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<div class="editorbox">'''   [[Category:Shoulder]] [[Category:Musculoskeletal/Orthopaedics]] [[Category:Temple_Student_Project]]Original Editor '''- [[User:Haley Stevenson|Haley Stevenson]] and [[User:Sherin Mathew|Sherin Mathew]] as part of the [[Temple University Evidence-Based Practice Project|Temple University EBP Project]]  
<div class="editorbox">'''Original Editor '''- [[User:Haley Stevenson|Haley Stevenson]] and [[User:Sherin Mathew|Sherin Mathew]] as part of the [[Temple University Evidence-Based Practice Project|Temple University EBP Project]]  
 
'''Top Contributors''' - {{Special:Contributors/{{FULLPAGENAME}}}} &nbsp;  
'''Top Contributors''' - {{Special:Contributors/{{FULLPAGENAME}}}} &nbsp;  
</div>  
</div>  
== Clinically Relevant Anatomy<br> ==
== Introduction ==
[[File:Anterior-shoulder-dislocation-1.jpeg|thumb|Anterior-shoulder-dislocation|alt=|331x331px]]
Shoulder dislocation (correctly termed a [[Glenohumeral Joint|glenohumeral joint]] dislocation) involves separation of the [[humerus]] from the [[Glenoid Labrum|glenoid]] of the [[scapula]] at the glenohumeral joint. The shoulder is inherently unstable joint due to the shallow glenoid articulating with a small part of the humeral head. <ref name=":1">Abrams R, Akbarnia H. [https://www.ncbi.nlm.nih.gov/books/NBK459125/ Shoulder dislocations overview.] InStatPearls [Internet] 2021 Aug 13. StatPearls Publishing.Available:https://www.ncbi.nlm.nih.gov/books/NBK459125/ (accessed 8.1.2023)</ref>


The shoulder is a synovial joint composed of three bones: humerus, scapula, and clavicle. Overall, stability is achieved through the static and dynamic restraints. Normally the head of the humerus remains centered in the glenoid fossa. This allows for the joint surfaces to align congruently with one another. In addition, the glenohumeral joint reaction force is contained within the glenoid arc (Figure 1). However, in the case of shoulder dislocation, there is a disruption in the net glenohumeral joint reaction force (Figure 2). This causes the humeral head to fall outside the glenoid arc (Figure 3).
* This type of dislocation represent 50 percent of all major joint dislocations being the most regularly dislocated joint in the body.  
* The shoulder can dislocate in an anterior (95% of shoulder dislocations), posterior, inferior direction and completely or partially.
* Fibrous tissue joining the bones is often stretched or torn, complicating a dislocation.<ref name=":1" /><ref name=":2">Radiopedia [https://radiopaedia.org/articles/shoulder-dislocation Shoulder Dislocation] Available:https://radiopaedia.org/articles/shoulder-dislocation (accessed 8.1.2023)</ref>


<br>The static restraints consist of joint conformity, adhesion/cohesion, finite joint volume, and ligamentous stability including the labrum. The inferior glenohumeral ligament (IGHL) is the primary ligmentous restraint to anterior glenohumeral translation, specifically with the arm abducted and externally rotated.<sup><ref name="Wang">Wang RY, Arciero RA, and Mazzocca AD. The recognition and treatment of first-time shoulder dislocation in active individuals. JOSPT. 2009;39(2):118-123</ref></sup> As a result of this anterior translation, the anterior inferior labrum and capsule can detach. This is known as a Bankart lesion.The dynamic restraints are composed primarily of the rotator cuff muscles, but also include the scapular stabilizer musculature and the biceps.<sup><ref name="Wang" /></sup>  
== Etiology ==
The shoulder joint dislocates more frequently than any other joint in the body. A dislocation can become worse by strained or torn fibrous tissue which connects the bones. The bones can only be pulled out of position by a powerful force, such as a blow to the shoulder. Extreme rotation can cause the humeral head to come out of the glenoid labrum. Contact [[Sport Injury Classification|sports injuries]] are a common cause a dislocated shoulder as are motor trauma and [[falls]].<ref name=":1" />Trauma from motor vehicle accidents and falls can lead to shoulder dislocation. <ref name=":4">Abrams R, Akbarnia H. [https://www.ncbi.nlm.nih.gov/books/NBK459125/ Shoulder dislocations overview.] InStatPearls [Internet] 2022 Aug 8. StatPearls Publishing.</ref>


[[Image:Picture 3.png|thumb|right|Picture 3.png]]
== Epidemiology ==
Shoulder joint dislocations are the most common dislocations of all major joint dislocations. The dislocation may occur anteriorly, posteriorly, inferiorly, or anterior-superiorly. Shoulder dislocations can be Anterior and Posterior dislocations. However, Anterior dislocations are the most common. It represent 95% of shoulder dislocation.<ref name=":2" /><ref name=":4" />


<br>
Risk factors for re-dislocation:


