The use of biodegradable sutures for the fixation of tibial eminence fractures in children: a comparison using PDS II, Vicryl and FiberWire.

BACKGROUND: Arthroscopic suture fixation of tibial eminence fractures using FiberWire is a favorable therapeutic option. The application of biodegradable material may be of advantage especially during childhood. The aim of this study was to evaluate the biomechanical properties using the biodegradable suture materials PDS II and Vicryl compared with FiberWire. METHODS: Bone mineral density was evaluated by pqCT in 18 human knee specimens and 3 similar groups were formed. A standardized anterior tibial eminence fracture was created and suture fixation was performed using each suture material (PDS II, Vicryl, FiberWire) in 6 specimens. Cyclic testing and destructive loading to failure was conducted. RESULTS: Both testing modalities showed PDS II to be inferior to the other evaluated suture materials. Although significantly higher failure loads were seen with FiberWire sutures, Vicryl yielded comparable stiffness in load-to-failure testing. No significant differences between Vicryl and FiberWire could be observed under nondestructive cyclic conditions. CONCLUSIONS: Even though FiberWire yields a superior ultimate failure load, Vicryl presented comparable results under cyclic conditions. CLINICAL RELEVANCE: For tibial eminence fractures in children, Vicryl should be considered as an alternative biodegradable suture material. The use of PDS II cannot be advocated.

Biomechanical stability of different suture fixation techniques for tibial eminence fractures.

PURPOSE: Displaced tibial eminence fractures require surgical fixation in order to obtain a stable knee joint. Suture fixation with FiberWire(®) seems to be the most favorable therapeutic option. Biomechanical studies show failure of this technique most commonly due to a suture cutout with subsequent fracture of the tibial eminence fragment. The goal of this study is to compare the biomechanical properties of three different techniques of suture fixation using FiberWire(®). METHODS: Bone mineral density was evaluated in 18 human knee specimens by pqCT, and three similar groups were formed. A standardized anterior tibial eminence fracture was created, and suture fixation was performed using one of three different techniques in 6 specimens each. Cyclic and destructive testing was conducted. RESULTS: Significant differences between the three techniques could be shown neither in the cycles needed to achieve a steady state nor in a failure load or initial stiffness. Almost all specimens failed by suture cutout. CONCLUSION: The presented modification of the existing technique for suture fixation of tibial eminence fractures did not lead to an increased initial stability nor did it lower the rate of suture cutout. All tested suture techniques showed comparable initial stiffness and failure load.