Peroneus Brevis to Longus Tendon Transfer in the Treatment of Flexible Progressive Collapsing Foot Deformity: A Cadaveric Study

Author:

Conti Matthew S.1ORCID,Kim Jaeyoung1ORCID,Hoffman Jeffrey2,Jones Carroll P.3,Ellis Scott J.1ORCID,Deland Jonathan T.1,Steineman Brett2ORCID

Affiliation:

1. Foot and Ankle Service, Hospital for Special Surgery, New York, NY, USA

2. Biomechanics, Hospital for Special Surgery, New York, NY, USA

3. OrthoCarolina Foot & Ankle Institute, Charlotte, NC, USA

Abstract

Background: Although operative treatment of the flexible progressive collapsing foot deformity (PCFD) remains controversial, correction of residual forefoot varus and stabilization of the medial column are important components of reconstruction. A peroneus brevis (PB) to peroneus longus (PL) tendon transfer has been proposed to address these deformities. The aim of our study was to determine the effect of an isolated PB-to-PL transfer on medial column kinematics and plantar pressures in a simulated PCFD (sPCFD) cadaveric model. Methods: The stance phase of level walking was simulated in 10 midtibia cadaveric specimens using a validated 6–degree of freedom robot. Bone motions and plantar pressure were collected in 3 conditions: intact, sPCFD, and after PB-to-PL transfer. The PB-to-PL transfer was performed by transecting the PB and advancing the proximal stump 1 cm into the PL. Outcome measures included the change in joint rotation of the talonavicular, first naviculocuneiform, and first tarsometatarsal joints between conditions. Plantar pressure outcome measures included the maximum force, peak pressure under the first metatarsal, and the lateral-to-medial forefoot average pressure ratio. Results: Compared to the sPCFD condition, the PB-to-PL transfer resulted in significant increases in talonavicular plantarflexion and adduction of 68% and 72%, respectively, during simulated late stance phase. Talonavicular eversion also decreased in simulated late stance by 53%. Relative to the sPCFD condition, the PB-to-PL transfer also resulted in a 17% increase ( P = .045) in maximum force and a 45-kPa increase ( P = .038) in peak pressure under the first metatarsal, along with a medial shift in forefoot pressure. Conclusion: The results from this cadaver-based simulation suggest that the addition of a PB-to-PL transfer as part of the surgical management of the flexible PCFD may aid in correction of deformity and increase the plantarflexion force under the first metatarsal. Clinical Relevance: This study provides biomechanical evidence to support the addition of a PB-to-PL tendon transfer in the surgical treatment of flexible PCFD.

Publisher

SAGE Publications

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