[[Image:Balanced GH net force.png|thumb|left|Balanced GH net force.png]]&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; [[Image:Picture 2.png|thumb|center|Picture 2.png]]
* Prior dislocation with poor tissue healing or soft issue laxity
* Younger patients have a much higher frequency of re-dislocation as they are more active<ref>Abrams R, Akbarnia H. Shoulder dislocations overview. InStatPearls [Internet] 2022 Aug 8. StatPearls Publishing.</ref>
* Patients with torn rotator cuffs or fracture of the glenoid have a higher incidence of re-dislocation.<ref name=":1" />&nbsp;
== Mechanism of Injury / Pathological Process  ==
Strong forces or extreme rotation can cause the humeral head to come out of the glenoid labrum. Contact sports injuries are a common cause a dislocated shoulder as are motor trauma and falls.<ref name=":1" />
[[File:Shoulder dislocation, anteroposterior after reduction, with Bankart and Hill-Sachs lesions, with labels.jpeg|thumb|373x373px|Post reduction, both Bankart and Hill-Sachs lesions]]
'''<u>Anterior Shoulder Dislocation</u>'''<u><br></u>An anterior dislocation is the most common dislocation and is caused by the arm being positioned in an excessive amount of abduction and external rotation. In this position, the inferior glenohumeral complex serves as the primary restraint to anterior glenohumeral translation.<ref name="Boone">Boone JL, Arciero RA. First-time anterior shoulder dislocations: has the standard changed? Br J Sports Med. 2010;44:355-360.</ref> Due to a lack of ligamentous support and [[Dynamic Stabilisers of the Shoulder Complex|dynamic stabilization]], the glenohumeral joint is most susceptible to dislocation in the 90° abduction and 90° external rotation.


== Mechanism of Injury / Pathological Process<br>  ==
Complications and associated injuries include: 


Shoulder dislocations can occur in four directions: anterior and posterior. The most common is due to trauma from a direct posterolateral force on the shoulder. Individuals may also present with a direction of instability that can predispose them to a dislocation. In this case, the muscles are "unprepared" or the force "overwhelms" the muscle (Figure 4).
* Shoulder instability from damage to the inferior glenohumeral ligament.
* [[Hill Sachs Lesion|Hill-Sachs defect]]
* [[Bankart lesion]] or other anterior [[Glenoid Labrum|glenolabral]] injuries
* Damaged axillary [[Arteries|artery]], or [[Brachial Plexus|brachial plexus]]<ref name=":3">Radiopedia [https://radiopaedia.org/articles/anterior-shoulder-dislocation?lang=gb Anterior Shoulder Dislocation] Available:https://radiopaedia.org/articles/anterior-shoulder-dislocation?lang=gb (accessed 8.1.2023)</ref>


'''<br>'''
'''<u>Posterior Shoulder Dislocation (PSD)</u>'''<u><br></u>Posterior dislocation is less common as it accounts for 3% of shoulder dislocations. Typically the humeral head is forced posteriorly in internal rotation while the arm is abducted. Causes include: Convulsive disorders (most common cause in adults, often bilateral); electrocution; road trauma.<ref name=":0">Radiopedia [https://radiopaedia.org/articles/posterior-shoulder-dislocation?lang=gb Posterior Shoulder Dislocation] Available:https://radiopaedia.org/articles/posterior-shoulder-dislocation?lang=gb (accessed 8.1.2023)</ref>
 
'''<u>Anterior Shoulder Dislocation</u>'''<u><br></u>An anterior dislocation accounts for 97% of recurrent or first time dislocations. It is the most common dislocation and is caused by the arm being positioned in an excessive amount of abduction and external rotation. In this position, the inferior glenohumeral complex serves as the primary restraint to anterior glenohumeral translation.<sup>2</sup> Due to a lack of ligamentous support and dynamic stabilization, the glenohumeral joint is most susceptible to dislocation in the 90 degree abduction and 90 degree external rotation (Figure 4).
 
Supporting structures that may be deficient in an anterior dislocation are the anterior capsule, long head of biceps, subscapularis, superior and middle glenohumeral ligaments. When there is a thinning in the anterior capsule, it may present between the superior and middle glenohumeral ligaments. As a result of its inherent weakness, the humeral head is more prone to dislocate at this interval.
 
When an anterior dislocation results from a traumatic event, the anteroinferiorly displaced humeral head stretches and typically tears resulting in a loss of integrity of the anterior ligamentous capsule, often resulting in a detachment of the anterior inferior labrum and may have a Hill-Sachs lesion present.<sup>2</sup> In severe cases, concurrent rotator cuff injuries may occur.
 
[[Image:Picture 4.png|thumb|center|Picture 4.png]]'''<u>Posterior Shoulder Dislocation</u>'''<u><br></u>Posterior dislocation is less common as it accounts for 3% of shoulder dislocations. It is caused by an external blow to the front of the shoulder. There is an indirect force applied to the humerus that combines flexion, adduction, and internal rotation. This is usually the result of one falling on an out stretched hand (FOOSH injury), MVA, or seizures. Due to the traumatic mechanism of injury, posterior dislocations may also have concurrent labral or rotator cuff pathology.


