Suture tapes are widely used in orthopedic procedures, providing superior tissue repair through higher tensile strength than traditional round sutures. Their broad, flat profile makes them especially well-suited for cerclage fixation, distributing pressure over a larger surface area and enhancing overall stability. Cerclage fixation remains a widely utilized technique in orthopedic practice, serving to reinforce structurally compromised tissue through circumferential mechanical support. Suture-based cerclage fixation has emerged as an alternative to traditional metal wires or cables for the management of periprosthetic fractures. However, a key limitation of suture-based cerclage fixation is its limited visibility on standard imaging modalities, which restricts both intraoperative verification and postoperative assessment. This technical report aimed to (1) report the feasibility of incorporating a commercially available iodine-based contrast medium into suture tape to render it radiopaque under fluoroscopy, and (2) assess the impact of this modification on the suture tape's key mechanical properties. Contrast-permeated suture tape was prepared using a standardized protocol to ensure reproducibility, consisting of one-minute immersion in an iodine-containing contrast medium, gentle manual wringing between two fingers to remove excess contrast, and approximately two minutes of air-drying under ambient laboratory conditions prior to testing. Standardized fluoroscopy was performed under identical exposure settings. Radiographic visibility of contrast-permeated (n = 4) and non-contrast-permeated (n = 4) suture tapes was assessed using a cadaveric model simulating an oblique mid-shaft humeral fracture under three applied tension conditions (no tension, 50% of maximum tension, and 75% of maximum tension). Visibility was assessed using a standardized ordinal grading scale. Mechanical properties of the suture tape in both groups (n = 12 per group) were assessed using dynamic creep and ultimate load-to-failure testing. Contrast-permeated suture tape was radiopaque under fluoroscopy across all tension levels, whereas non-contrast-permeated tape remained radiolucent. Dynamic creep displacement was 2.3 ± 0.6 mm for contrast-permeated suture tape and 2.1 ± 0.7 mm for non-contrast tape, with no statistically significant difference (p = 0.46). Ultimate load-to-failure was significantly higher for contrast-permeated tape (737 ± 46 N) compared with non-contrast tape (642 ± 59 N, p < 0.05). One possible explanation for the higher ultimate load-to-failure observed in the contrast-permeated group is that air exposure produced an adhesive effect in the iodine-based contrast medium, increasing inter-strand friction and reducing knot slippage, thereby enhancing ultimate failure strength. In conclusion, iodine-based contrast-permeated suture tape is clinically feasible and enhances fluoroscopic visibility without compromising mechanical performance. It offers a practical alternative to conventional sutures or suture tape constructs where clear intraoperative and postoperative visualization is essential.
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PubMed · 2026-06-01
PubMed · 2026-06-01
PubMed · 2026-06-01
PubMed · 2026-06-01