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Knee Surgery, Sports Traumatology, Arthroscopy

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Open Access 01-02-2017 | Knee

Biomechanical comparison of graft structures in anterior cruciate ligament reconstruction

Authors: Breck R. Lord, Hadi El-Daou, Bhushan M. Sabnis, Chinmay M. Gupte, Adrian M. Wilson, Andrew A. Amis

Published in: Knee Surgery, Sports Traumatology, Arthroscopy | Issue 2/2017

Abstract

Purpose

Double-bundle (DB) anterior cruciate ligament (ACL) reconstruction may offer kinematic restoration superior to anatomic single bundle (SB), but it remains technically challenging. The femoral attachment site has the most effect on ACL graft isometry, so a simplified three-socket (3S) construct which still uses two sockets to cover the femoral ACL attachment is attractive. It was hypothesised that ACL reconstruction using three- and four-socket techniques would more closely restore native knee kinematics compared to anatomic two-socket (SB) surgery.

Methods

Nine cadaveric knees were used to evaluate the kinematics of ACL-intact, ACL-deficient, anatomic SB, three-socket, and DB arthroscopic ACL reconstructions. Suspensory fixation was used, and grafts were tensioned to match the anterior draw of the intact knee at 20°. A six-degree-of-freedom robotic system measured knee laxity under 90 N anterior tibial force and rotational laxity under 5 N-m torque. Combined moments were applied to simulate the pivot-shift subluxation: 4 N-m internal rotation and 8 N-m valgus.

Results

Significant differences between reconstructions were not found during anterior tibial loading, apart from SB being more lax than DB at 60° flexion. All reconstructions produced comparable laxity to the intact state, apart from SB at 60°. Significant differences between reconstructions were not found at any flexion angle during tibial internal/external applied torques. Under combined loading, DB produced significantly less laxity than SB constructs apart from anterior tibial translation at 0° and internal rotation at 45°. 3S and DB were comparable to the native knee throughout.

Conclusion

Although 3S restored laxities to a similar extent to DB, significant superiority over SB surgery was not observed. Although statistically significant differences were found between SB and DB surgery during anterior tibial and simulated pivot-shift loading, both remained similar to the native knee. The clinical relevance is that this study did not support an ACL graft construct more complex than an anatomic single bundle.

Amis A, Zavras TD (1995) Isometricity and graft placement during anterior cruciate ligament reconstruction. Knee 2:5–17CrossRef

Anderson CJ (2010) Kinematic impact of anteromedial and posterolateral bundle graft fixation angles on double-bundle anterior cruciate ligament reconstructions. Am J Sports Med 38:1575–1583CrossRefPubMed

Bedi A, Altchek DW (2009) The “footprint” anterior cruciate ligament technique: an anatomic approach to anterior cruciate ligament reconstruction. Arthroscopy 25:1128–1138CrossRefPubMed

Bedi A, Musahl V, O’Loughlin P, Maak T, Citak M, Dixon P, Pearle AD (2010) A comparison of the effect of central anatomical single-bundle anterior cruciate ligament reconstruction and double-bundle anterior cruciate ligament reconstruction on pivot-shift kinematics. Am J Sports Med 38:1788–1794CrossRefPubMed

Bernard M, Hertel P, Hornung H, Cierpinski T (1997) Femoral insertion of the ACL: radiographic quadrant method. Am J Knee Surg 10:14–21PubMed

Bird JH, Carmont MR, Dhillon M, Smith N, Brown C, Thompson P, Spalding T (2011) Validation of a new technique to determine midbundle femoral tunnel position in anterior cruciate ligament reconstruction using 3-dimensional computed tomography analysis. Arthroscopy 27:1259–1267CrossRefPubMed

Brophy RH, Wright RW, Matava MJ (2009) Cost analysis of converting from single-bundle to double-bundle anterior cruciate ligament reconstruction. Am J Sports Med 37:683–687CrossRefPubMed

Crawford C, Nyland J, Landes S, Jackson R, Chang HC, Nawab A, Caborn DN (2007) Anatomic double bundle ACL reconstruction: a literature review. Knee Surg Sports Traumatol Arthrosc 15:946–964CrossRefPubMed

Engebretsen L, Wijdicks CA, Anderson CA, Westerhaus B, LaPrade RF (2012) Evaluation of a simulated pivot shift test: a biomechanical study. Knee Surg Sports Traumatol Arthrosc 20:698–702CrossRefPubMed

10.

