Background Ruptured medial collateral ligaments are capable of healing over time, but biomechanical and biochemical properties remain inferior to normal tissue. Low-intensity ultrasound may improve healing. Hypothesis Medial collateral ligaments treated with ultrasound will demonstrate superior healing. Study Design Controlled laboratory study. Methods Twenty-one late-adolescent male rabbits underwent bilateral ligament transection. One ligament from each rabbit received ultrasound treatment every other day for 6 total treatments. Contralateral ligaments received sham treatments. After 3 or 6 weeks, ligaments were evaluated biomechanically and assayed for collagen concentration and the relative proportions of types I and III collagen. Results Areas of sonicated specimens were significantly larger (10.6% ± 4.90%) at 6 weeks. Ultimate load (39.5% ± 17.0%), ultimate displacement (24.5% ± 8.0%), and energy absorption (69.1% ± 22.0%) were significantly higher for sonicated specimens at 6 weeks. No significant biomechanical differences were observed at 3 weeks. The relative proportion of type I collagen was significantly higher in sonicated ligaments at 3 weeks (8.61% ± 4.0%) and 6 weeks (6.91% ± 3.0%). No significant differences in collagen concentration were observed at either 3 or 6 weeks. Conclusion Subtle improvement with ultrasound treatment may be apparent by 3 weeks after injury, suggested by increased proportion of type I collagen. Ultrasound appears to improve some structural properties and to modestly increase scar cross-sectional area and type I collagen present at 6 weeks after injury in this model. Clinical Relevance Ultrasound treatments after ligament injury may facilitate earlier return to activities and decrease risk of reinjury.
Modification of osteoarthritis in the guinea pig with pulsed low-intensity ultrasound treatment