== Clinical Presentation  ==
== Clinical Presentation  ==


'''<u>Anterior Dislocation</u>'''  
'''<u>Anterior Dislocation</u>''' (humeral head comes to lie anterior, medial and slightly inferior to its normal location and glenoid fossa).  
 
Following an acute anterior glenohumeral dislocation (Figure 5):
 
a. Arm held in an abducted and ER position<br>b. Loss of normal contour of the deltoid and acromion prominent posteriorly and laterally<br>c. Humeral head palpable anteriorly<sup>3<br></sup>d. All movements limited and painful<br>e. Palpable fullness below the coracoid process<br>and towards the axilla<ref name="Wang" />
 
On thorough examination, the patient may also present with damage to rotator cuff musculature, bone, vascular, and nervous structures. Vascular structure damage is a result of traction of the brachial plexus and axillary blood vessels that occur during a dislocation. A clinician can determine if an axillary artery injury is present by looking for reduced pulse pressure or a transient coolness in the hands.<sup>3</sup> Peripheral nerve injuries following an anterior dislocation is common because of the proximity of the brachial plexus (Figure 6).  


[[Image:Picture 5.png|thumb|left|Picture 5.png]]
Following an acute anterior glenohumeral dislocation:  


[[Image:Picture 6.png|thumb|center|Picture 6.png]]<u></u><u></u>'''<u>Posterior Dislocation</u>'''  
* Arm held in an abducted and ER position
* Loss of normal contour of the deltoid and acromion prominent posteriorly and laterally
* Humeral head palpable anteriorly<ref name="Boone" />
* All movements limited and painful
* Palpable fullness below the coracoid process and towards the axilla<ref name="Wang">Wang RY, Arciero RA, and Mazzocca AD. The recognition and treatment of first-time shoulder dislocation in active individuals. JOSPT. 2009;39(2):118-123</ref>
* Possible damage to rotator cuff musculature and bone.
* Vascular injuries may result from traction of the axillary blood vessels, resulting in a reduced pulse pressure or a transient coolness in the hands.<ref name="Boone" />&nbsp;
* Peripheral nerve injuries are common due to traction if the [[Brachial Plexus|brachial plexus]].
[[File:Posterior-shoulder-dislocation-with-reverse-hill-sachs-and-reverse-bankart-lesions.jpeg|thumb|PSD with-reverse-[[Hill Sachs Lesion|hill-sachs]]-and-reverse-[[Bankart lesion|bankart-lesion]]<nowiki/>s<nowiki/>]]<u></u><u></u>'''<u>Posterior Dislocation</u>'''  


With acute posterior glenohumeral dislocation:  
With acute posterior glenohumeral dislocation:  


a. Arm is abducted and IR<br>b. May or may not lose deltoid contour<br>c. May notice posterior prominence head of humerus<br>d. Tear of subscapularis muscle (weak or cannot internally rotate)  
* Arm is abducted and IR  
* May or may not lose deltoid contour  
* May notice posterior prominence head of humerus  
* Tear of subscapularis muscle (weak or cannot internally rotate)  
* Neurovascular compromise is rare, but posterior shoulder instability may result from associated glenolabral and capsular injuries.


Literature reviewing the most current research suggests that individuals between the ages of 15-25 should undergo surgical repair of a dislocation because individuals in this group are considered a high risk.<sup>2</sup> However, limited evidence exists in this population. The recurrence rate of dislocations in young active individuals can be as high as 92-96%.<sup>2</sup> In the age group 25-40, initial suggestions are to try conservative rehabilitation because the risk of redislocation is lower, around 40%.<sup>3</sup> Individuals whom are 40 and older also have a low recurrence rate around less than 15%.<sup>3</sup> The recommended management is non operative and to address associated issues.<sup>2</sup> With surgical repairs, it is best to operate within 2 weeks because tissue conditions are still optimal.<sup>2</sup>
Posterior dislocations are hard to reduce, attempts at closed reduction need be performed in consultation with a treating orthopaedic surgeon. If the shoulder dislocation was ≥3 weeks ago (common in feeble elderly patients) or if their is reverse Hill-Sachs defect involving >20% of the articular surface, then the closed reduction is contraindicated.<ref name=":0" />  


== Diagnostic Procedures  ==
== Diagnostic Procedures  ==
X-ray are is often enough to make a diagnosis of shoulder dislocation, however CT and MR are often needed to assess for the presence of subtle fractures of the glenoid rim or ligamentous/tendinous injuries respectively.<ref name=":2" />


Refer to rule out a fracture if dislocation is suspected.
== Outcome Measures ==


#Pre-reduction radiographs are necessary to determine direction of the dislocation and to asses for any associated fractures. If a glenoid rim fracture is observed on the initial radiograph. a CT scan can be done to determine the size of the fracture. An MRI can be used to rule in or rule out any soft tissue pathologies.<ref name="Wang" />&nbsp;As clinicians, it is important for us to know the results of imaging to help guide us in our treatment process. Medical diagnostics will largely depend on local protocol, but may include plain radiographs (A/P, stryker notch or Westpoint views), CT or MRI scans.
* [https://www.physio-pedia.com/DASH_Outcome_Measure Disabilities of the arm, shoulder and hand (DASH)]
* [https://health.usf.edu/~/media/8DB21DBF340E499CAA267D772F1F601E.ashx QuickDASH]
* [http://www.journalofphysiotherapy.com/article/S1836-9553(11)70045-5/fulltext Shoulder Pain and Disability Index (SPADI)]
* [https://www.physio-pedia.com/Numeric_Pain_Rating_Scale Numeric Pain Rating Scale (NPRS)]


