The paper introduces the concept of the rational design of a deployable humeral intramedullary nail plug based on a honeycomb structure used for the surgical treatment of humeral shaft fractures. The concept serves for to restore the axial alignment of bone fragments and to maintain stability via bone-nail friction and locking screws. The design nail plug was gained by optimisation process the Latin Hypercube Sampling Design algorithm and Multi-Objective Genetic Algorithm. It was shown that we can use statistical shape function combined by 3 D printing for designing of a new rationally designed implants.

Department of Clinical Biomechanics Regional hospital in Liberec Liberec Czech Republic

Department of Mechanical Engineering KU Leuven Leuven Belgium

Department of Technologies and Structures Technical University of Liberec Liberec Czech Republic

Department of Trauma Surgery Masaryk Hospital in Usti nad Labem Usti nad Labem Czech Republic

The Institute for Nanomaterials Advanced Technologies and Innovation Technical University of Liberec Czech Republic

University Centre of Orthopaedics and Trauma Surgery University Hospital Carl Gustav Carus Dresden Germany

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