Abstract

The objective of this study was to quantify the valgus laxity and strain of the elbow ulnar collateral ligament (UCL) complex after repeated valgus stretching and subsequent recovery. Understanding these changes may have important implications in improving strategies for injury prevention and treatment. The hypothesis was that the UCL complex will demonstrate a permanent increase in valgus laxity and region-specific increase in strain as well as region-specific recovery characteristics. Ten cadaveric elbows (7M, 3F, 61.7±2.7years) were used. Valgus angle and strain of the anterior and posterior bands of the anterior bundle and the posterior bundle were measured at 1 Nm, 2.5 Nm, 5 Nm, 7.5 Nm, and 10 Nm of valgus torque at 70° of flexion for: (1) intact UCL, (2) stretched UCL, and (3) rested UCL. To stretch the UCL, elbows were cycled with increasing valgus torque at 70° of flexion (10 Nm-20 Nm in 1 Nm increments) until the valgus angle increased 8° from the intact valgus angle measured at 1Nm. This position was held for 30minutes. Specimens were then unloaded and rested for 2hours. Linear mixed effects model with Tukey's post hoc test was used for statistical analysis. Stretching significantly increased valgus angle compared to the intact condition 3.2°±0.2° (P<.001). Strains of both the anterior and posterior bands of the anterior bundle were significantly increased from intact by 2.8%±0.9% (P=.015) and 3.1%±0.9% (P=.018), respectively at 10 Nm. Strain in the distal segment of the anterior band was significantly higher than the proximal segment with loads of 5 Nm and higher (P<.030). After resting, the valgus angle significantly decreased from the stretched condition by 1.0°±0.1° (P<.001) but failed to recover to intact levels (P<.004). After resting, the posterior band had a significantly increased strain compared to the intact state of 2.6%±1.4% (P=.049) while the anterior band was not significantly different from intact. After repeated valgus loading and subsequent resting, the UCL complex demonstrated permanent stretching with some recovery but not to intact levels. The anterior band demonstrated increased strain in the distal segment compared to the proximal segment with valgus loading. The anterior band was able to recover to strain levels similar to intact after resting, while the posterior band did not.

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