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Abstract

Background:

Little is known regarding the impact of peroneal tendon tears on function. This study quantifies gait changes associated with operatively-confirmed peroneal tendon tears.

Methods:

Sixty-five patients with unilateral peroneal tendon tears were prospectively evaluated using preoperative 3D multisegment gait analysis of both limbs. Data were analyzed according to pattern/severity of tears, as confirmed surgically: peroneus brevis tears, reparable (PBR); peroneus brevis tears, irreparable (PBI); peroneus longus tears, irreparable (PLI); and concomitant irreparable tears of both tendons (PBI+PLI). The following parameters were analyzed: ankle sagittal motion, coronal motion, axial rotation, foot progression angle, sagittal power, sagittal moment.

Results:

Twelve patients (18.5%) had the PBR pattern, 37 (56.9%) PBI, 10 (15.4%) PLI, and 6 (9.2%) PBI+PLI. Compared with the contralateral, nonpathologic extremities, limbs with peroneal tears had diminished ankle sagittal motion (mean 23.14 vs 24.30 degrees, P = .012), ankle/hindfoot axial rotation (6.26 vs 7.23 degrees, P = .001), sagittal moment (1.16 vs 1.29 Nm/kg, P < .001), and sagittal power (1.24 vs 1.47 W/kg, P < .001). The most severe tear patterns had the greatest derangements in multiple parameters of gait (PBI+PLI > PBI or PLI > PBR). For example, all groups except PBR had loss of ankle sagittal moment and/or power in the affected limb, and the greatest losses in moment and power were in the PBI+PLI group (1.22 vs 0.91 Nm/kg, P = .003 for moment; 0.73 vs 1.31 W/kg, P < .001 for power). The PBI+PLI group had a >10-degree varus shift in coronal motion on the affected side (P = .002).

Conclusion:

This is the first study to demonstrate diminished biomechanical function in patients with peroneal tendon tears. In vivo 3-dimensional gait analysis found significant changes in hindfoot motion, ankle motion, and ankle power. Impairments were related to the pattern and severity of the tears, and demonstrated a strong association of peroneal tendon tears with diminished ankle plantarflexion strength.

Level of Evidence:

Level III, retrospective cohort study.

Keywords

peroneal tendons peroneal tendon tears peroneus brevis peroneus longus peroneal tendon repair peroneal tendon transfer gait analysis

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References

Brodsky

Coleman

Smith

Polo

Tenenbaum

Hindfoot motion following STAR total ankle arthroplasty: a multisegment foot model gait study. Foot Ankle Int. 2013;34(11):1479-1485.

Brodsky

Scott

Ford

Coleman

Daoud

Functional outcomes of total ankle arthroplasty at a mean follow-up of 7.6 years: a prospective, 3-dimensional gait analysis. J Bone Joint Surg Am. 2021;103(6):477-482.

Burkhard

Wirth

Andronic

Viehöfer

Imhoff

Fröhlich

Clinical and functional outcomes of peroneus longus to brevis tendon transfer. Foot Ankle Int. 2021;42(6): c699-705.

Collins

Ghoussayni

Ewins

Kent

JA.

A six degrees-of-freedom marker set for gait analysis: repeatability and comparison with a modified Helen Hayes set. Gait Posture. 2009;30(2):173-180.

Danna

Brodsky

JW.

Diagnosis and operative treatment of peroneal tendon tears. Foot Ankle Orthop. 2020;5(2): 2473011420910407. doi:10.1177/2473011420910407.

Demetracopoulos

Vineyard

Kiesau

Nunley

2nd . Long-term results of debridement and primary repair of peroneal tendon tears. Foot Ankle Int. 2014;35(3):252-257.

Grasset

Mercier

Chaussard

Carpentier

Aldridge

Saragaglia

The surgical treatment of peroneal tendinopathy (excluding subluxations): a series of 17 patients. J Foot Ankle Surg. 2012;51(1):13-19.

Haskell

Mann

. Biomechanics of the foot and ankle. In: Coughlin

Saltzman

Anderson

, eds. Mann’s Surgery of the Foot and Ankle, 9th ed. Philadelphia, PA: Elsevier; 2014:3-36.

Jockel

Brodsky

JW.

Single-stage flexor tendon transfer for the treatment of severe concomitant peroneus longus and brevis tendon tears. Foot Ankle Int. 2013;34(5):666-672.

10.

Kadaba

Ramakrishnan

Wootten

ME.

Measurement of lower extremity kinematics during level walking. J Orthop Res. 1990;8(3):383-392.

11.

Kane

Coleman

Brodsky

JW.

Kinematics and function of total ankle replacements versus normal ankles. Foot Ankle Clin. 2017;22(2):241-249.

12.

