TIBIAL SLOPE AND ACL RUPTURE: MRI ASSESSMENT

169

[10] KOSTOGIANNIS I, SWÄRD P, NEUMAN P, FRIDÉN

T, ROOS H. The influence of posterior-inferior tibial slope in

ACL injury.

Knee Surg Sports Traumatol Arthrosc 2011, 19,

592-97.

[11] SIMON RA, EVERHART JS, NAGARAJA HN,

CHAUDHARI AM. A case-control study of anterior cruciate

ligament volume, tibial plateau slopes and intercondylar

notch dimensions in ACL-injured knees.

J Biomech 2010

Jun 18; 43(9): 1702-7.

[12] LIPPS DB, WILSON AM, ASHTON-MILLER JA,

WOJTYS EM. An Evaluation of Different Methods for

Measuring Lateral tibial slope using magnetic resonance

Imaging.

Am J Sports Med 2012 December; 40(12):

2731-36.

[13] LUSTIG S, SCHOLES CJ, LEO SP, COOLICAN M,

PARKER DA. Influence of soft tissues on the proximal bony

tibial slope measured with two-dimensional MRI.

Knee Surg

Sports Traumatol Arthrosc (2013) 21: 372-9.

[14] HUDEK R, SCHMUTZ S, REGENFELDER F, FUCHS

B, KOCH PP. Novel Measurement Technique of the Tibial

Slope on Conventional MRI.

Clin Orthop Relat Res 2009;

467: 2066-72.

[15] HAN HS, CHANG CB, SEONG SC, LEE S, LEE MC.

Evaluation of anatomic references for tibial sagittal

alignment in total knee arthroplasty.

Knee Surg Sports

Traumatol Arthrosc 2008; 16: 373-7.

[16] LEE YS, KIM JG, LIM HC, PARK JH, PARK JW, KIM

JG. The relationship between tibial slope and meniscal

insertion.

Knee Surg Sports Traumatol Arthrosc 2009; 17:

1416-20.

[17] BRAZIER J, MIGAUD H, GOUGEON F, COTTEN A,

FONTAINE C, DUQUENNOYA. Evaluation des méthodes

de mesure radiographique de la pente tibiale.

Rev Chir

Orthop Reparatrice Appar Mot 1996; 82(3): 195-200.

[18] MATSUDA S, MIURAH, NAGAMINE R, URABE K,

IKENOUE T, OKAZAKI K, IWAMOTO Y. Posterior tibial

slope in the normal and varus knee.

Am J Knee Surg 1999;

12: 165-8.

[19] TODDMS, LALLISS S, GARCIAE, DEBERARDINO

TM, CAMERON KL. The relationship between posterior

tibial slope and anterior cruciate ligament injuries.

Am

J Sports Med 2010; Jan; 38(1): 63-7.

[290] HASHEMI J, CHANDRASHEKAR N, MANSOURI

H, GILL B, SLAUTERBECK JR, SCHUTT RC J

r

,

DABEZIES E, BEYNNON BD. Shallow medial tibial

plateau and steep medial and lateral tibial slopes: new risk

factors for anterior cruciate ligament injuries.

Am J Sports

Med 2010 Jan; 38(1): 54-62.

[21] STIJAK L, HERZOG RF, SCHAI P. Is there an

influence of the tibial slope of the lateral condyle on the ACL

lesion? A case-control study.

Knee Surg Sports Traumatol

Arthrosc 2008 Feb; 16(2): 112-7.

[22] DEJOUR H, BONNIN M. Tibial translation after

anterior cruciate ligament rupture.

J Bone Joint Surg Br 1994

Sep; 76(5): 745-9.

[23] WORDEMAN SC, QUATMAN CE, KAEDING CC,

HEWETT TE.

In vivo

evidence for tibial plateau slope as a

risk factor for anterior cruciate ligament injury: a systematic

review and meta-analysis.

Am J Sports Med 2012 Jul; 40(7):

1673-81.

[24] BONNIN M, CARRET JP, DIMNET J, DEJOUR H.

The weight-bearing knee after anterior cruciate ligament

rupture. An in vitro biomechanical study.

Knee Surg Sports

Traumatol Arthrosc 1996; 3(4): 245-51.

[25] FEUCHT MJ, MAURO CS, BRUCKER PU, IMHOFF

AB, HINTERWIMMER S. The role of the tibial slope in

sustaining and treating anterior cruciate ligament injuries.

Knee Surg Sports Traumatol Arthrosc 2013 Jan; 21(1):

134-45.

[26] BAI B, BAEZ J, TESTA N, KUMMER FJ. Effect of

posterior cut angle on tibial component loading.

J Arthroplasty 2000 Oct; 15(7): 916-20.

[27] GIFFIN JR, VOGRIN TM, ZANTOP T, WOO SL,

HARNER CD. Effects of increasing tibial slope on the

biomechanics of the knee.

Am J Sports Med 2004 Mar;

32(2): 376-82.