Abstract
BackgroundChanges to the integrity of the acromioclavicular (AC) joint impact scapulothoracic and clavicular kinematics. AC ligaments provide anterior-posterior stability, while the coracoclavicular (CC) ligaments provide superior-inferior stability and a restraint to scapular internal rotation. The purpose of this cadaveric study was to describe the effect of sequential AC and CC sectioning on glenohumeral (GH) kinematics during abduction (ABD) of the arm. We hypothesized that complete AC ligament insult would result in altered GH translation in the anterior-posterior plane during abduction, while subsequent sectioning of both CC ligaments would result in an increasing inferior shift in GH translation.MethodsSix cadaveric shoulders were studied to evaluate the impact of sequential sectioning of AC and CC ligaments on GH kinematics throughout an abduction motion in the coronal plane. Following an examination of the baseline, uninjured kinematics, the AC ligaments were then sectioned sequentially: (1) Anterior, (2) Inferior, (3) Posterior, and (4) Superior. Continued sectioning of CC ligamentous structures followed: the (5) trapezoid and then the (6) conoid ligaments. For each group, the GH translation and the area under the curve (AUC) were measured during abduction using an intact cadaveric shoulder. Total translation was calculated for each condition between ABD 30° and ABD 150° using the distance formula, and a univariate analysis was used to compare total translation for each axis during the different conditions.ResultsGH kinematics were not altered following sequential resection of the AC ligaments. Disruption of the trapezoid resulted in significant anterior and lateral displacement of the center of GH rotation. Sectioning the conoid ligament further increased the inferior shift in GH displacement.ConclusionA combined injury of the AC and CC ligaments significantly alters GH kinematics during abduction. Type III AC separations, result in a significant change in the shoulder’s motion and may warrant surgical reconstruction to restore normal function.
Highlights
Changes to the integrity of the acromioclavicular (AC) joint impact scapulothoracic and clavicular kinematics
The quantitative contributions of the AC and CC ligaments toward GH kinematics during abduction, are poorly understood/ No cadaveric study has investigated this phenomenon to date
Simulation of abduction and implementation of sequential sectioning of AC and CC ligaments During testing, the arm was abducted from 30° (ABD 30) to 150° (ABD 150) at a constant speed in the coronal
Summary
Changes to the integrity of the acromioclavicular (AC) joint impact scapulothoracic and clavicular kinematics. AC ligaments provide anterior-posterior stability, while the coracoclavicular (CC) ligaments provide superior-inferior stability and a restraint to scapular internal rotation. The purpose of this cadaveric study was to describe the effect of sequential AC and CC sectioning on glenohumeral (GH) kinematics during abduction (ABD) of the arm. Changes to the integrity of the AC joint impact the shoulder’s function [3,4,5] since they alter both scapulothroacic and glenohumeral (GH) kinematics [1, 6, 7]. The complex relationships that govern the kinematics of the shoulder have been rigorously characterized through sequential sectioning of the AC and CC ligaments in cadaveric studies [13, 14]. The quantitative contributions of the AC and CC ligaments toward GH kinematics during abduction, are poorly understood/ No cadaveric study has investigated this phenomenon to date
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