Kidder

Abuzzahab

Jr Harris

Johnson

JE.

A system for the analysis of foot and ankle kinematics during gait. IEEE Trans Rehabil Eng. 1996;4(1):25-32.

13.

Kijowski

De Smet

Mukharjee

Magnetic resonance imaging findings in patients with peroneal tendinopathy and peroneal tenosynovitis. Skeletal Radiol. 2007;36(2):105-114.

14.

Krause

Brodsky

JW.

Peroneus brevis tendon tears: pathophysiology, surgical reconstruction, and clinical results. Foot Ankle Int. 1998;19(5):271-279.

15.

Mayich

Novak

Vena

Daniels

Brodsky

JW.

Gait analysis in orthopedic foot and ankle surgery—topical review, part 1: principles and uses of gait analysis. Foot Ankle Int. 2014;35(1):80-90.

16.

Mook

Parekh

Nunley

JA.

Allograft reconstruction of peroneal tendons: operative technique and clinical outcomes. Foot Ankle Int. 2013;34(9):1212-1220.

17.

Myers

Wang

Marks

Harris

GF.

Validation of a multisegment foot and ankle kinematic model for pediatric gait. IEEE Trans Neural Syst Rehabil Eng. 2004;12(1):122-130.

18.

Ness

Long

Marks

Harris

Foot and ankle kinematics in patients with posterior tibial tendon dysfunction. Gait Posture. 2008;27(2):331-339.

19.

Neville

Flemister

Houck

JR.

Deep posterior compartment strength and foot kinematics in subjects with stage II posterior tibial tendon dysfunction. Foot Ankle Int. 2010;31(4):320-328.

20.

Novak

Mayich

Perry

Daniels

Brodsky

JW.

Gait analysis for foot and ankle surgeons—topical review, part 2: approaches to multisegment modeling of the foot. Foot Ankle Int. 2014;35(2):178-191.

21.

Park

Lee

Park

Rho

Chung

Kwag

HJ.

Accuracy of MR findings in characterizing peroneal tendons disorders in comparison with surgery. Acta Radiol. 2012;53(7):795-801.

22.

Redfern

Myerson

The management of concomitant tears of the peroneus longus and brevis tendons. Foot Ankle Int. 2004;25(10):695-707.

23.

Ringleb

Kavros

Kotajarvi

Hansen

Kitaoka

Kaufman

KR.

Changes in gait associated with acute stage II posterior tibial tendon dysfunction. Gait Posture. 2007;25(4):555-564.

24.

Seybold

Campbell

Jeng

Short

Myerson

MS.

Outcome of lateral transfer of the FHL or FDL for concomitant peroneal tendon tears. Foot Ankle Int. 2016; 37(6):576-581.

25.

Sherman

Koury

Orapin

Schon

LC.

Lateral transfer of the flexor digitorum longus for peroneal tendinopathy. Foot Ankle Int. 2019;40(9):1012-1017.

26.

Silver

de la Garza

Rang

The myth of muscle balance. A study of relative strengths and excursions of normal muscles about the foot and ankle. J Bone Joint Surg Br. 1985; 67(3):432-437.

27.

Smith

Coleman

Bacon

Polo

Brodsky

JW.

Improved ankle push-off power following cheilectomy for hallux rigidus: a prospective gait analysis study. Foot Ankle Int. 2012;33(6):457-461.

28.

Steel

DeOrio

JK.

Peroneal tendon tears: return to sports after operative treatment. Foot Ankle Int. 2007;28(1):49-54.

29.

Steginsky

Riley

Lucas

Philbin

Berlet

GC.

Patient-reported outcomes and return to activity after peroneus brevis repair. Foot Ankle Int. 2016;37(2):178-185.

30.

Stockton

Brodsky

JW.

Peroneus longus tears associated with pathology of the os peroneum. Foot Ankle Int. 2014; 35(4):346-352.

31.

Taniguchi

Alejandro

Kane

, et al. Association of cavovarus foot alignment with peroneal tendon tears. Foot Ankle Int. 2021;42(6):750-756.

32.

Tome

Nawoczenski

Flemister

Houck

Comparison of foot kinematics between subjects with posterior tibialis tendon dysfunction and healthy controls. J Orthop Sports Phys Ther. 2006;36(9):635-644.

33.

van Dijk

PAD

Kerkhoffs

Chiodo

DiGiovanni

CW.

Chronic disorders of the peroneal tendons: current concepts review of the literature. J Am Acad Orthop Surg. 2019;27(16): 590-598.

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Preoperative Gait Analysis of Peroneal Tendon Tears

Abstract

Background:

Methods:

Results:

Conclusion:

Level of Evidence:

Keywords

Get full access to this article

References

Supplementary Material