Biomechanical study: Resistance comparison of posterior antiglide plate and lateral plate on synthetic bone models simulating danis-weber b malleolar fractures

Buscharino B.; Moretti R.G.; Hungria J.O.S.; Christian R.W.; Mercadante M.; Raia F.; Pekelman H.

Biomechanical study: Resistance comparison of posterior antiglide plate and lateral plate on synthetic bone models simulating danis-weber b malleolar fractures

Tipo

Artigo

Data de publicação

2013

Periódico

Revista Brasileira de Ortopedia

Citações (Scopus)

5

Autores

Buscharino B.
Moretti R.G.
Hungria J.O.S.
Christian R.W.
Mercadante M.
Raia F.
Pekelman H.

Resumo

Objective: The purpose of this study was to compare different positions of plates in lateral malleolar Danis-Weber B fractures on synthetic bone: A lateral plate and a posterior antiglide plate. Methods: Short oblique fractures of distal fibula at the level of the syndesmosys were simulated with a fibular osteotomy in sixteen synthetic fibula bones (Synbone®). Eight fractures were fixed with lateral plating associated with an independent lag screw, and the other eight were fixed with posterior antiglide plating with a lag screw through the plate. A strain gage was installed at the center of each plate at the osteotomy site. Supination and external rotation forces were applied to each of the two groups at the bend. Results: The lateral position plate group suffered more deformity in response to supination forces compared to the group with the posterior antiglide plate, but this result was not statistically significant. In the tests with external rotation forces, the posterior antiglide plating group had significantly higher resistance (p < 0.05). Conclusion: When subjected to external rotation forces, osteosynthesis with posterior antiglide plate models simulating type B fractures of the lateral malleolus of the ankle is more resistant than that of the neutralization plate. © 2013 Sociedade Brasileira de Ortopedia e Traumatologia.