HIGH-RESOLUTION ULTRASOUND TENDON-TO-BONE DISTANCES IN PARTIAL AND COMPLETE FINGER FLEXOR A2 PULLEY RUPTURES SIMULATED IN HUMAN CADAVER DISSECTION: TOWARD UNDERSTANDING IMAGING OF PARTIAL PULLEY RUPTURES
- 1Deusto Physical TherapIker, Physical Therapy Department, Faculty of Health Sciences, University of Deusto, San Sebastián, Spain.
- 2Eskura Osasun Zentroa, Beasain, Spain.
- 3Sputnik Investigación, Madrid, Spain.
- 4Section Sportsorthopedics and Sportsmedicine, Department of Orthopedic and Trauma Surgery, Klinikum Bamberg, Bamberg, Germany.
- 5Department of Trauma Surgery, Friedrich Alexander University of Erlangen-Nuremberg, Erlangen, Germany.
- 6Section of Wilderness Medicine, Department of Emergency Medicine, University of Colorado School of Medicine, Denver, CO, United States.
- 7School of Clinical and Applied Sciences, Leeds Becket University, Leeds, United Kingdom.
- 8Consell Catala de l´Esport, Generalitat de Catalunya, Barcelona, Spain.
- 9Sport Medicine and Imaging Department, Clínica Diagonal, Barcelona, Spain.
- 10Department of Plastic Surgery, Hospital Germans Trias I Pujol, Barcelona, Spain.
- 11Orthopedics Department, Hospital Bidasoa, Irun, Spain.
- 12Anatomy and Embryology Department, School of Medicine, Universitat de Barcelona, Barcelona, Spain.
- 13Department of Anesthesiology, Hospital Clínic de Barcelona, Barcelona, Spain.
- 14Orthopedics Department, Clínica Pakea-Mutualía, San Sebastián, Spain.
Abstract
Introduction: The A2 pulley tear is the most common injury in rock climbing. Whereas complete A2 pulley ruptures have been extensively researched, studies focused on partial A2 pulley ruptures are lacking. A2 pulleys rupture distally to proximally. High-resolution ultrasound imaging is considered the gold-standard tool for diagnosis and the most relevant ultrasound measurement is the tendon-to-bone distance (TBD), which increases when the pulley ruptures. The purpose of this study was to establish tendon-to-bone distance values for different sizes of partial A2 pulley ruptures and compare these values with those of complete ruptures.
Material and methods: The sample consisted of 30 in vitro fingers randomly assigned to 5 groups: G1, no simulated tear (control); G2, simulated 5 mm tear (low-grade partial rupture); G3, simulated 10 mm tear (medium-grade partial rupture); G4, simulated 15 mm tear (high-grade partial rupture); and G5, simulated 20 mm or equivalent tear (complete rupture). A highly experienced sonographer blinded to the randomization process and dissections examined all fingers.
Results: The tendon-to-bone distance measurements (medians and interquartile ranges) were as follows: G1, 0.95 mm (0.77-1.33); G2, 2.11 mm (1.78-2.33); G3, 2.28 mm (1.95-2.42); G4, 3.06 mm (2.79-3.28); and G5, 3.66 mm (3.55-4.76). Significant differences were found between non-torn pulleys and simulated partial and complete pulley ruptures.
Discussion: In contrast, and inconsistent with other findings, no significant differences were found among the different partial rupture groups. In conclusion, the longer the partial pulley rupture, the higher the tendon-to-bone distance value. The literature is inconsistent regarding the tendon-to-bone distance threshold to diagnose a partial A2 pulley rupture. The minimum tendon-to-bone distance value for a partial rupture was 1.6 mm, and tendon-to-bone distance values above 3 mm suggest a high-grade partial pulley rupture (15 mm incision) or a complete pulley rupture.