TY - JOUR
T1 - Biomechanical evaluation of the Less Invasive Stabilization System, angled blade plate, and retrograde intramedullary nail for the internal fixation of distal femur fractures
AU - Zlowodzki, Michael
AU - Williamson, Scott
AU - Cole, Peter A.
AU - Zardiackas, Lyle D.
AU - Kregor, Philip J.
PY - 2004/9/1
Y1 - 2004/9/1
N2 - Objective: To evaluate the stability of the retrograde intramedullary nail (IMN), angled blade plate (ABP), and a locked internal fixator (Less Invasive Stabilization System [LISS], Synthes, Paoli, PA) for internal fixation of distal femur fractures. Design: Destructive biomechanical testing of matched pairs of fresh-frozen human cadaveric bone-implant constructs. Setting: Biomechanical laboratory. Methods: A fracture model was created to simulate an AO/OTA33-A3 fracture. Forty-eight matched pairs of specimens were used. Six groups of 8 pairs each were tested to failure: LISS versus ABP and LISS versus IMN (axial, torsional, and cyclical axial). Main Outcome Measurement: Load to failure, mode of failure, energy to failure, displacement at the load to failure, and stiffness. Results: Fixation strength (load/moment to failure) of the LISS constructs was 34% greater in axial loading (P = 0.01) and 32% less in torsional loading (P = 0.05) compared with ABP constructs and 13% greater in axial loading (P = 0.35) and 45% less in torsional loading (P < 0.01) compared with IMN constructs. Loss of distal fixation in axial loading occurred in 1 of 16 cases with the LISS, in 3 of 8 cases with the ABP, and in 8 of 8 cases with the IMN. Cyclical axial loading demonstrated significantly less plastic deformation for the LISS construct compared with ABP constructs (P < 0.01) and similar plastic deformation compared with IMN constructs (P = 0.98). Conclusions: All 3 fixation devices (LISS, ABP, and IMN) offer sufficient torsional stability and sufficient proximal fixation that withstands axial loading without failing. The LISS provides improved distal fixation, especially in osteoporotic bone, at the expense of more displacement at the fracture site.
AB - Objective: To evaluate the stability of the retrograde intramedullary nail (IMN), angled blade plate (ABP), and a locked internal fixator (Less Invasive Stabilization System [LISS], Synthes, Paoli, PA) for internal fixation of distal femur fractures. Design: Destructive biomechanical testing of matched pairs of fresh-frozen human cadaveric bone-implant constructs. Setting: Biomechanical laboratory. Methods: A fracture model was created to simulate an AO/OTA33-A3 fracture. Forty-eight matched pairs of specimens were used. Six groups of 8 pairs each were tested to failure: LISS versus ABP and LISS versus IMN (axial, torsional, and cyclical axial). Main Outcome Measurement: Load to failure, mode of failure, energy to failure, displacement at the load to failure, and stiffness. Results: Fixation strength (load/moment to failure) of the LISS constructs was 34% greater in axial loading (P = 0.01) and 32% less in torsional loading (P = 0.05) compared with ABP constructs and 13% greater in axial loading (P = 0.35) and 45% less in torsional loading (P < 0.01) compared with IMN constructs. Loss of distal fixation in axial loading occurred in 1 of 16 cases with the LISS, in 3 of 8 cases with the ABP, and in 8 of 8 cases with the IMN. Cyclical axial loading demonstrated significantly less plastic deformation for the LISS construct compared with ABP constructs (P < 0.01) and similar plastic deformation compared with IMN constructs (P = 0.98). Conclusions: All 3 fixation devices (LISS, ABP, and IMN) offer sufficient torsional stability and sufficient proximal fixation that withstands axial loading without failing. The LISS provides improved distal fixation, especially in osteoporotic bone, at the expense of more displacement at the fracture site.
KW - Biomechanical testing
KW - Blade plate
KW - Distal femur fracture
KW - Less Invasive Stabilization System
KW - Locked plate
KW - Minimally invasive
KW - Minimally invasive percutaneous plate osteosynthesis
KW - Osteoporosis
KW - Retrograde intramedullary nail
KW - Submuscular plating
KW - Supracondylar femur fracture
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U2 - 10.1097/00005131-200409000-00004
DO - 10.1097/00005131-200409000-00004
M3 - Article
C2 - 15475844
AN - SCOPUS:4644224564
SN - 0890-5339
VL - 18
SP - 494
EP - 502
JO - Journal of orthopaedic trauma
JF - Journal of orthopaedic trauma
IS - 8
ER -