Anterior cruciate ligament biomechanics

Hamner DL, Brown CH, Steiner ME et al (1999) Hamstring tendon grafts for reconstructirai of the anterior cruciate ligament biomechanical evaluation of the use of multiple strands and tensioning techniques. J Bone Joint Surg Am 81 549-557... 

Amis AA, Kempson AS, Campbell JR and Millee JH (1988) Anterior cruciate ligament replacement Biocompatibility and biomechanics of polyester and carbon fiber in rabbits. J Bone Joint Surg Br 70 628. 

Serpas, F., Yanagawa, T., and Pandy, M. G. (2002). Forward-dynamics simulation of anterior cruciate ligament forces developed during isokinetic dynamometry. Computer Methods in Biomechanics and Biomedical Engineering, 5 33-43. 

For ACL reconstruction, some have created femoral tuimels in the direct attachment of the midsubstance fibers [2, 12], whereas others have recommended that they should include as much as the whole area including the attachment of the fanlike extensimi fibers [13, 14]. This discrepancy can occur due to our lack of knowledge on the transmission of the load carried by the ACL to the femoral attachment, fri some biomechanical studies in which the ACL was separated into 2 fiber bundles [15] or 3 fiber bundles [16], however, those did not use recent anatomic knowledge of the ACL attachment. The purpose of the second study was to clarify the load-bearing functions of the fibers of the femoral anterior cruciate ligament (ACL) attachment in the resistance of tibial anterior drawer and rotation. 

Yagi M, Wong EK, Kanamori A, Debski RE, Fu FH, Woo SL (2002) Biomechanical analysis of an anatomic anterior cruciate ligament reconstructirai. Am J Sports Med 30(5) 660-666... 

Takahashi Y, Fujie H, Nakada K et al (2014) Resident s ridge formation due to tensile force in the anterior cruciate ligament. Jpn J Clin Biomechanics 35 137-142. (in Japanese)... 

Suzuki T, Otsubo H, Fujie H et al (2015) Biomechanical comparison of anterior cruciate ligament reconstructions with hamstring graft. The seventh annual meeting JOSKAS (in Japanese)... 

Previously, anatomical studies have been performed to know the position of the anatomical anterior cruciate ligament (ACL) insertion [1-18], and the ACL can be divided into two parts the anteromedial (AM) and posterolateral (PL) bundles [1], These bundles have different functimis with different lengths and force-change patterns [19-21], and some biomechanical studies described that anatomical double-bundle (DB) ACL reconstruction achieved equal knee kinematics to those of the intact knee with stability of tibial anterior translation and rotation [22-24]. As a result, anatomical DB ACL reconstruction is a widely used procedure. Femoral... 

Mae T, Shino K, Miyama T et al (2001) Single- versus two-femoral socket anterior cruciate ligament reconstruction technique biomechanical analysis using robotic simulator. Arthroscopy 17 708-716... 

Noyes ER, DeLucas JL, Torvik PJ (1974) Biomechanics of anterior cruciate ligament failure an analysis of strain-rate sensitivity and mechanisms of failure in primates. J Bone Joint Surg Am 56 236-253... 

Biomechanics of the Knee with Isolated One-Bundle Tear of the Anterior Cruciate Ligament... 

Kondo E, Merican AM, Yasuda K, Amis AA (2014) Biomechanical analysis of knee laxity with isolated anteromedial or posterolateral bundle-deficient anterior cruciate ligament. Arthroscopy 30 335-343... 

Remnant-preserving anterior cruciate ligament (ACL) reconstruction recently gained popularity because it has proven biomechanical [1, 2], vascular [3], and proprioceptive [4] advantages moreover, it has been shown to reduced synovial fluid leakage into the bone tunnels [5] and improve knee stability [6]. Thus, ACL reconstruction using remnant-preserving techniques has received much attention. However, few studies to date have reviewed the function and biomechanics of ACL remnants. 

