Background: Open proximal tibial fractures are associated with significant morbidity due to increased risks of infection, nonunion, malunion, knee stiffness, and possible amputation. Several authors demonstrated the benefits of bridging external fixation followed by definitive internal fixation once the soft-tissue envelope had sufficiently healed. We recently demonstrated the benefits of external locked plating followed by definitive internal fixation. Purpose: The purpose of this study was to evaluate the biomechanical feasibility of definitive external locked plating for open proximal tibial fractures. Methods: Two types of constructs were tested: (1) internal locked plate fixation (ILPF) and (2) external locked plate fixation (ELPF). Specimens were evaluated under static or dynamic axial loading to assess construct stiffness, strength, durability and failure mode. Results: The mean of construct strength of the ILPF and ELPF groups was 2147.4 ± 460.56 N and 793.2 ± 96.78 N, respectively. The mean of construct stiffness of the ILPF and ELPF groups was 384.01 ± 40.37 N/mm and 87.35 ± 7.40 N/mm, respectively. Conclusion: In this study, external locked plating showed biomechanical flexibility and could reduce construct stiffness to promote fracture healing by callus formation. However, ELPF constructs were not as strong as standard locked plating constructs. If we want to use ELPF constructs as definitive treatment, further biomechanical study to improve construct strength is warranted.