OBJECTIVES: Biomechanical study on cadaveric bones using physiological loading conditions to quantify interfragmentary movements in a tibial shaft fracture model fixed by intramedullary nailing. METHODS: Six fresh frozen human cadaveric tibiae were sequentially tested in axial, torsional, 4-point bending, and shear loading configurations. Tests were performed in intact specimens and osteotomized specimens equipped with interlocked intramedullary nails. The amount of clearance of the nail within the intramedullary canal was measured on computed tomography scans. Linear and angular deformations of the fragments were continuously measured in all directions to obtain the exact interfragmentary movements. RESULTS: The amount of movement at the site of the fracture was substantial. Especially shear and torsion resulted in gap movements of up to 10 mm. Movements in the transverse plane were significantly larger than axial movements for all loading conditions. For torsion and bending, a significant portion of the movement of the fracture gap resulted from the flexibility of the intramedullary nail; for compression and shear, the majority of the movement was related to the clearance of the nail within the bone. CONCLUSIONS: Clearance of the implant within the medullary canal, the flexibility of the implant itself, and the compliance of the implant (nail and locking screws) within the bone determine the extent of movement. The implant flexibility and the clearance are strongly dependent on the thickness of the intramedullary nail.
OBJECTIVES: Biomechanical study on cadaveric bones using physiological loading conditions to quantify interfragmentary movements in a tibial shaft fracture model fixed by intramedullary nailing. METHODS: Six fresh frozen human cadaveric tibiae were sequentially tested in axial, torsional, 4-point bending, and shear loading configurations. Tests were performed in intact specimens and osteotomized specimens equipped with interlocked intramedullary nails. The amount of clearance of the nail within the intramedullary canal was measured on computed tomography scans. Linear and angular deformations of the fragments were continuously measured in all directions to obtain the exact interfragmentary movements. RESULTS: The amount of movement at the site of the fracture was substantial. Especially shear and torsion resulted in gap movements of up to 10 mm. Movements in the transverse plane were significantly larger than axial movements for all loading conditions. For torsion and bending, a significant portion of the movement of the fracture gap resulted from the flexibility of the intramedullary nail; for compression and shear, the majority of the movement was related to the clearance of the nail within the bone. CONCLUSIONS: Clearance of the implant within the medullary canal, the flexibility of the implant itself, and the compliance of the implant (nail and locking screws) within the bone determine the extent of movement. The implant flexibility and the clearance are strongly dependent on the thickness of the intramedullary nail.
Authors: Michael Bottlang; Josef Doornink; Trevor J Lujan; Daniel C Fitzpatrick; J Lawrence Marsh; Peter Augat; Brigitte von Rechenberg; Maren Lesser; Steven M Madey Journal: J Bone Joint Surg Am Date: 2010-12 Impact factor: 5.284
Authors: Christopher E Henderson; Trevor Lujan; Michael Bottlang; Daniel C Fitzpatrick; Steve M Madey; J Lawrence Marsh Journal: Iowa Orthop J Date: 2010
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Authors: Gregory B Lowen; Katherine A Garrett; Stephanie N Moore-Lotridge; Sasidhar Uppuganti; Scott A Guelcher; Jonathan G Schoenecker; Jeffry S Nyman Journal: J Biomech Eng Date: 2022-05-01 Impact factor: 2.097
Authors: Christian W Müller; Tarek ElKashef; Ronny Pfeifer; Sebastian Decker; Claudia Neunaber; Karen Meier; Michael Fehr; Volker Wesling; Thomas Gösling; Christof Hurschler; Christian Krettek Journal: Int Orthop Date: 2014-07-20 Impact factor: 3.075
Authors: Jacob Elkins; J Lawrence Marsh; Trevor Lujan; Richard Peindl; James Kellam; Donald D Anderson; William Lack Journal: J Bone Joint Surg Am Date: 2016-02-17 Impact factor: 5.284