Influence of intramedullary nail diameter and locking mode on the stability of tibial shaft fracture fixation.

Rainer Penzkofer; Michael Maier; Alexander Nolte; Geert von Oldenburg; Klaus Püschel; Volker Bühren; Peter Augat

Influence of intramedullary nail diameter and locking mode on the stability of tibial shaft fracture fixation.

Standard

Influence of intramedullary nail diameter and locking mode on the stability of tibial shaft fracture fixation. / Penzkofer, Rainer; Maier, Michael; Nolte, Alexander; von Oldenburg, Geert; Püschel, Klaus; Bühren, Volker; Augat, Peter.

In: ARCH ORTHOP TRAUM SU, Vol. 129, No. 4, 4, 2009, p. 525-531.

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

Harvard

Penzkofer, R, Maier, M, Nolte, A, von Oldenburg, G, Püschel, K, Bühren, V & Augat, P 2009, 'Influence of intramedullary nail diameter and locking mode on the stability of tibial shaft fracture fixation.', ARCH ORTHOP TRAUM SU, vol. 129, no. 4, 4, pp. 525-531. <http://www.ncbi.nlm.nih.gov/pubmed/18654791?dopt=Citation>

APA

Penzkofer, R., Maier, M., Nolte, A., von Oldenburg, G., Püschel, K., Bühren, V., & Augat, P. (2009). Influence of intramedullary nail diameter and locking mode on the stability of tibial shaft fracture fixation. ARCH ORTHOP TRAUM SU, 129(4), 525-531. [4]. http://www.ncbi.nlm.nih.gov/pubmed/18654791?dopt=Citation

Vancouver

Penzkofer R, Maier M, Nolte A, von Oldenburg G, Püschel K, Bühren V et al. Influence of intramedullary nail diameter and locking mode on the stability of tibial shaft fracture fixation. ARCH ORTHOP TRAUM SU. 2009;129(4):525-531. 4.

Bibtex

@article{c5627ffeaef0496b9312e2788fcb7b0b,

title = "Influence of intramedullary nail diameter and locking mode on the stability of tibial shaft fracture fixation.",

abstract = "BACKGROUND: Fracture healing is affected by the type and the magnitude of movements at the fracture site. Mechanical conditions will be a function of the type of fracture management, the distance between the fracture fragments, and the loading of the fracture site. The hypothesis to be tested was that the use of a larger-diameter intramedullary nail, together with compressed interlocking, would enhance the primary stiffness and reduce fracture site movements, especially those engendered by shearing forces. MATERIALS AND METHODS: Six pairs of human tibiae were used to study the influence on fracture site stability of two different diameters (9 and 11 mm) of intramedullary nails, in tension/compression, torsional, four-point bending, and shear tests. The nails were used with two interlocking modes (static interlocking vs. dynamic compression). RESULTS: With static interlocking, the 11-mm-diameter nail provided significantly (30-59%) greater reduction of fracture site movement, as compared with the 9-mm-diameter nail. Using an 11-mm-diameter nail, the stiffness of the bone-implant construct was enhanced by between 20 and 50%. Dynamic compression allowed the interfragmentary movements at the fracture site to be further reduced by up to 79% and the system stiffness to be increased by up to 80%. CONCLUSION: On biomechanical grounds, the largest possible nail diameter should be used, with minimal reaming, so as to minimize fracture site movement. Compression after meticulous reduction should be considered in axially stable fractures.",

author = "Rainer Penzkofer and Michael Maier and Alexander Nolte and {von Oldenburg}, Geert and Klaus P{\"u}schel and Volker B{\"u}hren and Peter Augat",

year = "2009",

language = "Deutsch",

volume = "129",

pages = "525--531",

journal = "ARCH ORTHOP TRAUM SU",

issn = "0936-8051",

publisher = "Springer",

number = "4",

}

RIS

TY - JOUR

T1 - Influence of intramedullary nail diameter and locking mode on the stability of tibial shaft fracture fixation.

AU - Penzkofer, Rainer

AU - Maier, Michael

AU - Nolte, Alexander

AU - von Oldenburg, Geert

AU - Püschel, Klaus

AU - Bühren, Volker

AU - Augat, Peter

PY - 2009

Y1 - 2009

N2 - BACKGROUND: Fracture healing is affected by the type and the magnitude of movements at the fracture site. Mechanical conditions will be a function of the type of fracture management, the distance between the fracture fragments, and the loading of the fracture site. The hypothesis to be tested was that the use of a larger-diameter intramedullary nail, together with compressed interlocking, would enhance the primary stiffness and reduce fracture site movements, especially those engendered by shearing forces. MATERIALS AND METHODS: Six pairs of human tibiae were used to study the influence on fracture site stability of two different diameters (9 and 11 mm) of intramedullary nails, in tension/compression, torsional, four-point bending, and shear tests. The nails were used with two interlocking modes (static interlocking vs. dynamic compression). RESULTS: With static interlocking, the 11-mm-diameter nail provided significantly (30-59%) greater reduction of fracture site movement, as compared with the 9-mm-diameter nail. Using an 11-mm-diameter nail, the stiffness of the bone-implant construct was enhanced by between 20 and 50%. Dynamic compression allowed the interfragmentary movements at the fracture site to be further reduced by up to 79% and the system stiffness to be increased by up to 80%. CONCLUSION: On biomechanical grounds, the largest possible nail diameter should be used, with minimal reaming, so as to minimize fracture site movement. Compression after meticulous reduction should be considered in axially stable fractures.

AB - BACKGROUND: Fracture healing is affected by the type and the magnitude of movements at the fracture site. Mechanical conditions will be a function of the type of fracture management, the distance between the fracture fragments, and the loading of the fracture site. The hypothesis to be tested was that the use of a larger-diameter intramedullary nail, together with compressed interlocking, would enhance the primary stiffness and reduce fracture site movements, especially those engendered by shearing forces. MATERIALS AND METHODS: Six pairs of human tibiae were used to study the influence on fracture site stability of two different diameters (9 and 11 mm) of intramedullary nails, in tension/compression, torsional, four-point bending, and shear tests. The nails were used with two interlocking modes (static interlocking vs. dynamic compression). RESULTS: With static interlocking, the 11-mm-diameter nail provided significantly (30-59%) greater reduction of fracture site movement, as compared with the 9-mm-diameter nail. Using an 11-mm-diameter nail, the stiffness of the bone-implant construct was enhanced by between 20 and 50%. Dynamic compression allowed the interfragmentary movements at the fracture site to be further reduced by up to 79% and the system stiffness to be increased by up to 80%. CONCLUSION: On biomechanical grounds, the largest possible nail diameter should be used, with minimal reaming, so as to minimize fracture site movement. Compression after meticulous reduction should be considered in axially stable fractures.

M3 - SCORING: Zeitschriftenaufsatz

VL - 129

SP - 525

EP - 531

JO - ARCH ORTHOP TRAUM SU

JF - ARCH ORTHOP TRAUM SU

SN - 0936-8051

IS - 4

M1 - 4

ER -