Biomechanical Properties of 3-Dimensional Printed Volar Locking Distal Radius Plate: Comparison With Conventional Volar Locking Plate
Research article published in The Journal of hand surgery (2017)
Abstract
PURPOSE: This study evaluated the biomechanical properties of a new volar locking plate made by 3-dimensional printing using titanium alloy powder and 2 conventional volar locking plates under static and dynamic loading conditions that were designed to replicate those seen during fracture healing and early postoperative rehabilitation. METHODS: For all plate designs, 12 fourth-generation synthetic composite radii were fitted with volar locking plates according to the manufacturers' technique after segmental osteotomy. Each specimen was first preloaded 10 N and then was loaded to 100 N, 200 N, and 300 N in phases at a rate of 2 N/s. Each construct was then dynamically loaded for 2,000 cycles of fatigue loading in each phase for a total 10,000 cycles. Finally, the constructs were loaded to a failure at a rate of 5 mm/min. RESULTS: All 3 plates showed increasing stiffness at higher loads. The 3-dimensional printed volar locking plate showed significantly higher stiffness at all dynamic loading tests compared with the 2 conventional volar locking plates. The 3-dimensional printed volar locking plate had the highest yield strength, which was significantly higher than those of 2 conventional volar locking plates. CONCLUSIONS: A 3-dimensional printed volar locking plate has similar stiffness to conventional plates in an experimental model of a severely comminuted distal radius fracture in which the anterior and posterior metaphyseal cortex are involved. CLINICAL RELEVANCE: These results support the potential clinical utility of 3-dimensional printed volar locking plates in which design can be modified according the fracture configuration and the anatomy of the radius.
Abstract sourced from PubMed (NCBI) for the cited record. See the original publication for the authoritative version.
Summary
Peer-reviewed clinical and outcomes research relevant to medicinal leech therapy and its biology. Indexed in PubMed and verified against the NCBI record.
Why This Matters for Hirudotherapy
This benchtop biomechanical study compared a 3D-printed titanium-alloy volar locking plate against two conventional plates on synthetic composite radii under static and cyclic fatigue loading, reporting that the 3D-printed plate showed significantly higher stiffness across dynamic tests and the highest yield strength while behaving comparably to conventional plates in a model of severely comminuted distal radius fracture. Its relevance to hirudotherapy is peripheral and contextual: distal radius and other reconstructive/orthopedic procedures are settings where postoperative tissue flaps and venous congestion can arise, the clinical niche where medicinal leeches are used. Caveat: this is a laboratory mechanical-testing study on synthetic bone constructs, not a clinical or biological investigation; it does not involve patients, soft tissue, leeches, or the leech secretome, and the cited clinical relevance is the authors' inference from bench data.
Citation
Biomechanical Properties of 3-Dimensional Printed Volar Locking Distal Radius Plate: Comparison With Conventional Volar Locking Plate.
Kim et al. · The Journal of hand surgery, 2017
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