Optimal Tightrope Positioning for Adequate Syndesmotic Stabilization in Simulated Syndesmotic Injuries. Foot Ankle Orthop 2025 Apr;10(2):24730114251342243
Date
06/24/2025Pubmed ID
40547897Pubmed Central ID
PMC12179484DOI
10.1177/24730114251342243Scopus ID
2-s2.0-105010859520 (requires institutional sign-in at Scopus site)Abstract
BACKGROUND: Use of syndesmotic suture button fixation has gained in popularity for treating an injury to the tibiofibular syndesmosis. This biomechanical study used a cadaveric model to simulate in vivo loading conditions to assess the impact of the placement of a syndesmotic stabilization construct using a suture button device.
METHODS: Biomechanical fixation stability with suture button device (TightRope; Arthrex, Naples, FL) placed at 4 distances from the tibiotalar joint line (0.5, 1.5, 2.5, and 3.5 cm) and 3 trajectories (anterior, medial, and posterior) were studied using cadaveric lower extremities with created syndesmotic injuries. Nondestructive testing was conducted on a biaxial servo-hydraulic load frame. The load application consisted of 2 portions: (1) axial compression simulating weightbearing and (2) external rotation of the ankle (up to 12 degrees and under 7.5 Nm) around the long axis of the tibia combined with weightbearing. Fibular motion and syndesmotic widening were tracked using motion analysis to quantify stability.
RESULTS: Fixation placed at 0.5 or 1.5 cm from the joint line in medial or posterior trajectories resulted in the lowest increases in fibular rotation under loading. More proximal or anterior placements led to increased fibular motion and decreased rotational stability. Ankle width changes were minimal in most groups, although slightly increased widening occurred at proximal and anterior placements.
CONCLUSION: Placement of the syndesmotic suture button fixation 0.5-1.5 cm of the joint line in medial or posterior orientations provides the most rotationally stable fixation in a cadaveric model. These findings support flexibility in syndesmotic suture button fixation positioning when hardware constraints limit ideal placement.
Author List
Goss MA, Burton AT, Kraus JC, McGrady LM, Wang MAuthors
Alex Burton MD Assistant Professor in the Orthopaedic Surgery department at Medical College of WisconsinJonathan C. Kraus MD Associate Professor in the Orthopaedic Surgery department at Medical College of Wisconsin
Mei Wang PhD Associate Professor in the Orthopaedic Surgery department at Medical College of Wisconsin
