Lateral Meniscal Graft Transplantation: Effect of Fixation Method on Joint Contact Mechanics During Simulated Gait

Abstract

Background:

Controversy exists regarding the optimal bony fixation technique for lateral meniscal allografts.

Purpose/Hypothesis:

The objective was to quantify knee joint contact mechanics across the lateral plateau for keyhole and bone plug meniscal allograft transplant fixation techniques throughout simulated gait. It was hypothesized that both methods of fixation would improve contact mechanics relative to the meniscectomized condition, while keyhole fixation would restore the distribution of contact stress closer to that of the intact knee.

Study Design:

Controlled laboratory study.

Methods:

Six human cadaveric knees were mounted on a multidirectional dynamic simulator and subjected to the following conditions: (1) native intact meniscus, (2) keyhole fixation of the native meniscus, (3) bone plug fixation of the native meniscus, and (4) meniscectomy. Contact area, peak contact stress, and the distribution of stress across the tibial plateau were computed at 14% and 45% of the gait cycle, at which axial forces are at their highest. Translation of the weighted center of contact stress throughout simulated gait was computed.

Results:

Both bony fixation techniques improved contact mechanics relative to the meniscectomized condition. The keyhole technique was not significantly different from the intact condition for the following metrics: contact area, peak contact stress, distribution of force between the meniscal footprint and cartilage-to-cartilage contact, and the position of the weighted center of contact. In contrast, bone plug fixation resulted in a significant decrease of 21% to 28% in contact area at 14% and 45% of the simulated gait cycle, a significant increase in peak contact stresses of 34% at 45% of the gait cycle, and a shift in the weighted center of contact, which increased forces in the cartilage-to-cartilage contact area at 45% of the gait cycle.

Conclusion:

While both keyhole and bone plug fixation methods improved lateral compartment contact mechanics relative to the meniscectomized knee, keyhole fixation restored contact mechanics closer to that of the intact knee.

Clinical Relevance:

Method of meniscal fixation is under the direct control of the surgeon. From a biomechanics perspective, keyhole fixation is advocated for its ability to mimic intact knee joint contact mechanics.

Keywords

knee meniscus allograft contact mechanics simulated gait

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References

Abat

Gelber

Erquicia

Pelfort

Gonzalez-Lucena

Monllau

JC.

Suture-only fixation technique leads to a higher degree of extrusion than bony fixation in meniscal allograft transplantation. Am J Sports Med. 2012;40:1591-1596.

Abusara

Von Kossel

Herzog

In vivo dynamic deformation of articular cartilage in intact joints loaded by controlled muscular contractions. PLoS One. 2016;11(1):e0147547.

Alhalki

Howell

Hull

ML.

How three methods for fixing a medial meniscal autograft affect tibial contact mechanics. Am J Sports Med. 1999;27(3):320-328.

Allen

Caldwell

Anatomy and biomechanics of the meniscus. Oper Tech Orthop. 1995;5(1):2-9.

Bedi

Kelly

Baad

, et al. Dynamic contact mechanics of the medial meniscus as a function of radial tear, repair, and partial meniscectomy. J Bone Joint Surg Am. 2010;92(6):1398-1408.

Bedi

Kelly

Baad

, et al. Dynamic contact mechanics of radial tears of the lateral meniscus: implications for treatment. Arthroscopy. 2012;28(3):372-381.

Brophy

Matava

MJ.

Surgical options for meniscal replacement. J Am Acad Orthop Surg. 2012;20(5):265-272.

Carbone

Rodeo

Review of current understanding of post-traumatic osteoarthritis resulting from sports injuries. J Orthop Res. 2017;35(3):397-405.

Chen

Branch

Hutton

WC.

Is it important to secure the horns during lateral meniscal transplantation? A cadaveric study. Arthroscopy. 1996;12(2):174-181.

10.

DesJardins

Walker

Haider

Perry

The use of a force-controlled dynamic knee simulator to quantify the mechanical performance of total knee replacement designs during functional activity. J Biomech. 2000;33(10):1231-1242.

11.

Dienst

Greis

Ellis

Bachus

Burks

RT.

Effect of lateral meniscal allograft sizing on contact mechanics of the lateral tibial plateau: an experimental study in human cadaveric knee joints. Am J Sports Med. 2007;35(1):34-42.

12.

Elattar

Dhollander

Verdonk

Almqvist

Verdonk

Twenty-six years of meniscal allograft transplantation: is it still experimental? A meta-analysis of 44 trials. Knee Surg Sports Traumatol Arthrosc. 2011;19(2):147-157.

13.

Gilbert

Chen

Hutchinson

, et al. Dynamic contact mechanics on the tibial plateau of the human knee during activities of daily living. J Biomech. 2014;47(9):2006-2012.

14.

Greis

Bardana

Holmstrom

Burks

RT.

