[31]

Morishima T, Ginsel BL, Choy GG, Wilson LJ, Whitehouse SL, Crawford RW. Periprosthetic

fracture torque for short versus standard cemented hip stems: an experimental in vitro

study. J Arthroplasty 2014;29:1067

–

71.

[32]

Phillips TW, Messieh SS, McDonald PD. Femoral stem fixation in hip replacement. A

biomechanical comparison of cementless and cemented prostheses. J Bone Joint Surg Br

1990;72:431

–

4.

[33]

Lewis GS, Caroom C, Wee HB, Jurgensmeier D, Rothermel S, Bramer M, Reid JS. Tangential

bicortical locked fixation improves stability in vancouver B1 periprosthetic femur

fractures: a biomechanical study. J Orthop Trauma 2015;29:e364

–

70.

[34]

Moazen M, Jones AC, Jin Z, Wilcox RK, Tsiridis E. Periprosthetic fracture fixation of the

femur following total hip arthroplasty: a review of biomechanical testing. Clin Biomech

2011;26:13

–

22.

[35]

Lindahl H, Malchau H, Herberts P, Garellick G. Periprosthetic femoral fractures:

classification and demographics of 1049 periprosthetic femoral fractures from the

Swedish National Hip Arthroplasty Register. J Arthroplasty 2005;20:857

–

65.

[36]

Leonidou A, Moazen M, Lepetsos P, Graham SM, Macheras GA, Tsiridis E. The

biomechanical effect of bone quality and fracture topography on locking plate fixation

in periprosthetic femoral fractures. Injury 2015;46:213

–

7.

[37]

Lintner F, Huber M, Böhm G, Kiss H, Gundolf F, Institut P, Salzburg L. Kann eine

Bandcerclage aus Titanium zu einer günstigeren knöchernen Stabilisierung nach TEP.

TEP-Lockerung und Femurschaftfraktur 2001;81

–

6.

[38]

Korovessis P, Baikousis A, Stamatakis M. First experience with the use of compression

cerclage Gundolf in orthopaedic and trauma surgery. A preliminary report. Arch Orthop

Trauma Surg 1998;117(8):448

–

52.

[39]

Cristofolini L, Viceconti M. Mechanical validation of whole bone composite tibia models.

J Biomech 2010;33:279

–

88.

[40]

Jones MD, Carpenter C, Mitchell SR, Whitehouse M, Mehendale S. Retrograde femoral

nailing of periprosthetic fractures around total knee replacements. Injury 2016;47:460

–

4.

[41]

Gardner MP, Chong CM, Pollock AG, Wooley PH. Mechanical evaluation of large-

size fourth-generation composite femur and tibia models. Ann Biomed Eng 2010;38:

613

–

20.

[42]

Wähnert D, Schröder R, Schulze M, Westerhoff P, Raschke M, Stange R. Biomechanical

comparison of two angular stable plate constructions for periprosthetic femur fracture

fixation. Intl Orthop 2014;38:47

–

53.

[43]

Bredbenner TL,Snyder SA, Mazloomi FR, Le T, Wilber RG. Subtrochantericfixation stability

depends on discrete fracture surface points. Clin Orthop Rel Res 2005;432: 217

–

25.

K. Gordon et al. / Injury, Int. J. Care Injured 47S2 (2016) S51

–

S57

S57