== Outcome Measures  ==
== Management / Interventions  ==
A dislocated shoulder needs prompt reduction. This is usually performed in the Emergency Department following sedation and appropriate analgesia. A number of techniques can be used to reduce the shoulder.<ref name=":2" /> See also [[Therapeutic Exercise for the Shoulder]].


[http://www.physio-pedia.com/index.php5?title=DASH_Outcome_Measure Disabilities of the arm, shoulder and hand (DASH)]
'''<u>Anterior Dislocation</u>'''<u><br></u>ASDs are usually treated with closed reduction and a period of immobilisation (e.g. 6 weeks), allowing for adequate capsular healing. For successful healing and eventual normal function a structured course of physical therapy is needed to reduce muscle wasting and maintain mobility. During immobilisation, [https://www.physio-pedia.com/Therapeutic_Exercise isometric exercises] for shoulder muscles are paramount. Surgical repair may be required for dislocation treat complications and associated injuries (see above).<ref name=":3" />


QuickDASH
Following traumatic ASD, there is great variability in the post-operative immobilisation period and at which stage each type of exercise is introduced. Research comparing the effect of different rehabilitation programmes is lacking as is evidence to guide post-operative rehabilitation. Recent progress in surgical procedures and diverse populations presenting with ASD partly causes this variability<ref>Coyle M, Jaggi A, Weatherburn L, DanielI H, Chester R. [https://journals.sagepub.com/doi/full/10.1177/17585732221089636 Post-operative rehabilitation following traumatic anterior shoulder dislocation: A systematic scoping review.] Shoulder & Elbow. 2022 Mar 31:17585732221089636.Available:https://journals.sagepub.com/doi/full/10.1177/17585732221089636 (accessed 8.1.2023)</ref>. Wang and colleagues, suggested a three-phase protocol:'''<br>Phase 1  Immobilisation (up to 6 weeks).<ref name="Wang" /> Goal is to maintain anterior-inferior stability<ref name="Wang" />''' 


Shoulder Pain and Disability Index (SPADI)
* It has traditionally been thought to be immobilized with internal rotation, but according to Miller, immobilization has been beneficial in external rotation because there is more contact force between the glenoid labrum and the glenoid.<ref name="Miller">Miller BS, Sonnabend DH, Hatrick C, O'Leary S, Goldberg J, Harper W, et al. Should acute anterior dislocations of the shoulder be immobilized in external rotation? A cadaveric study. J Shoulder Elbow Surg. 2004; 13: 589-592</ref>&nbsp;
* Research by Itoi<ref name="Itoi">Itoi E, Hatakeyama Y, Sato T, Kido T, Minagawa H, Yamamoto N, Wakabayashi I, et al. Immobilization in external rotation after shoulder dislocation reduces the risk of recurrence. A randomized controlled trial. J Bone Joint Surg Am. 2007; 89:2124-2131</ref>&nbsp;suggests immobilization at 10 degrees of external rotation has a lower recurrence rate than internal immobilization at 10 degrees.<ref name="Itoi" />&nbsp;
* There is currently no consensus on the duration of immobilization in a sling.<ref name="Scheibel">Scheibel M, Kuke A, Nikulka C, Magosch P, Ziesler O, and Schroeder J. How long should acute anterior dislocations of the shoulder be immobilized in external rotation? Am J Sports Med. 2009; 37:1309-1316.</ref>&nbsp;
* Typical time periods in a sling range for 3-6 weeks if under the age of 40 and 1-2 weeks if older than the age of 40.<ref name="Itoi" />&nbsp;


National Pain Rating Scale (NPRS)  
During the immobilization period, the focus is on AROM of the elbow, wrist and hand and reduction of pain. Isometrics can be incorporated for the rotator cuff and biceps musculature.eg Codman Exercises; AAROM for external rotation (0-30º) and forward elevation (0-90º)<br>'''Phase 2 (6-12 weeks)<ref name="Wang" />: Goal is to restore adequate motion, specifically in external rotation'''


== Management / Interventions<br>  ==
* AAROM to achieve a full range of motion when stretching is permitted, passively stretch the posterior joint capsule through the use of joint mobilizations or self-stretching.
* No strengthening or repetitive exercises should start until the achievement of the full range of motion


