# Lisfranc Injuries: Latest Updates on Diagnostics and Management

**Authors:** Ahmad Hammad, Yasser Ahmad, John Abdelnour

PMC · DOI: 10.1155/tsm2/3933956 · Translational Sports Medicine · 2026-01-07

## TL;DR

This paper reviews the latest diagnostic and treatment strategies for Lisfranc injuries, emphasizing the importance of early detection and proper surgical techniques for better recovery.

## Contribution

The study integrates recent evidence on diagnostics and treatment outcomes, including the use of flexible fixation systems and postoperative performance metrics.

## Key findings

- Weight-bearing radiographs are essential for detecting subtle Lisfranc injuries.
- Residual displacement >2 mm is linked to poor outcomes and reduced return-to-play rates in athletes.
- Flexible fixation constructs like suture button systems show promise in treatment outcomes.

## Abstract

The Lisfranc ligamentous complex is the principal stabilizer of the tarsometatarsal joint and functions as the midfoot keystone. Injuries often follow an axial or rotational load applied to a plantarflexed foot, producing ligamentous disruption or, in severe cases, fracture–dislocation of the tarsometatarsal complex. Up to one‐third of Lisfranc injuries are initially missed, particularly in low‐energy mechanisms or polytrauma settings. Weight‐bearing radiographs are essential for detecting subtle injuries and uncovering diastasis between the medial cuneiform and the second metatarsal. The Myerson classification categorizes injuries based on joint congruity, the direction of displacement, and extent of involvement. The decision to pursue conservative or surgical treatment depends on the Lisfranc ligament stability and displacement. Nonoperative management is appropriate only in nondisplaced injuries; delayed treatment can result in persistent midfoot pain, arch collapse, post‐traumatic arthritis, and diminished function. Surgical techniques include open reduction and internal fixation, primary arthrodesis, bridge plating, suture button fixation, and percutaneous approaches. Lateral column injuries involving the fourth and fifth tarsometatarsal joints are advised to be treated with K‐wire fixation. Anatomic alignment is the strongest predictor of successful recovery and return to activity. Residual displacement > 2 mm is associated with inferior outcomes and significantly reduced return‐to‐play rates, particularly in athletes who can have lasting effects even with successful fixation and may not reach preinjury performance levels. Optimal management is yet to be determined, and inadequate fixation increases poor outcomes, underscoring the importance of early recognition, precise reduction, and appropriate fixation strategy. This study is novel and integrates recent evidence including diagnostic and prognostic utility of weight‐bearing, the clinical outcomes and biomechanics of treatment approaches including flexible fixation constructs such as suture button systems, and postoperative outcomes including gait analysis, return‐to‐play, and athletic performance outcomes.

## Full-text entities

- **Diseases:** midfoot pain (MESH:D010146), diastasis (MESH:D000070631), traumatic arthritis (MESH:D001168), post (MESH:D000094025), polytrauma (MESH:D009104), fracture-dislocation of the tarsometatarsal complex (MESH:D000072039), Lateral column injuries (MESH:C536342), arch collapse (MESH:D001261), displacement (MESH:D006617), Injuries (MESH:D014947), ligamentous disruption (MESH:D019958)

## Full text

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## Figures

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## References

47 references — full list in the complete paper: https://tomesphere.com/paper/PMC12782322/full.md

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Source: https://tomesphere.com/paper/PMC12782322