Biomechanical investigation of the stabilization principle of the Latarjet procedure

Purpose The purpose of the study was to determine the biomechanical status of the different components of the Latarjet procedure. The anterior capsule reconstruction with the transferred coracoacromial ligament (CAL) and the necessity of an intact subscapularis tendon were of particular interest. We...

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Bibliographic Details
Published in:Archives of orthopaedic and trauma surgery 2012-03, Vol.132 (3), p.377-386
Main Authors: Wellmann, M., de Ferrari, H., Smith, T., Petersen, W., Siebert, C. H., Agneskirchner, J. D., Hurschler, C.
Format: Article
Language:English
Subjects:
Aged
Arthroscopy and Sports Medicine
Biomechanical Phenomena
Biomechanics
Dissection
Humans
In Vitro Techniques
Joint Instability - physiopathology
Joint Instability - surgery
Medicine
Medicine & Public Health
Orthopedic Procedures - methods
Orthopedics
Shoulder Joint - anatomy & histology
Shoulder Joint - physiopathology
Shoulder Joint - surgery
Tendons
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Summary:Purpose The purpose of the study was to determine the biomechanical status of the different components of the Latarjet procedure. The anterior capsule reconstruction with the transferred coracoacromial ligament (CAL) and the necessity of an intact subscapularis tendon were of particular interest. We hypothesized that the anterior capsule reconstruction will have a significant effect and that the Latarjet procedure will lose its stabilizing effect if the subscapularis tendon is torn. Methods Stability testing of 12 human shoulder specimens was performed. After testing of the intact joint, a combined anterior glenoid and capsule defect was set arthroscopically. Then the Latarjet procedure was performed using an open approach and tested with and without loading of the conjoint tendons (10 N). Afterwards, the specimens were distributed into two groups and the Latarjet technique was reduced stepwise: dissection of the CAL, dissection of the conjoint tendons (group A); reduction of the coracoid segment, dissection of the subscapularis tendon (group B). Biomechanical testing was performed for each condition in two positions: 60° of glenohumeral abduction with neutral rotation and with 60° of external rotation; each with a passive humerus load of 30 N in the anterior, inferior and anteroinferior direction. Results The Latarjet technique with load applied to the conjoint tendons significantly reduced translation compared with the defect condition for all tested positions in all directions. In group A, the CAL-dissection led to a significant increase of anterior translation (+5.0 mm, p  = 0.003) and inferior translation (+7.3 mm, p  = 0.025) in neutral rotation and of anterior translation in 60° of external rotation (+4.4 mm, p  = 0.034). In group B, the reduction of the coracoid bone down to the coracoid tip resulted in a significant increase of only the anterior translation in abduction and 60° of external rotation (+4.5 mm, p  = 0.05). In contrast, the detachment of the subscapularis tendon led to a significant increase of translation in all testing positions except the inferior direction in the neutral rotation. Conclusions We found the anterior capsule reconstruction to represent a significant contribution to the stabilizing effect of the Latarjet procedure, whereas a deficiency of the subscapularis tendon eliminates its effect. Clinical relevance We recommend to perform the Latarjet technique with an anterior capsule reconstruction (e.g. CAL transfer) and with
ISSN:0936-8051
1434-3916
DOI:10.1007/s00402-011-1425-z