A Systematic Temporal Assessment of Changes in Tendon Stiffness Following Rotator Cuff Repair

Abstract

ObjectivesHow the material properties of the human supraspinatus tendon change following arthroscopic rotator cuff repair is undetermined. Shear wave elastography ultrasound is a relatively new, noninvasive measure of tissue stiffness. We aimed to evaluate any temporal changes in stiffness and/or thickness of supraspinatus tendons in humans following primary arthroscopic rotator cuff repair.MethodsShear wave elastography was performed at three predetermined regions by a single sonographer at 1‐, 6‐, 12‐, 24‐, and 52 weeks postoperatively in 50 consecutive single‐row inverted mattress primary arthroscopic rotator cuff repairs. One‐way ANOVA with Tukey's correction and Spearman's correlation tests was performed.ResultsOf 50 patients, two retore by 1‐week and were excluded. Two patients retore at 6 weeks, two at 12 weeks, and one at 24 weeks. The mean tendon stiffness in 48 patients at the tendon footprint increased by 21% (1.32 m/s) at 6 months (P < .001), with the lateral tendon stiffening before the medial tendon. Tendon thickness decreased by 11% (0.6 mm) at 6 weeks (P = .008), then stabilized to 24 weeks. Tendons that were less elastographically stiff at 1 week were more likely to be thinner at 6‐weeks (r = .38, P = .010).ConclusionsThe data supports the hypothesis that rotator cuff tendons repaired using the single‐row inverted‐mattress technique take 6 weeks to heal to bone. Unlike in other tendons, there was no hypertrophic healing response. Prior to 6 weeks, the tendon may stretch/thin‐out, particularly if its material properties, as assessed by shear wave elastography, are inferior. The material properties of the tendon improved at the tendon insertion site first, then medially out to 12 months post‐repair.