Biomechanical evaluation of peri- and interprosthetic fractures of the femur.

Wolfgang Lehmann; Martin Rupprecht; Nils Hellmers; Kai Sellenschloh; Daniel Briem; Klaus Püschel; Michael Amling; Michael Morlock; Johannes Maria Rueger

Biomechanical evaluation of peri- and interprosthetic fractures of the femur.

Standard

Biomechanical evaluation of peri- and interprosthetic fractures of the femur. / Lehmann, Wolfgang; Rupprecht, Martin; Hellmers, Nils; Sellenschloh, Kai; Briem, Daniel; Püschel, Klaus; Amling, Michael; Morlock, Michael; Rueger, Johannes Maria.

In: J TRAUMA, Vol. 68, No. 6, 6, 2010, p. 1459-1463.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Lehmann, W, Rupprecht, M, Hellmers, N, Sellenschloh, K, Briem, D, Püschel, K, Amling, M, Morlock, M & Rueger, JM 2010, 'Biomechanical evaluation of peri- and interprosthetic fractures of the femur.', J TRAUMA, vol. 68, no. 6, 6, pp. 1459-1463.

APA

Lehmann, W., Rupprecht, M., Hellmers, N., Sellenschloh, K., Briem, D., Püschel, K., Amling, M., Morlock, M., & Rueger, J. M. (2010). Biomechanical evaluation of peri- and interprosthetic fractures of the femur. J TRAUMA, 68(6), 1459-1463. [6].

Vancouver

Lehmann W, Rupprecht M, Hellmers N, Sellenschloh K, Briem D, Püschel K et al. Biomechanical evaluation of peri- and interprosthetic fractures of the femur. J TRAUMA. 2010;68(6):1459-1463. 6.

Bibtex

@article{d48aa390001d4f8389247bb892a76e03,

title = "Biomechanical evaluation of peri- and interprosthetic fractures of the femur.",

abstract = "BACKGROUND:: Because of an increasing life expectancy of patients and the rising number of joint replacements, peri- and interprosthetic femoral fractures are a common occurrence in most trauma centers. This study was designed to answer two primary questions. First, whether the fracture risk increases with two intramedullary implants in one femur; and second, whether a compression plate osteosynthesis is sufficient for stabilizing an interprosthetic fracture. METHODS:: Twenty-four human cadaveric femurs were harvested and four groups were matched based on the basis of bone density using a peripher quantitative computer tomography (pQCT). All groups-(I) hip prosthesis with a cemented femoral stem; (II) hip prosthesis and retrograde femoral nail; (III) hip prosthesis, retrograde femoral nail, and lateral compression plate; (IV) all three implants with an additional simulated interprosthetic fracture-were biomechanically tested in a four-point bending in lateral-medial direction. RESULTS:: The second group with two intramedullary implants exhibited 20% lower fracture strength in comparison with group 1 with proximal femoral stem only. The stabilization of an interprosthetic fracture with a lateral compression plate (group IV) resulted in a fracture strength similar to femur with prosthesis only. CONCLUSION:: Two intramedullary implants reduce the fracture strength significantly. If an interprosthetic fracture occurs, sufficient stability can be achieved by a lateral compression plate. Because two intramedullary implants in the femur may decrease the fracture strength, the treatment of supracondylar femoral fractures with a retrograde nail in cases with preexisting ipsilateral hip prosthesis should be reconsidered.",

author = "Wolfgang Lehmann and Martin Rupprecht and Nils Hellmers and Kai Sellenschloh and Daniel Briem and Klaus P{\"u}schel and Michael Amling and Michael Morlock and Rueger, {Johannes Maria}",

year = "2010",

language = "Deutsch",

volume = "68",

pages = "1459--1463",

number = "6",

}

RIS

TY - JOUR

T1 - Biomechanical evaluation of peri- and interprosthetic fractures of the femur.

AU - Lehmann, Wolfgang

AU - Rupprecht, Martin

AU - Hellmers, Nils

AU - Sellenschloh, Kai

AU - Briem, Daniel

AU - Püschel, Klaus

AU - Amling, Michael

AU - Morlock, Michael

AU - Rueger, Johannes Maria

PY - 2010

Y1 - 2010

N2 - BACKGROUND:: Because of an increasing life expectancy of patients and the rising number of joint replacements, peri- and interprosthetic femoral fractures are a common occurrence in most trauma centers. This study was designed to answer two primary questions. First, whether the fracture risk increases with two intramedullary implants in one femur; and second, whether a compression plate osteosynthesis is sufficient for stabilizing an interprosthetic fracture. METHODS:: Twenty-four human cadaveric femurs were harvested and four groups were matched based on the basis of bone density using a peripher quantitative computer tomography (pQCT). All groups-(I) hip prosthesis with a cemented femoral stem; (II) hip prosthesis and retrograde femoral nail; (III) hip prosthesis, retrograde femoral nail, and lateral compression plate; (IV) all three implants with an additional simulated interprosthetic fracture-were biomechanically tested in a four-point bending in lateral-medial direction. RESULTS:: The second group with two intramedullary implants exhibited 20% lower fracture strength in comparison with group 1 with proximal femoral stem only. The stabilization of an interprosthetic fracture with a lateral compression plate (group IV) resulted in a fracture strength similar to femur with prosthesis only. CONCLUSION:: Two intramedullary implants reduce the fracture strength significantly. If an interprosthetic fracture occurs, sufficient stability can be achieved by a lateral compression plate. Because two intramedullary implants in the femur may decrease the fracture strength, the treatment of supracondylar femoral fractures with a retrograde nail in cases with preexisting ipsilateral hip prosthesis should be reconsidered.

AB - BACKGROUND:: Because of an increasing life expectancy of patients and the rising number of joint replacements, peri- and interprosthetic femoral fractures are a common occurrence in most trauma centers. This study was designed to answer two primary questions. First, whether the fracture risk increases with two intramedullary implants in one femur; and second, whether a compression plate osteosynthesis is sufficient for stabilizing an interprosthetic fracture. METHODS:: Twenty-four human cadaveric femurs were harvested and four groups were matched based on the basis of bone density using a peripher quantitative computer tomography (pQCT). All groups-(I) hip prosthesis with a cemented femoral stem; (II) hip prosthesis and retrograde femoral nail; (III) hip prosthesis, retrograde femoral nail, and lateral compression plate; (IV) all three implants with an additional simulated interprosthetic fracture-were biomechanically tested in a four-point bending in lateral-medial direction. RESULTS:: The second group with two intramedullary implants exhibited 20% lower fracture strength in comparison with group 1 with proximal femoral stem only. The stabilization of an interprosthetic fracture with a lateral compression plate (group IV) resulted in a fracture strength similar to femur with prosthesis only. CONCLUSION:: Two intramedullary implants reduce the fracture strength significantly. If an interprosthetic fracture occurs, sufficient stability can be achieved by a lateral compression plate. Because two intramedullary implants in the femur may decrease the fracture strength, the treatment of supracondylar femoral fractures with a retrograde nail in cases with preexisting ipsilateral hip prosthesis should be reconsidered.

M3 - SCORING: Zeitschriftenaufsatz

VL - 68

SP - 1459

EP - 1463

IS - 6

M1 - 6

ER -