Fu FH, Shen W, Starman JS, Okeke N, Irrgang JJ (2008) Primary anatomic double-bundle anterior cruciate ligament reconstruction a preliminary 2-year prospective study. Am J Sports Med 36:1263–1274CrossRefPubMed

11.

Gabriel MT, Wong EK, Woo SL, Yagi M, Debski RE (2004) Distribution of in situ forces in the anterior cruciate ligament in response to rotatory loads. J Orthop Res 22:85–89CrossRefPubMed

12.

Galway R, Beaupre A, MacIntosh D (1972) Pivot shift: a clinical sign of symptomatic anterior cruciate insufficiency. J Bone Joint Surg Br 54:763–764

13.

Girgis FG, Marshall JL, Al-Monajem A (1975) The cruciate ligaments of the knee joint: anatomical. functional and experimental analysis. Clin Orthops Rel Res 106:216–231CrossRef

14.

Goldsmith MT, Jansson KS, Smith SD, Engebretsen L, LaPrade RF, Wijdicks CA (2013) Biomechanical comparison of anatomic single-and double-bundle anterior cruciate ligament reconstructions an in vitro study. Am J Sports Med 41:1585–1604CrossRef

15.

Hara K, Mochizuki T, Sekiya I, Yamaguchi K, Akita K, Muneta T (2009) Anatomy of normal human anterior cruciate ligament attachments evaluated by divided small bundles. Am J Sports Med 37:2386–2391CrossRefPubMed

16.

Hefzy M, Grood ES (1986) Sensitivity of insertion locations on length patterns of anterior cruciate ligament fibers. J Biomech Eng 108(73–82):17

17.

Höher J, Kanamori A, Zeminski J, Fu FH, Woo SL (2001) The position of the tibia during graft fixation affects knee kinematics and graft forces for anterior cruciate ligament reconstruction. Am J Sports Med 29:771–776PubMed

18.

Howard ME, Cawley PW, Losse GM, Johnston RB (1996) Bone-patellar tendon-bone grafts for anterior cruciate ligament reconstruction: the effects of graft pretensioning. Arthroscopy 12:287–292CrossRefPubMed

19.

Hussein M, van Eck CF, Cretnik A, Dinevski D, Fu FH (2012) Prospective randomized clinical evaluation of conventional single-bundle, anatomic single-bundle, and anatomic double-bundle anterior cruciate ligament reconstruction: 281 cases with 3- to 5-year follow-up. Am J Sports Med 40:512–520CrossRefPubMed

20.

Hwang MD, Piefer JW, Lubowitz JH (2012) Anterior cruciate ligament tibial footprint anatomy: systematic review of the 21st century literature. Arthroscopy 28:728–734CrossRefPubMed

21.

Järvelä T, Moisala AS, Sihvonen R, Järvelä S, Kannus P, Järvinen M (2008) Double-bundle anterior cruciate ligament reconstruction using hamstring autografts and bioabsorbable interference screw fixation prospective, randomized, clinical study with 2-year results. Am J Sports Med 36:290–297CrossRefPubMed

22.

Kanamori A, Zeminski J, Rudy TW, Li G, Fu FH, Woo SL (2002) The effect of axial tibial torque on the function of the anterior cruciate ligament: a biomechanical study of a simulated pivot shift test. Arthroscopy 18:394–398CrossRefPubMed

23.

Kim D, Asai S, Moon CW, Hwang SC, Lee S, Keklikci K, Linde-Rosen M, Smolinski P, Fu FH (2015) Biomechanical evaluation of anatomic single-and double-bundle anterior cruciate ligament reconstruction techniques using the quadriceps tendon. Knee Surg Sports Traumatol Arthrosc 23:687–695CrossRefPubMed

24.

Kondo E, Merican AM, Yasuda K, Amis AA (2011) Biomechanical comparison of anatomic double-bundle, anatomic single-bundle, and nonanatomic single-bundle anterior cruciate ligament reconstructions. Am J Sports Med 39:279–288CrossRefPubMed

25.