'''<u>Anterior Dislocation</u>'''<u><br></u>There is limited evidence or consensus on optimal treatment. Non surgical management may be preferred initially, but surgical repair may be warranted for those whom fail conservative care or require extreme usage of the upper extremity (i.e.-elite level athletes). Post operative protocols are largely surgeon dependent and may vary based of several factors including: age, tissue quality, repair type, and fixation. For an anterior dislocation, the recommended intervention non surgically would be to have a closed reduction via a physician. An anterior dislocation can be surgically repaired via stabilization procedures. Following either intervention plan, the physician should be contacted for a specific protocol. In addition, after either intervention the management is similar. However, if it is a surgical procedure, knowing what type of surgery was performed as well as the precautions post surgery. Typical precautions are:
'''Phase 3 (12-24 weeks)<ref name="Wang" />: Successful return to sports or physical activities of daily living'''  


*If subscapularis was cut, no resisted internal rotation for 4-6 weeks
* Begin strengthening exercise, strengthening exercises should be impairment-based.
*External rotation usually limited to 30 degrees initially, then 45 degrees at 6 weeks
* Typically begin strengthening exercise in a pain-free motion with exercises for stability.
* A possible progression could begin by focusing on the rotator cuff musculature and scapular stabilizers, which include trapezius, serratus, levator scapulae, and rhomboids. Then, progress to the larger musculature such as the deltoids, latissimus dorsi, and pectorals.
* Start focusing on functional exercises include proprioceptive training, tailor to promote patient's activities and participation in society
* '''See also Return to Play in Sports'''


<br>  
<br>'''<u>Posterior Dislocation</u>'''


Wang and colleagues<ref name="Wang" />, suggested a three phase protocol discussing some recommendations for this phasic approach.
Management for posterior dislocation follows the same progression as anterior protocol, except for the following guidelines:<br>a. Posterior glide is contraindicated<br>b. Avoid flexion with adduction and internal rotation<br>c. Immobilized 3-6 weeks if less than 40 years of age and 2-3 weeks if greater than 40 years of age<br>d. Strengthening will focus primarily on posterior musculature such as: infraspinatus, teres minor and posterior deltoid


<br>'''Phase 1''' (up to 6 weeks)<ref name="Wang" />: Goal is to maintain anterior-inferior stability
'''See also Return to Play in Sports'''  


*Immobilization
== Differential Diagnosis ==


It has traditionally been thought to be immobilized with internal rotation, but according to Miller, immobilization has been beneficial in external rotation because there is more contact force between the glenoid labrum and the glenoid.<sup>4</sup> Research by Itoi<sup>5</sup> suggests immoboilization at 10 degrees of external rotation has a lower recurrence rate than internal immoboilization at 10 degrees of external rotation has a lower recurrence rate than internal rotation.<sup>5</sup> There is currently no consensus on the duration of immobilization in a sling.<sup>6</sup> But, typical time periods in a sling range for 3-6 weeks if under the age of 40 and 1-2 weeks if older than the age of 40.<sup>5</sup> During the immobilization period, the focus is on AROM of the elbow, wrist and hand and reduction of pain. Isometrics can be incorporated for the rotator cuff and biceps musculature.
*Fracture (clavicle, glenoid, humeral head, greater tuberosity, and proximal humerus)
*[http://www.physio-pedia.com/index.php5?title=Rheumatoid_Arthritis Rheumatoid Arthritis]
*[https://www.physio-pedia.com/Rotator_Cuff_Tears Rotator Cuff Injury]
*[https://www.physio-pedia.com/Acromioclavicular_Joint_Disorders Acromioclavicular Joint Dislocation]
*[https://www.physio-pedia.com/SLAP_Lesion Labral Pathology]
*[https://www.physio-pedia.com/Shoulder_subluxation Shoulder Subluxation]
*[https://www.physio-pedia.com/Axillary_Nerve_Injury Axillary Nerve]/Suprascapular Nerve Palsies<ref name="Boone" /><div class="researchbox"> </div>
== References  ==


*Codman Exercises
<references />  
*AAROM for external rotation (0-30º) and forward elevation (0-90º)
 
<br>'''Phase 2''' (6-12 weeks)<ref name="Wang" />: Goal is to restore adequate motion, specifically in external rotation
 
*AAROM to achieve full range of motion<br>When stretching is permitted, passively stretch the posterior joint capsule through the use of joint mobilizations or self-stretching.
 
*No strengthening or repetitive exercises should start until achievement of full range of motion


<br>  
<br>  


'''Phase 3''' (12-24 weeks)<ref name="Wang" />: Successful return to sports or physical activities of daily living
[[Category:Injury]]
 
[[Category:Shoulder]]
*Begin strengthening exercise<br>Strengthening exercises should be impairment-based. Typically begin strengthening exercise in a pain-free motion with exercises for stability. A possible progression could begin by focusing on the rotator cuff musculature and scapular stabilizers, which include trapezius, serratus, levator scapulae, and rhomboids. Then, progress to the larger musculature such as the deltoids, latissimus dorsi, and pectorals.
[[Category:Bones]]  
*Start focusing on functional exercises<br>Include proprioceptive training<br>Tailor to promote patient's activities and participation in society
[[Category:Musculoskeletal/Orthopaedics|Orthopaedics]]  
 
