Comparison of an all-inside suture technique with traditional pull-out suture and suture anchor repair techniques for flexor digitorum profundus attachment to bone.
Academic Article
Overview
abstract
PURPOSE: One goal in repairing zone 1 flexor digitorum profundus (FDP) injuries is to create a tendon-bone construct strong enough to allow early rehabilitation while minimizing morbidity. This study compares an all-inside suture repair technique biomechanically with pull-out suture and double-suture anchor repairs. METHODS: Repairs were performed on 30 cadaver fingers. In all-inside suture repairs (n = 8), the FDP tendon was attached to bone with two 3-0 Ethibond sutures and tied over the dorsal aspect of distal phalanx. Pull-out suture repairs (n = 8) were performed with 2-0 Prolene suture and tied over a dorsal button. There were 2 suture anchor repair groups: Arthrex Micro Corkscrew anchors preloaded with 2-0 FiberWire suture (n = 7) and Depuy Micro Mitek anchors preloaded with 3-0 Orthocord suture (n = 7). Repair constructs were tested using a servohydraulic materials testing system and loaded until the repair lost 75% of its strength. RESULTS: There were no statistically significant differences in tensile stiffness, ultimate load, or work to failure between the repairs. Failure mode was suture stretch and gap formation greater than 2 mm at the repair site for all pull-out suture repairs and for 7 of 8 all-inside suture repairs. Two of the Arthrex Micro Corkscrew repairs and 5 of the Depuy Micro Mitek repairs failed by anchor pull-out. CONCLUSIONS: This cadaveric biomechanical study showed no difference in tensile stiffness, ultimate load, and work to failures between an all-inside suture repair technique for zone 1 FDP repairs and previously described pull-out suture and suture anchor repair techniques. The all-inside suture technique also has the advantages of avoiding an external button and the cost of anchors. Therefore, it should be considered as an alternative to other techniques. CLINICAL RELEVANCE: This study introduces a new FDP reattachment technique that avoids some of the shortcomings of current techniques.
