TY - JOUR
T1 - Mechanical evaluation of various external skeletal fixatorIntramedullary pin tie-in configurations using a tubular plastic bone model
AU - Van Wettere, Arnaud J.
AU - Wallace, Larry J.
AU - Redig, Patrick T.
AU - Bourgeault, Craig A.
AU - Bechtold, Joan E.
PY - 2009/12
Y1 - 2009/12
N2 - Use of external skeletal fixatorintramedullary pin tie-in (ESF-IM pin tie-in) fixators is an adjustable and effective method of fracture fixation in birds. The objective of this study was to evaluate the elements of the ESF-IM tie-in configuration used in birds. Ten variations of constructs were applied to a plastic bone model with a standard gap. Variants included non-tied and tie-in configurations, use of a 6- or 10-mm acrylic bar or a thermoplastic connecting bar, variation in the placement of the proximal fixation pin, use of 1.1-mm (0.045-in) or 1.6-mm (0.062-in) fixation pins, and configurations of 2, 3, or 4 fixation pins. The various constructs were loaded in bending, torque, and compression, and response variables were determined from resulting load-displacement curves (stiffness, load at 1-mm displacement). Results showed that, by using the tie-in configuration, increasing the diameter of the acrylic connecting bar, and increasing the diameter or number of fixation pins, each significantly increased the stiffness in all assessments. Placing the fixation pin distally in the proximal bone model segment increased the stiffness in bending, and adding a fixation pin to the distal bone model segment increased the stiffness in torque and bending. These results quantified the relative importance of specific parameters that effect stiffness and safe load of the ESF-IM tie-in construct as applied to a plastic bone fracture model.
AB - Use of external skeletal fixatorintramedullary pin tie-in (ESF-IM pin tie-in) fixators is an adjustable and effective method of fracture fixation in birds. The objective of this study was to evaluate the elements of the ESF-IM tie-in configuration used in birds. Ten variations of constructs were applied to a plastic bone model with a standard gap. Variants included non-tied and tie-in configurations, use of a 6- or 10-mm acrylic bar or a thermoplastic connecting bar, variation in the placement of the proximal fixation pin, use of 1.1-mm (0.045-in) or 1.6-mm (0.062-in) fixation pins, and configurations of 2, 3, or 4 fixation pins. The various constructs were loaded in bending, torque, and compression, and response variables were determined from resulting load-displacement curves (stiffness, load at 1-mm displacement). Results showed that, by using the tie-in configuration, increasing the diameter of the acrylic connecting bar, and increasing the diameter or number of fixation pins, each significantly increased the stiffness in all assessments. Placing the fixation pin distally in the proximal bone model segment increased the stiffness in bending, and adding a fixation pin to the distal bone model segment increased the stiffness in torque and bending. These results quantified the relative importance of specific parameters that effect stiffness and safe load of the ESF-IM tie-in construct as applied to a plastic bone fracture model.
KW - Avian
KW - Biomechanics
KW - External skeletal fixator
KW - Intramedullary pin tie-in
KW - Orthopedic surgery
KW - Plastic bone model
UR - http://www.scopus.com/inward/record.url?scp=76749163744&partnerID=8YFLogxK
U2 - 10.1647/1082-6742-23.4.263
DO - 10.1647/1082-6742-23.4.263
M3 - Article
C2 - 20235457
AN - SCOPUS:76749163744
SN - 1082-6742
VL - 23
SP - 263
EP - 276
JO - Journal of Avian Medicine and Surgery
JF - Journal of Avian Medicine and Surgery
IS - 4
ER -