[[Category:Temple_Student_Project]]  
<br>'''<u>Posterior Dislocation</u>'''
[[Category:Conditions]]
 
Management for posterior dislocation follows the same progression as anterior protocol, except for the following guidelines:<br>a. Posterior glide is contraindicated<br>b. Avoid flexion with adduction and internal rotation<br>c. Immobilized 3-6 weeks if less than 40 years of age and 2-3 weeks if greater than 40 years of age<br>d. Strengthening will focus primarily on posterior musculature such as: infraspinatus, teres minor and posterior deltoid
 
== Differential Diagnosis<sup>2</sup><br>  ==
 
*Fracture (clavicle, glenoid, humeral head, greater tuberosity, and proximal humerus)
*[http://www.physio-pedia.com/index.php5?title=Rheumatoid_Arthritis Rheumatoid Arthritis]  
*[http://www.physio-pedia.com/index.php5?title=Rotator_Cuff_Tears Rotator Cuff Injury]  
*Acromioclavicular Joint Dislocation
*Labral Pathology
*Shoulder Subluxation
*Axillary Nerve/Suprascapular Nerve Palsies<br><br>
 
== Key Evidence  ==
 
http://www.ncbi.nlm.nih.gov/pubmed/17908886<br>
 
== Resources <br>  ==
 
http://www.pph.org/PPHContentPage.aspx?nd=18&amp;parm1=P01367&amp;parm2=85&amp;doc=true
 
http://www.tsaog.com/phyForms/Acute%20Anterior%20Shoulder%20Dislocation%20Physical%20Therapy%20Protocol.pdf<br>
 
== Case Studies  ==
 
http://www.ncbi.nlm.nih.gov/pubmed/19574657<br>
 
== Recent Related Research (from [http://www.ncbi.nlm.nih.gov/pubmed/ Pubmed])  ==
<div class="researchbox">
<rss>http://eutils.ncbi.nlm.nih.gov/entrez/eutils/erss.cgi?rss_guid=1RiS31tjBXJrJGxPPHyobbrq0MNNUGC6PRtXyKu6pDTftXV5KN|charset=UTF-8|short|max=10</rss>
</div>
== References  ==
 
References will automatically be added here, see [[Adding References|adding references tutorial]].
 
<references />


1. Wang RY, Arciero RA, and Mazzocca AD. The recognition and treatment of first-time shoulder dislocation in active individuals. JOSPT. 2009;39(2):118-123<br>2. Boone JL, Arciero RA. First-time anterior shoulder dislocations: has<br>3. the standard changed? Br J Sports Med. 2010;44:355-360.<br>4. Cutts S, Prempeh M, and Drew S. Anterior shoulder dislocation. Ann R coll Surg Engl. 2009;91:2-7<br>5. Miller BS, Sonnabend DH, Hatrick C, O'Leary S, Goldberg J, Harper W, et al. Should acute anterior dislocations of the shoulder be immobilized in external rotation? A cadaveric study. J Shoulder Elbow Surg. 2004; 13: 589-592<br>6. Itoi E, Hatakeyama Y, Sato T, Kido T, Minagawa H, Yamamoto N, Wakabayashi I, et al. Immobilization in external rotation after shoulder dislocation reduces the risk of recurrence. A randomized controlled trial. J Bone Joint Surg Am. 2007; 89:2124-2131<br>7. Scheibel M, Kuke A, Nikulka C, Magosch P, Ziesler O, and Schroeder J. How long should acute anterior dislocations of the shoulder be immobilized in external rotation? Am J Sports Med. 2009; 37:1309-1316.
[[Category:Shoulder - Conditions]]
[[Category:Primary Contact]]
[[Category:Sports Medicine]]
[[Category:Sports Injuries]]
[[Category:Bone - Conditions]]

Latest revision as of 18:58, 8 March 2024

Original Editor - Haley Stevenson and Sherin Mathew as part of the Temple University EBP Project

Top Contributors - Sherin Mathew, Johnathan Fahrner, Haley Stevenson, Lucinda hampton, Admin, Rachael Lowe, Kim Jackson, Scott A Burns, Wanda van Niekerk, Naomi O'Reilly, Venus Pagare, Candace Goh, Claire Knott, Khloud Shreif, Sai Kripa, Evan Thomas, WikiSysop and Fasuba Ayobami  

Introduction[edit | edit source]

Anterior-shoulder-dislocation

Shoulder dislocation (correctly termed a glenohumeral joint dislocation) involves separation of the humerus from the glenoid of the scapula at the glenohumeral joint. The shoulder is inherently unstable joint due to the shallow glenoid articulating with a small part of the humeral head. [1]

  • This type of dislocation represent 50 percent of all major joint dislocations being the most regularly dislocated joint in the body.
  • The shoulder can dislocate in an anterior (95% of shoulder dislocations), posterior, inferior direction and completely or partially.
  • Fibrous tissue joining the bones is often stretched or torn, complicating a dislocation.[1][2]

Etiology[edit | edit source]