Kondo E, Merican AM, Yasuda K, Amis AA (2010) Biomechanical comparisons of knee stability after anterior cruciate ligament reconstruction between 2 clinically available transtibial procedures: anatomic double bundle versus single bundle. Am J Sports Med 38:1349–1358CrossRefPubMed

26.

Kondo E, Yasuda K, Azuma H, Tanabe Y, Yagi T (2008) Prospective clinical comparisons of anatomic double-bundle versus single-bundle anterior cruciate ligament reconstruction procedures in 328 consecutive patients. Am J Sports Med 36:1675–1687CrossRefPubMed

27.

Lee JS, Kim TH, Kang SY, Lee SH, Jung YB, Koo S, Chang SH, Lee WB, Jung HJ (2012) How isometric are the anatomic femoral tunnel and the anterior tibial tunnel for anterior cruciate ligament reconstruction? Arthroscopy 28:1504–1512CrossRefPubMed

28.

Logan JS, Elliot RR, Wilson AJ (2012) TransLateral ACL reconstruction: a technique for anatomic anterior cruciate ligament reconstruction. Knee Surg Sports Traumatol Arthrosc 20:1289–1292CrossRefPubMed

29.

Logan MC, Williams A, Lavelle J, Gedroyc W, Freeman M (2004) What really happens during the Lachman test? a dynamic MRI analysis of tibiofemoral motion. Am J Sports Med 32:369–375CrossRefPubMed

30.

Lorbach O, Kieb M, Domnick C, Herbort M, Weyers I, Raschke M, Engelhardt M (2015) Biomechanical evaluation of knee kinematics after anatomic single-and anatomic double-bundle ACL reconstructions with medial meniscal repair. Knee Surg Sports Traumatol Arthrosc 23:2734–2741CrossRefPubMed

31.

Lubowitz JH, Ahmad CS, Anderson K (2011) All-inside anterior cruciate ligament graft-link technique: second-generation, no-incision anterior cruciate ligament reconstruction. Arthroscopy 27:717–727CrossRefPubMed

32.

Markolf KL, Park S, Jackson SR, McAllister DR (2009) Anterior-posterior and rotatory stability of single and double-bundle anterior cruciate ligament reconstructions. J Bone Joint Surg Am 91:107–118CrossRefPubMed

33.

Morimoto Y, Ferretti M, Ekdahl M, Smolinski P, Fu FH (2009) Tibiofemoral joint contact area and pressure after single- and double-bundle anterior cruciate ligament reconstruction. Arthroscopy 25:62–69CrossRefPubMed

34.

Musahl V, Voos JE, O’Loughlin PF, Choi D, Stueber V, Kendoff D, Pearle AD (2010) Comparing stability of different single- and double-bundle anterior cruciate ligament reconstruction techniques: a cadaveric study using navigation. Arthroscopy 26(Suppl):S41–S48CrossRefPubMed

35.

Petersen W, Tretow H, Weimann A, Herbort M, Fu FH, Raschke M, Zantop T (2007) Biomechanical evaluation of two techniques for double-bundle anterior cruciate ligament reconstruction one tibial tunnel versus two tibial tunnels. Am J Sports Med 35:228–234CrossRefPubMed

36.

Piefer JW, Pflugner TR, Hwang MD, Lubowitz JH (2012) Anterior cruciate ligament femoral footprint anatomy: systematic review of the 21st century literature. Arthroscopy 28:872–881CrossRefPubMed

37.

Schuster AJ, McNicholas MJ, Wachtl SW, McGurty DW, Jakob RP (2004) A new mechanical testing device for measuring anteroposterior knee laxity. Am J Sports Med 32:1731–1735CrossRefPubMed

38.

Sherman SL, Chalmers PN, Yanke AB, Bush-Joseph CA, Verma NN, Cole BJ, Bach BR (2012) Graft tensioning during knee ligament reconstruction: principles and practice. J Am Acad Orthop Surg 20:633–645PubMed

39.

Sidles JA, Larson RV, Garbini JL, Downey DJ, Matsen FA (1988) Ligament length relationships in the moving knee. J Orthop Res 6:593–610CrossRefPubMed

40.

Siebold R (2011) The concept of complete footprint restoration with guidelines for single- and double-bundle ACL reconstruction. Knee Surg Sports Traumatol Arthrosc 19:699–706CrossRefPubMed

41.