Yamanaka M, Yasuda K, Tohyama H, Nakano H, Wada T (1999) The effect of cyclic displacement upon the biomechanical characteristics of anterior cruciate ligament reconstructions. Am J Sports Med 27 772-777... 

Yasuda K, Ichiyama H, Kondo E, Miyatake S, Inoue M, Tanabe Y (2008) An in vivo biomechanical study on the tension-versus-knee fleximi angle curves of two grafts in anatomic double-bundle anterior cruciate ligament reconstruction effects of initial tension and internal tibial rotation. Arthroscopy 24 276-284... 

Krosshaug T, Slauterbeck JR, Engebretsen L, Bahr R (2007) Biomechanical analysis of anterior cruciate ligament injury mechanisms three-dimensional motion reconstruction from video sequences. Scand J Med Sci Sports 17(5) 508-519... 

Maeyama A, Hoshino Y, Debandi A, Kato Y, Saeki K, Asai S, Goto B, Smolinski P, Fu FH (2011) Evaluation of rotational instability in the anterior cruciate ligament deficient knee using triaxial accelerometer a biomechanical model in porcine knees. Knee Surg Sports Traumatol Arthrosc 19 1233-1238... 

Table 14.1 Biomechanical properties of anterior cruciate ligament and grafts...

Haut Donahue TL, Howell SM, Hull ML, Gregerstn C (2002) A biomechanical evaluation of anterior and posterior tihialis tendons as suitahle single-loop anterior cruciate ligament grafts. Arthroscerpy 18 589-597... 

Ballock RT, Woo SLY, Lyon RM, Hollis JM, Akeson WH (1989) Use of patellar tendon autograft for anterior cruciate ligament reconstruction in the rabbit a long-term histologic and biomechanical study. J Orthop Res 7 474-485... 

Cabom DN, Urban WP Jr, Johnson DL, Nyland J, Pienkowski D (1997) Biomechanical comparison between BioScrew and titanium alloy interference screws for bone-patellar tendon-bone graft fixation in anterior cruciate ligament reconstruction. Arthroscopy 13 229-232... 

Petre BM, Smith SD, Jansson KS, de MeijerPP, Hackett TR, LaPradeRF, Wijdicks CA (2013) Femoral cortical suspension devices for soft tissue anterior cruciate ligament reconstruction a comparative biomechanical study. Am J Sports Med 41 416-422... 

Suzuki T, Shino K, Otsubo H, Suzuki D, Mae T, Fujimiya M, Yamashita T, Fujie H (2014) Biomechanical comparison between the rectangular-tunnel and the round-tunnel anterior cruciate ligament reconstruction procedures with a bone-patellar tendon-bone graft. Arthroscopy 30 1294-1302... 

Kousa P, Jarvinen TTL, Kannus P, Jarvinen M (2001) Initial fixation strength of bioabsorbable and titanium interference screws in anterior cruciate ligament reconstruction. Biomechanical evaluation by single cycle and cycling loading. Am J Sports Med 29 420-425... 

Kamelger FS, Onder U, Schmoei W, Tecklenburg K, Arora R, Fink C (2009) Suspensory fixation of grafts in anterior cruciate ligament reconstruction a biomechanical comparisrai of 3 implants. Arthroscopy 25 767-776. doi 10.1016/j.arthro.2009.01.021... 

Miyata K, Yasuda K, Kondo E et al (2000) Biomechanical comparisons of anterior cruciate ligament reconstruction procedures with flexor tendon graft. J Orthop Sci 5 585-592... 

Kurosaka M, Yoshiya S, Andrish JT et al (1987) A biomechanical comparison of different surgical techniques of graft fixation in anterior cruciate ligament reconstruction. Am J Sports Med 15 225-229... 

Tesumura S, Fujita A, Nakajima M et al (2006) Biomechanical comparison of different fixation methods on the tibial side in anterior cruciate ligament reconstmction a biomechanical study in porcine tibial bone. J Orthop Sci 11 278-282... 

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