Biomechanical comparison of tendon repair techniques: Bunnell suture leads in mode of failure and minimally invasive configuration in elongation

Biomechanical comparison of tendon repair techniques: Bunnell suture leads in mode of failure and minimally invasive configuration in elongation

Abstract Purpose In this experimental study, the Minimally Invasive Configuration (MIC), the Bunnell, Kessler and modified Bunnell–Kessler techniques for tendon rupture repair were compared in terms of the following biomechanical parameters: maximum load, mode of failure, failure elongation, tension...

Full description

Saved in:
Bibliographic Details
Main Authors: Umile Giuseppe Longo, Stefano Campi, Martina Marino, Margaux D'Hooghe, Maristella Saccomanno, Kristian Samuelsson, Francisco Forriol, Vincenzo Denaro
Format: Article
Language:English
Published: Wiley 2025-04-01
Series:Journal of Experimental Orthopaedics
Subjects:
Bunnel suture
Kessler suture
minimally invasive suture configuration
percutaneous tendon repair
Online Access:https://doi.org/10.1002/jeo2.70236
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Abstract Purpose In this experimental study, the Minimally Invasive Configuration (MIC), the Bunnell, Kessler and modified Bunnell–Kessler techniques for tendon rupture repair were compared in terms of the following biomechanical parameters: maximum load, mode of failure, failure elongation, tension/construct elongation and stiffness (Young's modulus). The scope of comparison involves understanding the properties of each suture technique in hopes of eventually contributing to surgical decision‐making. Methods Thirty‐two frozen ovine specimens were obtained, and transverse tenotomy was performed on each. Eight tendons were randomly allocated to each technique. Specimens were tested performing a unidirectional tensile load to failure using a servo‐hydraulic testing device. The tendons were also loaded to failure at a rate of 10 mm/s. The total length of the construct was defined as the distance from the two clamps. Stiffness was calculated by determining the slope of the force–displacement curve in the linear region. Total failure was defined as a drop of measured force or rupture of the tendon–suture complex. Results In the mode of failure, Tukey's post hoc test showed a statistically significant difference between the Bunnell group and the other three groups (p < 0.05). For Tension/construct elongation at 5 and 10 mm, Tukey's post hoc test showed a statistically significant difference between the MIC group and the other three groups (p < 0.05). At 15 mm Tukey's post hoc test showed a statistically significant difference between the MIC group and the Kessler group (p < 0.05). Conclusion The Bunnell suture performed best in terms of mode of failure, while the MIC suture technique outperformed the rest in terms of tension/construct elongation. Findings show sufficient biomechanical evidence to support the ongoing clinical application of all techniques. Level of Evidence Level V.
ISSN:2197-1153

Similar Items