# Incidence of Midfoot Instability Associated With Medial Malleolus Fractures: A Retrospective Cohort Study

**Authors:** Zain Al Abdeen Al Zuabi, Eva R Gil Monzó, Velayudhan b Kiliyanpilakkil, Musammad r Begum, Bianca d Chua, Hesham m Youssef, Wai Wai w Mar, Mohamed H Gad, Natalie b Marzouqa, Chandra S Pasapula

PMC · DOI: 10.7759/cureus.102100 · 2026-01-22

## TL;DR

This study finds that medial malleolus fractures are linked to increased midfoot instability, especially in rotational ankle injuries.

## Contribution

The study quantifies midfoot instability associated with medial malleolus fractures and identifies injury mechanisms contributing to instability.

## Key findings

- Injured ankles showed increased midfoot laxity and first ray instability compared to uninjured ones in rotational fractures.
- Non-rotational fractures showed trends in instability but without statistical significance.
- Medial malleolus displacement was not a predictor of talonavicular laxity.

## Abstract

Background: The incidence of secondary medial arch instability (talonavicular and first ray instability) associated with medial malleolus fractures has not been totally quantified, and to date, its contribution to poor foot function is unknown.

Methods: Twenty-five patients with various mechanisms of ankle injuries associated with medial malleolus fractures who underwent surgical treatment were assessed for patient demographics, mechanism of injury, type of fracture and quantity of medial malleolus displacement in X-rays prior to surgery, type of fixation, and level of midfoot instability, assessed by determining and quantifying talonavicular laxity and first ray instability.

Results: In rotational ankle fractures with the medial malleolus involved, increased midfoot laxity and first ray instability were present in injured ankles compared to the uninjured (p<0.05). In non-rotational ankle fractures (supination adduction/supination plantar flexion), affected feet also had a mean increase in lateral translation scores and first ray instability scores but without statistical significance (p>0.05). There was no significant difference in the spring ligament thickness between injured and uninjured feet (p>0.05), and the displacement of the medial malleolus was not a predictor for the development of increased talonavicular laxity (p>0.05).

Conclusion: Ankle fractures with medial malleolus fractures have a significantly higher incidence of medial arch instability. Rotational ankle injuries, arising from supination external rotation and pronation injuries, can significantly affect medial arch stability. We advocate that surgical restoration of superficial deltoid-spring/capsular-ligamentous integrity and/or early post-operative orthotics after medial malleolar fractures may protect the first ray destabilization and preserve future foot function.

## Full-text entities

- **Diseases:** deltoid injury (MESH:D014947), fractures (MESH:D050723), dysfunction of the superficial deltoid (MESH:D006259), DL rupture (MESH:D012421), deep deltoid insufficiency (MESH:D000309), ligament injury (MESH:D000070598), talar head subluxation (MESH:D006258), TN (MESH:C536895), Rotational ankle injuries (MESH:D016512), DSL (MESH:C566781), function (MESH:D003291), foot supination (MESH:D020425), Hansen fractures (MESH:D007918), Lateral hallux (MESH:D050488), flatfoot (MESH:D005413), poor (MESH:D009123), DL laxity (MESH:C536012), pronation injuries (MESH:C566757), avulsion fracture (MESH:D000071562), Rotational injuries (MESH:D000070636), abduction laxity (MESH:D007593), retromalleolar tenderness (MESH:D063806), Dysfunction of the (MESH:D006331), Medial Malleolus Fractures (MESH:D064386), deep (MESH:D057887), 1 first ray instability (MESH:D043171), foot dysfunction (MESH:D005534), medial (MESH:D020423), valgus angulation (MESH:D060906), DL (MESH:D000082122)
- **Chemicals:** SER (MESH:D012694)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

2 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12924719/full.md

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Source: https://tomesphere.com/paper/PMC12924719