Persinger J, Hager N, Gabler G, Karikari N, Rossi R, Schroeder J

Non-insertional Achilles Tendinopathy (AT) is a common overuse injury in adults whether athletes or inactive individuals. In the US military, lower extremity issues due to overuse, such as AT, are the most common category of injuries, with the highest occurrence in the Army. The current management of AT is largely conservative, although approximately 25%-29% of patients require surgical intervention. Photobiomodulation Therapy (PBMT) has been shown to decrease inflammation while increasing cell proliferation and metabolism which has been reported to aid in healing and more specifically with tendon repair. Additionally, Extracorporeal shockwave therapy (ESWT or SWT) is a process in which energy is delivered to muscles and tendons for pain relief and improved function. The best available evidence suggests that a combination of ESWT with eccentric exercises and stretching may be even more effective than ESWT. Diagnostic MSK Ultrasound with high frequency linear transducer has become the standard of care in the evaluation of AT, being used as a screening modality, to monitor disease process, and to direct treatment interventions. Additionally, more advanced & complementary ultrasound capabilities, such as elastography (SWE), and microvascular flow (MVF) have been developed to improve diagnostic acumen. The Geneva Foundation (Tacoma, WA) in conjunction with Uniformed Services University of the Health Sciences (USUHS), and the Family Medicine Department at Madigan Army Medical Center (MAMC) is conducting a Randomized Control Trial to evaluate and contrast the effectiveness of standard PT, SWT, vs PBMT in treating non-insertional Achilles tendinopathy. Diagnostic MSK Ultrasound is serving a pivotal role in screening and monitoring the treatment effects and this abstract/presentation will focus on describing this role through discussion of the equipment capabilities and findings as well as the relative changes in echo-architecture with each of the comparative arms.

Diagnostic MSK ultrasound serves a critical role in the screening, diagnosis and monitoring of these Achilles tendinopathy patients. No other imaging modality would permit the level of discrimination of pathology required in this Achilles tendinopathy study. Diagnostic MSK ultrasound with the unique, complimentary upgrades (described above) served to greatly improve overall assessment of the ongoing pathophysiologic changes within the tendon fibers throughout the course of treatment for Achilles tendinopathy. There are various pitfalls and technique optimizations that should be considered when evaluating the Achilles as described above. Accounting for these can greatly enhance the diagnostic acumen of the US Study.