Review of human supraspinatus tendon mechanics. Part II: tendon healing response and characterization of tendon health

• Published in: Journal of shoulder and elbow surgery Vol. 31; no. 12; pp. 2678 - 2682
• Main Authors: Griffith, Kyle M., Hammer, Liisa Charie, Iannuzzi, Nicholas P., Takatani, Karen C., Hsu, Jason Edward, Cotton, James D., Gee, Albert O., Gardner, Richard J., Lack, William D.
• Format: Journal Article
• Language: English
• Published: Elsevier Inc 01.12.2022
• Subjects: cyclic fatigue; Supraspinatus; tendinopathy; tendon healing; tendon ultrasound; cyclic fatigue; tendon ultrasound; tendon healing; Supraspinatus; tendinopathy
• ISSN: 1058-2746; 1532-6500
• DOI: 10.1016/j.jse.2022.05.030

Overuse injuries of the rotator cuff, particularly of the supraspinatus tendon (SST), are highly prevalent and debilitating in work, sport, and daily activities. Despite the clinical significance of these injuries, there remains a large degree of uncertainty regarding the pathophysiology of injury, optimal methods of nonoperative and operative repair, and how to adequately assess tendon injury and healing. The tendon response to fatigue damage resulting from overuse is different from that of acute rupture and results in either an adaptive (healing) or a maladaptive (degenerative) response. Factors associated with the degenerative response include increasing age, smoking, hypercholesterolemia, biological sex (variable by tendon), diabetes mellitus, and excessive load post fatigue damage. After injury, the average healing rate of tendon is approximately 1% per day and may be significantly influenced by biologic sex (females have lower collagen synthesis rates) and excessive load after damage. Although magnetic resonance imaging (MRI) is considered the gold standard in assessing acute tears as well as tendinopathic change in the SST, ultrasonography has proven to be a valuable tool to measure tendinopathic change in real time. Ultrasonography can determine multiple mechanical and structural parameters of the SST that are altered in fatigue loading. Thus, ultrasonography may be utilized to understand how these parameters change in response to SST overuse, and may aid in determining the activity level that places the SST at greater risk of rupture.