Smith JO, Yasen S, Risebury MJ, Wilson AJ (2014) Femoral and tibial tunnel positioning on graft isometry in anterior cruciate ligament reconstruction: a cadaveric study. J Orthop Surg 22:318–324CrossRef

42.

Suomalainen P, Järvelä T, Paakkala A, Kannus P, Järvinen M (2012) Double-bundle versus single-bundle anterior cruciate ligament reconstruction: a prospective randomized study with 5-year results. Am J Sports Med 40:1511–1518CrossRefPubMed

43.

Tsai AG, Wijdicks CA, Walsh MP, Laprade RF (2010) Comparative kinematic evaluation of all-inside single-bundle and double-bundle anterior cruciate ligament reconstruction: a biomechanical study. Am J Sports Med 38:263–272CrossRefPubMed

44.

Tsuda E, Ishibashi Y, Fukuda A, Yamamoto Y, Tsukada H, Ono S (2010) Tunnel position and relationship to postoperative knee laxity after double-bundle anterior cruciate ligament reconstruction with a transtibial technique. Am J Sports Med 38:698–706CrossRefPubMed

45.

van Eck CF, Samuelsson K, Vyas SM, van Dijk CN, Karlsson J, Fu FH (2011) Systematic review on cadaveric studies of anatomic anterior cruciate ligament reconstruction. Knee Surg Sports Traumatol Arthroscopy 19:S101–S108CrossRef

46.

Wilson AJ, Yasen SK, Nancoo T, Stannard R, Smith JO, Logan JS (2013) Anatomic all-inside anterior cruciate ligament reconstruction using the translateral technique. Arthrosc Tech 2:e99–e104CrossRefPubMedPubMedCentral

47.

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

48.

Yamamoto Y, Hsu WH, Woo SL, van Scyoc AH, Takakura Y, Debski RE (2004) Knee stability and graft function after anterior cruciate ligament reconstruction a comparison of a lateral and an anatomical femoral tunnel placement. Am J Sports Med 32:1825–1832CrossRefPubMed

49.

Yasen SK, Logan JS, Smith JO, Nancoo T, Risebury MJ, Wilson AJ (2014) TriLink: anatomic double-bundle anterior cruciate ligament reconstruction. Arthrosc Tech 3:e13–e20CrossRefPubMed

50.

Yasuda K, Kondo E, Ichiyama H, Tanabe Y, Tohyama H (2006) Clinical evaluation of anatomic double-bundle anterior cruciate ligament reconstruction procedure using hamstring tendon grafts: comparisons among 3 different procedures. Arthroscopy 22:240–251CrossRefPubMed

51.

Yasuda K, Tsujino J, Tanabe Y, Kaneda K (1997) Effects of initial graft tension on clinical outcome after anterior cruciate ligament reconstruction autogenous doubled hamstring tendons connected in series with polyester tapes. Am J Sports Med 25:99–106CrossRefPubMed

52.

Zaffagnini S, Bruni D, Marcheggiani Muccioli GM, Bonanzinga T, Lopomo N, Bignozzi S, Marcacci M (2011) Single-bundle patellar tendon versus non-anatomical double-bundle hamstrings ACL reconstruction: a prospective randomized study at 8-year minimum follow-up. Knee Surg Sports Traumatol Arthrosc 19:390–397CrossRefPubMed

Title: Biomechanical comparison of graft structures in anterior cruciate ligament reconstruction
Authors: Breck R. Lord
Hadi El-Daou
Bhushan M. Sabnis
Chinmay M. Gupte
Adrian M. Wilson
Andrew A. Amis
Publication date: 01-02-2017
Publisher: Springer Berlin Heidelberg
Published in: Knee Surgery, Sports Traumatology, Arthroscopy / Issue 2/2017
Print ISSN: 0942-2056
Electronic ISSN: 1433-7347
DOI: https://doi.org/10.1007/s00167-016-4316-6

At a glance: The STEP trials

Springer Medicine

Biomechanical comparison of graft structures in anterior cruciate ligament reconstruction

Abstract

Purpose

Methods

Results

Conclusion

At a glance: The STEP trials

Springer Medicine

Abstract

Purpose

Methods

Results

Conclusion

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