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Abstract

Background

Distal biceps tendon repair with interference screw or double suture-anchor fixation are 2 successful techniques performed with either 1- or 2-incision approaches. No study has examined the accuracy and quality of the repaired tendon footprint with these devices and approaches.

Hypothesis

A 2-incision approach will allow a more anatomic repair of the distal biceps footprint compared with a 1-incision anterior approach. Fixation technique will affect insertional footprint location and footprint contact area.

Study Design

Controlled laboratory study.

Methods

After randomization, 36 distal biceps repairs were performed on human cadaveric upper extremity specimens, with 1- or 2-incision approaches and with fixation devices of either two 5.5-mm suture anchors or an 8-mm interference screw. Native and repaired footprint areas and centroid location were calculated with a 3-dimensional digitizer.

Results

Interference screw repair had the smallest footprint area (135 mm²) compared with suture anchor repair (197 mm²) and the native tendon (259 mm²) (P = .013). The 2-incision approach repaired the footprint to a more posterior and anatomic position (2.5 mm) than a 1-incision approach (P = .001). The fixation device did not affect footprint location significantly.

Conclusion

Suture anchor repair more closely re-creates the footprint area on the radial tuberosity of the native distal biceps tendon compared with the interference screw repair. A 2-incision approach more closely re-creates footprint position compared with the 1-incision approach.

Clinical Relevance

A 2-incision approach with double suture-anchor fixation may yield a more anatomic distal biceps repair based on reproduction of the footprint compared with a 1-incision approach.

Keywords

distal biceps footprint repair interference screw suture anchor

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Distal Biceps Tendon Repair