Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
4051800 | Clinical Biomechanics | 2007 | 8 Pages |
BackgroundAlthough various tendon repair techniques have been reported to achieve stronger repair, suture failures tend to occur near the knot. We experimentally investigated whether the location of a single core suture knot affects the biomechanical properties of the repair.MethodsTransected bovine tendons (male Japanese black cattle, 24 months old) of the medial gastrocnemius (9–11 × 14–16 mm in diameter) were sutured with the side-locking loop technique using a USP2-sized polyethylene and polyester multifilament suture or polyester multifilament suture. The knot was made using 7 simple square ties (a surgeon’s knot plus 5 ties) at three locations; on the loop, between the tendon stumps, or between the loops burying the knot in a tendon slit using a scalpel. A cyclical loading protocol from 10 N to 100 N was used and the loading was repeated 10,000 times.FindingsThe gap was most decreased and the ultimate strength was most increased when the knot was located between the loops when using a polyethylene and polyester multifilament suture. Cross-sectional area of the tendon showed the ratio of the buried knot relative to the tendon was only 1.6–2.3%, and the polyethylene and polyester multifilament suture was very durable against frictional abrasion.InterpretationWe found that the knot between the loops, buried in the bovine tendon provided the optimum results.