The shoulder joint dislocates more frequently than any other joint in the body. A dislocation can become worse by strained or torn fibrous tissue which connects the bones. The bones can only be pulled out of position by a powerful force, such as a blow to the shoulder. Extreme rotation can cause the humeral head to come out of the glenoid labrum. Contact sports injuries are a common cause a dislocated shoulder as are motor trauma and falls.[1]Trauma from motor vehicle accidents and falls can lead to shoulder dislocation. [3]

Epidemiology[edit | edit source]

Shoulder joint dislocations are the most common dislocations of all major joint dislocations. The dislocation may occur anteriorly, posteriorly, inferiorly, or anterior-superiorly. Shoulder dislocations can be Anterior and Posterior dislocations. However, Anterior dislocations are the most common. It represent 95% of shoulder dislocation.[2][3]

Risk factors for re-dislocation:

  • Prior dislocation with poor tissue healing or soft issue laxity
  • Younger patients have a much higher frequency of re-dislocation as they are more active[4]
  • Patients with torn rotator cuffs or fracture of the glenoid have a higher incidence of re-dislocation.[1] 

Mechanism of Injury / Pathological Process[edit | edit source]

Strong forces or extreme rotation can cause the humeral head to come out of the glenoid labrum. Contact sports injuries are a common cause a dislocated shoulder as are motor trauma and falls.[1]

Post reduction, both Bankart and Hill-Sachs lesions

Anterior Shoulder Dislocation
An anterior dislocation is the most common dislocation and is caused by the arm being positioned in an excessive amount of abduction and external rotation. In this position, the inferior glenohumeral complex serves as the primary restraint to anterior glenohumeral translation.[5] Due to a lack of ligamentous support and dynamic stabilization, the glenohumeral joint is most susceptible to dislocation in the 90° abduction and 90° external rotation.

Complications and associated injuries include:

Posterior Shoulder Dislocation (PSD)
Posterior dislocation is less common as it accounts for 3% of shoulder dislocations. Typically the humeral head is forced posteriorly in internal rotation while the arm is abducted. Causes include: Convulsive disorders (most common cause in adults, often bilateral); electrocution; road trauma.[7]

Clinical Presentation[edit | edit source]

Anterior Dislocation (humeral head comes to lie anterior, medial and slightly inferior to its normal location and glenoid fossa).

Following an acute anterior glenohumeral dislocation:

  • Arm held in an abducted and ER position
  • Loss of normal contour of the deltoid and acromion prominent posteriorly and laterally
  • Humeral head palpable anteriorly[5]
  • All movements limited and painful
  • Palpable fullness below the coracoid process and towards the axilla[8]
  • Possible damage to rotator cuff musculature and bone.
  • Vascular injuries may result from traction of the axillary blood vessels, resulting in a reduced pulse pressure or a transient coolness in the hands.[5] 
  • Peripheral nerve injuries are common due to traction if the brachial plexus.
PSD with-reverse-hill-sachs-and-reverse-bankart-lesions

Posterior Dislocation

With acute posterior glenohumeral dislocation:

  • Arm is abducted and IR
  • May or may not lose deltoid contour
  • May notice posterior prominence head of humerus
  • Tear of subscapularis muscle (weak or cannot internally rotate)
  • Neurovascular compromise is rare, but posterior shoulder instability may result from associated glenolabral and capsular injuries.

Posterior dislocations are hard to reduce, attempts at closed reduction need be performed in consultation with a treating orthopaedic surgeon. If the shoulder dislocation was ≥3 weeks ago (common in feeble elderly patients) or if their is reverse Hill-Sachs defect involving >20% of the articular surface, then the closed reduction is contraindicated.[7]

Diagnostic Procedures[edit | edit source]

X-ray are is often enough to make a diagnosis of shoulder dislocation, however CT and MR are often needed to assess for the presence of subtle fractures of the glenoid rim or ligamentous/tendinous injuries respectively.[2]

Outcome Measures[edit | edit source]

Management / Interventions[edit | edit source]

A dislocated shoulder needs prompt reduction. This is usually performed in the Emergency Department following sedation and appropriate analgesia. A number of techniques can be used to reduce the shoulder.[2] See also Therapeutic Exercise for the Shoulder.

Anterior Dislocation
ASDs are usually treated with closed reduction and a period of immobilisation (e.g. 6 weeks), allowing for adequate capsular healing. For successful healing and eventual normal function a structured course of physical therapy is needed to reduce muscle wasting and maintain mobility. During immobilisation, isometric exercises for shoulder muscles are paramount. Surgical repair may be required for dislocation treat complications and associated injuries (see above).[6]

Following traumatic ASD, there is great variability in the post-operative immobilisation period and at which stage each type of exercise is introduced. Research comparing the effect of different rehabilitation programmes is lacking as is evidence to guide post-operative rehabilitation. Recent progress in surgical procedures and diverse populations presenting with ASD partly causes this variability[9]. Wang and colleagues, suggested a three-phase protocol:
Phase 1 Immobilisation (up to 6 weeks).[8] Goal is to maintain anterior-inferior stability[8]

