current fourth-generation composite bone models provide an accurate reproduction of the biomechanical properties of human bone when placed under bending, axial, and torsional loads. The combination of glass fiber and epoxy resin components into a single phase has enabled manufacturing by injection molding. The high anatomic fidelity of the cadaver-based molds and negligible shrinkage properties of the epoxy resin results in a process that allows for excellent definition of anatomic detail in the cortical wall and optimized consistency of features between models. Recent biomechanical studies of composites have validated their use as a suitable substitute for cadaver specimens.

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Perilunate Dislocation and Perilunate Fracture-dislocation

Stanbury

Elfar

2011

American Academy of Orthopaedic Surgeon

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Biomechanical Analysis of a Volar Variable-Angle Locking Plate: The Effect of Capturing a Distal Radial Styloid Fragment

Stanbury

Salo

Elfar

2012

The Journal of Hand Surgery

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