Meniscal injury: I. Basic science and evaluation. J Am Acad Orthop Surg. 2002;10(3):168-176.

15.

International Standards Organization. Implants for Surgery: Wear of Total Knee-Joint Prostheses. Part 1: Loading and Displacement Parameters for Wear-Testing Machines With Load Control and Corresponding Environmental Conditions for Test. Geneva, Switzerland: International Standards Organization; 2009. ISO 142343-1:2009.

16.

Kim

Bin

Lee

, et al. Nonanatomic horn position increases risk of early graft failures after lateral meniscal allograft transplantation. Am J Sports Med. 2018;46(14):3407-3414.

17.

Kim

Bin

Kim

Lee

CR.

Does lateral meniscal allograft transplantation using the keyhole technique restore the anatomic location of the native lateral meniscus?

Am J Sports Med. 2016;44(7):1744-1752.

18.

Lee

Kang

Kroin

Verma

Cole

BJ.

Allograft meniscus transplantation. Sports Med Arthrosc Rev. 2012;20:106-114.

19.

Lee

Caborn

DN.

A new technique for arthroscopic meniscus transplant using soft tissue fixation and anatomical meniscal root reinsertion. Knee Surg Sports Traumatol Arthrosc. 2012;20(5):904-908.

20.

Liu

Lad

Collins

, et al. In vivo tibial cartilage strains in regions of cartilage-to-cartilage contact and cartilage-to-meniscus contact in response to walking. Am J Sports Med. 2017;45(12):2817-2823.

21.

Lohmander

Englund

Dahl

Roos

EM.

The long-term consequence of anterior cruciate ligament and meniscus injuries: osteoarthritis. Am J Sports Med. 2007;35(10):1756-1769.

22.

MacConaill

MA.

The function of intra-articular fibrocartilages with special reference to the knee and inferior radio-ulnar joints. J Anat. 1932;6:210-227.

23.

Maher

Wang

Koff

Belkin

Potter

Rodeo

SA.

Clinical platform for understanding the relationship between joint contact mechanics and articular cartilage changes after meniscal surgery. J Orthop Res. 2017;35(3):600-611.

24.

Matava

MJ.

Meniscal allograft transplantation: a systematic review. Clin Orthop Relat Res. 2007;455:142-157.

25.

McCann

Ingham

Jin

Fisher

Influence of the meniscus on friction and degradation of cartilage in the natural knee joint. Osteoarthritis Cartilage. 2009;17(8):995-1000.

26.

McDermott

Lie

Edwards

Bull

Amis

AA.

The effects of lateral meniscal allograft transplantation techniques on tibio-femoral contact pressures. Knee Surg Sports Traumatol Arthrosc. 2008;16(6):553-560.

27.

McGuire

Carter

Shelton

WR.

Complex knee reconstruction: osteotomies, ligament reconstruction, transplants, and cartilage treatment options. Arthroscopy. 2002;18(9)(suppl 2):90-103.

28.

Paletta

Jr Manning

Snell

Parker

Bergfeld

The effect of allograft meniscal replacement on intraarticular contact area and pressures in the human knee: a biomechanical study. Am J Sports Med. 1997;25(5):692-698.

29.

Peters

Wirth

CJ.

The current state of meniscal allograft transplantation and replacement. Knee. 2003;10(1):19-31.

30.

Rangger

Klestil

Gloetzer

Kemmler

Benedetto

KP.

Osteoarthritis after arthroscopic partial meniscectomy. Am J Sports Med. 1995;23(2):240-244.

31.

Rodeo

SA.

Meniscal allografts—where do we stand?

Am J Sports Med. 2001;29(2):246-261.

32.

Shelton

Dukes

AD.

Meniscus replacement with bone anchors: a surgical technique. Arthroscopy. 1994;10(3):324-327.

33.

Varady

Grodzinsky

AJ.

Osteoarthritis year in review 2015: mechanics. Osteoarthritis Cartilage. 2016;24(1):27-35.

34.

Walker

Erkman

MJ.

The role of the menisci in force transmission across the knee. Clin Orthop Relat Res. 1975;109:184-192.

35.

Wang

Chen

Gee

, et al. Altered regional loading patterns on articular cartilage following meniscectomy are not fully restored by autograft meniscal transplantation. Osteoarthritis Cartilage. 2015;23(3):462-468.

36.

Wang

Chen

Koff

, et al. Image based weighted center of proximity versus directly measured knee contact location during simulated gait. J Biomech. 2014;47(10):2483-2489.

37.

Wang

Gee

Hutchinson

, et al. Bone plug versus suture-only fixation of meniscal grafts: effect on joint contact mechanics during simulated gait. Am J Sports Med. 2014;42(7):1682-1689.

38.

Woodmass

Johnson

Levy

Stuart

Krych

AJ.

Lateral meniscus allograft transplantation: the bone plug technique. Arthrosc Tech. 2017; 6(4):e1215-e1220.

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