TY - JOUR
T1 - The dynamic locking screw (DLS) can increase interfragmentary motion on the near cortex of locked plating constructs by reducing the axial stiffness
AU - Döbele, Stefan
AU - Horn, Carsten
AU - Eichhorn, Stefan
AU - Buchholtz, Arne
AU - Lenich, Andreas
AU - Burgkart, Rainer
AU - Nüssler, Andreas K.
AU - Lucke, Martin
AU - Andermatt, Daniel
AU - Koch, Rudolf
AU - Stöckle, Ulrich
PY - 2010/4
Y1 - 2010/4
N2 - Background The plate-screw interface of an angular stable plate osteosynthesis is very rigid. So far, all attempts to decrease the stiffness of locked plating construct, e.g. the bridged plate technique, decrease primarily the bending stiffness. Thus, the interfragmentary motion increases only on the far cortical side by bending the plate. To solve this problem, the dynamic locking screw (DLS) was developed. Materials and methods Comparison tests were performed with locking screws (LS) and DLS. Axial stiffness, bending stiffness and interfragmentary motion were compared. For measurements, we used a simplified transverse fracture model, consisting of POM C and an 11-hole LCP3.5 with a fracture gap of 3 mm. Three-dimensional fracture motion was detected using an optical measurement device (PONTOS 5 M/GOM) consisting of two CCD cameras (2,448×2,048 pixel) observing passive markers. Results The DLS reduced the axial stiffness by approximately 16% while increasing the interfragmentary motion at the near cortical side significantly from 282 μm (LS) to 423 μm (DLS) applying an axial load of 150 N. Conclusion The use of DLS reduces the stiffness of the plate-screw interface and thus increases the interfragmentary motion at the near cortical side without altering the advantages of angular stability and the strength.
AB - Background The plate-screw interface of an angular stable plate osteosynthesis is very rigid. So far, all attempts to decrease the stiffness of locked plating construct, e.g. the bridged plate technique, decrease primarily the bending stiffness. Thus, the interfragmentary motion increases only on the far cortical side by bending the plate. To solve this problem, the dynamic locking screw (DLS) was developed. Materials and methods Comparison tests were performed with locking screws (LS) and DLS. Axial stiffness, bending stiffness and interfragmentary motion were compared. For measurements, we used a simplified transverse fracture model, consisting of POM C and an 11-hole LCP3.5 with a fracture gap of 3 mm. Three-dimensional fracture motion was detected using an optical measurement device (PONTOS 5 M/GOM) consisting of two CCD cameras (2,448×2,048 pixel) observing passive markers. Results The DLS reduced the axial stiffness by approximately 16% while increasing the interfragmentary motion at the near cortical side significantly from 282 μm (LS) to 423 μm (DLS) applying an axial load of 150 N. Conclusion The use of DLS reduces the stiffness of the plate-screw interface and thus increases the interfragmentary motion at the near cortical side without altering the advantages of angular stability and the strength.
KW - Dynamic locking screw
KW - Interfragmentary motion
KW - Locking compression plate
KW - Locking screws
KW - Stiffness reduction
UR - http://www.scopus.com/inward/record.url?scp=77954675902&partnerID=8YFLogxK
U2 - 10.1007/s00423-010-0636-z
DO - 10.1007/s00423-010-0636-z
M3 - Article
C2 - 20358382
AN - SCOPUS:77954675902
SN - 1435-2443
VL - 395
SP - 421
EP - 428
JO - Langenbeck's Archives of Surgery
JF - Langenbeck's Archives of Surgery
IS - 4
ER -