  • It has traditionally been thought to be immobilized with internal rotation, but according to Miller, immobilization has been beneficial in external rotation because there is more contact force between the glenoid labrum and the glenoid.[10] 
  • Research by Itoi[11] suggests immobilization at 10 degrees of external rotation has a lower recurrence rate than internal immobilization at 10 degrees.[11] 
  • There is currently no consensus on the duration of immobilization in a sling.[12] 
  • Typical time periods in a sling range for 3-6 weeks if under the age of 40 and 1-2 weeks if older than the age of 40.[11] 

During the immobilization period, the focus is on AROM of the elbow, wrist and hand and reduction of pain. Isometrics can be incorporated for the rotator cuff and biceps musculature.eg Codman Exercises; AAROM for external rotation (0-30º) and forward elevation (0-90º)
Phase 2 (6-12 weeks)[8]: Goal is to restore adequate motion, specifically in external rotation

  • AAROM to achieve a full range of motion when stretching is permitted, passively stretch the posterior joint capsule through the use of joint mobilizations or self-stretching.
  • No strengthening or repetitive exercises should start until the achievement of the full range of motion

Phase 3 (12-24 weeks)[8]: Successful return to sports or physical activities of daily living

  • Begin strengthening exercise, strengthening exercises should be impairment-based.
  • Typically begin strengthening exercise in a pain-free motion with exercises for stability.
  • A possible progression could begin by focusing on the rotator cuff musculature and scapular stabilizers, which include trapezius, serratus, levator scapulae, and rhomboids. Then, progress to the larger musculature such as the deltoids, latissimus dorsi, and pectorals.
  • Start focusing on functional exercises include proprioceptive training, tailor to promote patient's activities and participation in society
  • See also Return to Play in Sports


Posterior Dislocation

Management for posterior dislocation follows the same progression as anterior protocol, except for the following guidelines:
a. Posterior glide is contraindicated
b. Avoid flexion with adduction and internal rotation
c. Immobilized 3-6 weeks if less than 40 years of age and 2-3 weeks if greater than 40 years of age
d. Strengthening will focus primarily on posterior musculature such as: infraspinatus, teres minor and posterior deltoid

See also Return to Play in Sports

Differential Diagnosis[edit | edit source]

References[edit | edit source]

  1. 1.0 1.1 1.2 1.3 1.4 Abrams R, Akbarnia H. Shoulder dislocations overview. InStatPearls [Internet] 2021 Aug 13. StatPearls Publishing.Available:https://www.ncbi.nlm.nih.gov/books/NBK459125/ (accessed 8.1.2023)
  2. 2.0 2.1 2.2 2.3 Radiopedia Shoulder Dislocation Available:https://radiopaedia.org/articles/shoulder-dislocation (accessed 8.1.2023)
  3. 3.0 3.1 Abrams R, Akbarnia H. Shoulder dislocations overview. InStatPearls [Internet] 2022 Aug 8. StatPearls Publishing.
  4. Abrams R, Akbarnia H. Shoulder dislocations overview. InStatPearls [Internet] 2022 Aug 8. StatPearls Publishing.
  5. 5.0 5.1 5.2 5.3 Boone JL, Arciero RA. First-time anterior shoulder dislocations: has the standard changed? Br J Sports Med. 2010;44:355-360.
  6. 6.0 6.1 Radiopedia Anterior Shoulder Dislocation Available:https://radiopaedia.org/articles/anterior-shoulder-dislocation?lang=gb (accessed 8.1.2023)
  7. 7.0 7.1 Radiopedia Posterior Shoulder Dislocation Available:https://radiopaedia.org/articles/posterior-shoulder-dislocation?lang=gb (accessed 8.1.2023)
  8. 8.0 8.1 8.2 8.3 8.4 Wang RY, Arciero RA, and Mazzocca AD. The recognition and treatment of first-time shoulder dislocation in active individuals. JOSPT. 2009;39(2):118-123
  9. Coyle M, Jaggi A, Weatherburn L, DanielI H, Chester R. Post-operative rehabilitation following traumatic anterior shoulder dislocation: A systematic scoping review. Shoulder & Elbow. 2022 Mar 31:17585732221089636.Available:https://journals.sagepub.com/doi/full/10.1177/17585732221089636 (accessed 8.1.2023)
  10. Miller BS, Sonnabend DH, Hatrick C, O'Leary S, Goldberg J, Harper W, et al. Should acute anterior dislocations of the shoulder be immobilized in external rotation? A cadaveric study. J Shoulder Elbow Surg. 2004; 13: 589-592
  11. 11.0 11.1 11.2 Itoi E, Hatakeyama Y, Sato T, Kido T, Minagawa H, Yamamoto N, Wakabayashi I, et al. Immobilization in external rotation after shoulder dislocation reduces the risk of recurrence. A randomized controlled trial. J Bone Joint Surg Am. 2007; 89:2124-2131
  12. Scheibel M, Kuke A, Nikulka C, Magosch P, Ziesler O, and Schroeder J. How long should acute anterior dislocations of the shoulder be immobilized in external rotation? Am J Sports Med. 2009; 37:1309-1316.


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