# Incidence, Impact, and Complications of Short Cephalomedullary Nail Toggling in Patients with Wide Femoral Medullary Canal

**Authors:** Ahmed Nageeb Mahmoud, Maria F. Echeverry-Martinez, Catherine Mary Doyle, Juan David Bernate, Michael Suk, Daniel Scott Horwitz

PMC · DOI: 10.3390/jcm14113961 · 2025-06-04

## TL;DR

This study finds that short cephalomedullary nails can shift in patients with wide femoral canals, leading to potential complications like varus malunion.

## Contribution

The study identifies the incidence and causes of nail toggling in wide femoral canals and suggests alternative nail lengths to mitigate complications.

## Key findings

- 15.8% of cases with wide femoral canals experienced significant nail toggling and varus displacement.
- Deficient proximal nail fixation, such as lag device disengagement or lateral wall fractures, was linked to toggling.
- Using long or intermediate nails may be better for patients with wide canals or cortical fractures.

## Abstract

Background: Toggling of the short cephalomedullary nail is an understudied phenomenon characterized by a change in the longitudinal axis of the nail in relation to the longitudinal axis of the femoral medullary canal, with subsequent potential loss of reduction. This retrospective study aims to examine the incidence and impact of toggling of short cephalomedullary nails in cases with wide femoral canals. Methods: One thousand two hundred fifty-six (1256) cases that received short proximal femoral nails for intertrochanteric fractures were reviewed. Of them, 101 cases that had wide femoral canals (≥15 mm) and a minimum radiographic follow-up of 6 weeks were included in this study. Outcome measures included nail toggling, varus malunion and revision surgery. Results: After a mean radiographic follow-up of 53.5 weeks, sixteen cases (15.8%) showed significant nail toggling of more than 4 degrees and had subsequent varus displacement of the fracture. In all 16 cases, there was deficient proximal nail fixation, in the form of either a lag device not engaging the lateral wall (2 cases), lateral proximal femoral wall fracture/incompetency (7 cases), or a combination of the two factors (7 cases). Despite this, all sixteen cases achieved fracture union. Five additional cases had complications related to poor initial reduction (four cases) or femoral head avascular necrosis (one case). The other 80 cases had minimal (0–4 degrees) nail toggling and healed without varus malunion, and none of them required revision surgery. Conclusions: Short cephalomedullary nails may toggle in patients with wide femoral canals. The effect of femoral canal width on nail movement and subsequent varus malunion may be abolished when the lag device engages the lateral proximal femoral cortex, and the lateral cortical bone is intact. In patients with wide femoral medullary canals or cases with proximal lateral femoral cortical fracture, the utilization of long or intermediate length cephalomedullary nails may be a more viable option.

## Full-text entities

- **Diseases:** incompetency (MESH:D001022), varus malunion (MESH:D017759), varus displacement (MESH:D006617), avascular necrosis (MESH:D010020), fracture (MESH:D050723), cortical fracture (MESH:D054220), intertrochanteric fractures (MESH:D006620)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12155900/full.md

---
Source: https://tomesphere.com/paper/PMC12155900