Purpose: To identify structures at risk during proximal adductor longus repair and to report observed distances between these structures and the adductor longus (AL) footprint.
Methods: Eight hemipelves from fresh cadaver whole-body specimens were dissected using a previously established surgical approach. The tendinous attachment of the AL was scored into the underlying bone and the footprint size was measured in millimeters. A guidewire was placed at the footprint center along the longitudinal axis of the resected AL muscle. Utilizing a digital caliper, the proximity of key anatomic structures was measured as the radial distance from the guidewire and distance distal to the footprint along the guidewire axis.
Results: The AL footprint was on average 16.95 ± 3.02 mm wide by 9.36 ± 1.66 mm high. The ilioinguinal nerve was 27.10 ± 7.25 mm distal to the AL footprint and 31.75 ± 7.51 mm medial, with a resulting mean surface area of 158.12 ± 39.90 (110.9-230.2). mm2 The genital branch of the genitofemoral nerve was found 7.79 ± 4.05 mm proximal and 15.37 ± 4.54 mm medial. The round ligament (n = 6) was 14.00 ± 2.75 mm and the spermatic cord (n = 2) was 13.57 ± 3.02 mm directly superficial to the AL footprint. The obturator nerve was 63.98 ± 4.57 mm distal as it crossed the adductor brevis muscle laterally. The location of the external pudendal artery was variable but was found to have a mean distance of 37.01 ± 17.97 mm distal and immediately deep to the AL.
Conclusions: When repairing AL tendon injuries, the genitofemoral nerve is the structure anatomically nearest the footprint of the tendon, and this structure is most at risk for iatrogenic injury.
Clinical relevance: This study investigates the structures at risk during AL repair and seeks to define their location relative to the footprint. These findings will assist surgeons in identifying the crucial anatomic structures at risk to safely perform an anatomic repair of the tendon and avoid iatrogenic complications.
© 2024 Published by Elsevier Inc. on behalf of the Arthroscopy Association of North America.