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. 2018 Aug 24;15(4):980-983.
doi: 10.1016/j.jor.2018.08.031. eCollection 2018 Dec.

Loop and knot security of a novel arthroscopic sliding-locking knot using high-strength sutures

Cpt Sally Corey  1 Karl Wenger  2 Cpt Peter Johnson  1 Maj Stephen Parada  1
Affiliations

Loop and knot security of a novel arthroscopic sliding-locking knot using high-strength sutures

Cpt Sally Corey et al. J Orthop. .

Erratum in

Abstract

Objective: We evaluated the loop and knot security of a novel arthroscopic knot, the Wiese knot, using different types of sutures.

Methods: The Wiese knot was tied using four different brands of braided sutures (Ethibond, Orthocord, FiberWire, and UltraBraid) with and without a series of three reversing half-hitches (RHAPs) and tested for loop and knot security.

Results: Orthocord provided the greatest amount of loop security. FiberWire delivered the highest knot security. UltraBraid had the greatest ultimate force. Three half-hitches increased the maximal load to clinical failure.

Conclusion: The biomechanical characteristics of the Wiese knot are affected by suture material qualities.

Keywords: Arthroscopic knots; Biomechanical strength.

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Figures

Fig. 1
Fig. 1
Depiction of tying the Wiese knot. Image reproduced with approval. Parada SA, Shaw KA, Eichinger JK, Boykin NT, Gloystein DM, Ledford CL, Arrington ED, Wiese PT. The Wiese knot: a sliding-locking arthroscopic knot. Arthroscopy Techniques. 2016:e1-4.
Fig. 2
Fig. 2
Set-up for knot testing. A. Instron machine used for testing the biomechanical strength of suture loops. B. The loops were placed so that the knot was half-way between the Instron hooks.
Fig. 3
Fig. 3
Ethibond loop A. Loops are completely intact prior to testing. B. All loop breakage was at the knot after force was applied by the Instron machine.
See this image and copyright information in PMC

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