Skip to main content

Main menu

  • HOME
  • ARTICLES
    • Current Issue
    • Ahead of Print
    • Archives
    • Abstracts In Press
    • Special Issue Archive
    • Subject Collections
  • INFO FOR
    • Authors
    • Reviewers
    • Call For Papers
    • Subscribers
    • Advertisers
  • SUBMIT
    • Manuscript
    • Peer Review
  • ABOUT
    • The JABFM
    • The Editing Fellowship
    • Editorial Board
    • Indexing
    • Editors' Blog
  • CLASSIFIEDS
  • Other Publications
    • abfm

User menu

  • Log out

Search

  • Advanced search
American Board of Family Medicine
  • Other Publications
    • abfm
  • Log out
American Board of Family Medicine

American Board of Family Medicine

Advanced Search

  • HOME
  • ARTICLES
    • Current Issue
    • Ahead of Print
    • Archives
    • Abstracts In Press
    • Special Issue Archive
    • Subject Collections
  • INFO FOR
    • Authors
    • Reviewers
    • Call For Papers
    • Subscribers
    • Advertisers
  • SUBMIT
    • Manuscript
    • Peer Review
  • ABOUT
    • The JABFM
    • The Editing Fellowship
    • Editorial Board
    • Indexing
    • Editors' Blog
  • CLASSIFIEDS
  • JABFM on Bluesky
  • JABFM On Facebook
  • JABFM On Twitter
  • JABFM On YouTube
Research ArticleEvidence-Based Clinical Medicine

A Simplified Approach to Evaluate and Manage Shoulder Pain

Kartik Sidhar, Hyung Jin Lim and Laurel Gutierrez
The Journal of the American Board of Family Medicine November 2024, 37 (6) 1156-1166; DOI: https://doi.org/10.3122/jabfm.2024.240114R2
Kartik Sidhar
From the Department of Family Medicine, University of Michigan Medical School, Ann Arbor, MI (KS, LG); Department of Family Medicine, University of Pittsburgh Medical Center, McKeesport, PA (HJL).
MD, CAQSM, RMSK
  • Find this author on Google Scholar
  • Find this author on PubMed
  • Search for this author on this site
Hyung Jin Lim
From the Department of Family Medicine, University of Michigan Medical School, Ann Arbor, MI (KS, LG); Department of Family Medicine, University of Pittsburgh Medical Center, McKeesport, PA (HJL).
MD
  • Find this author on Google Scholar
  • Find this author on PubMed
  • Search for this author on this site
Laurel Gutierrez
From the Department of Family Medicine, University of Michigan Medical School, Ann Arbor, MI (KS, LG); Department of Family Medicine, University of Pittsburgh Medical Center, McKeesport, PA (HJL).
MD
  • Find this author on Google Scholar
  • Find this author on PubMed
  • Search for this author on this site
  • Article
  • Figures & Data
  • References
  • Info & Metrics
  • PDF
Loading

Abstract

With the lifetime prevalence of shoulder pain approaching 70%, accurate diagnosis and management remains essential. The shoulder is a complex joint with a vast range of motion making it susceptible to injury due to limited bony stabilization. This manuscript shares a simplified, novel approach to evaluating and managing atraumatic shoulder pain based on triaging symptoms on presence or loss of range of motion. In patients with loss of active and passive range of motion, the likely etiologies of pain include adhesive capsulitis or glenohumeral joint arthritis depending on imaging. In patients with preserved active and passive range of motion, implementing specific special testing can help pinpoint the diagnosis, and further guide appropriate management. Ultrasound plays an increasingly key role in diagnosing and managing shoulder pathology.

  • Diagnostic Ultrasound
  • Physical Examination
  • Physical Therapy
  • Range of Motion
  • Rotator Cuff Injuries
  • Shoulder Pain
  • Sports Medicine

Introduction

The shoulder is a unique joint that offers extensive range of motion. To achieve this, the shoulder employs soft tissue stabilizers which include the rotator cuff muscles, joint capsule, and ligaments, and has limited bony stabilization which increases function but also increases the risk of injury. Extensive soft tissue stabilization also makes evaluating shoulder pathology a diagnostic challenge. With the lifetime prevalence of shoulder pain approaching 70%,1 primary care clinicians will frequently encounter patients with shoulder pain. The goal of this manuscript is to present a simplified, systematic approach to shoulder pain evaluation and management with a focus on nonacute shoulder pain.

History

Obtaining a detailed history for a painful shoulder is essential for determining the etiology of shoulder pain and initiating the appropriate management. Important factors to elicit in the history are the duration of symptoms and inciting factors including trauma or mechanism of overuse injury.2 Next, it is important to characterize the pain and other associated symptoms such as swelling, stiffness, locking, catching, and/or numbness.3 Determining which motions elicit symptoms can help isolate the anatomy involved in the injury. Inquiring about which activities of daily living, work, sports, or other recreational activities are impacted can help guide the best treatment options for a patient.2,3

Physical Examination

This manuscript will focus on how shoulder special testing can aid in establishing a diagnosis. Special testing will be further discussed and incorporated into the diagnostic algorithm as below and in Figure 1. See Table 1 for special test information including pathology, sensitivity, and specificity. For additional information on performing a physical examination of the shoulder, please reference previously available resources.4,5

Figure 1.
  • Download figure
  • Open in new tab
Figure 1.

Shoulder pain evaluation algorithm.

View this table:
  • View inline
  • View popup
Table 1.

Shoulder Special Test Sensitivity and Specificity

Terminology

Tendinopathy: general term to describe any pathology of a tendon.6

Tendinitis: acute inflammation of a tendon, usually due to an injury.6

Tendinosis: chronic, degenerative, noninflammatory changes to a tendon.6 The term, tendinosis, is thought to better characterize the underlying pathophysiology associated with chronic tendon pain.

For simplicity, the remainder of this manuscript will describe tendon pathology using the umbrella term, ‘tendinopathy.’

Evaluating Shoulder Pain

This manuscript will focus on a novel, simplified algorithm to evaluate shoulder pain based on whether there is loss of range of motion (Figure 1). Loss of range of motion can be categorized into loss of active and/or passive range of motion.

Preserved Range of Motion

Pain can limit active range of motion during the physical examination which can confound whether range of motion is limited due to pain or mechanical causes. During the physical examination, it can be helpful to coach patients to attempt a full range of motion to provide diagnostic clarity. If a patient cannot complete full range of motion, assessing passive range of motion can provide additional diagnostic information. The following shoulder pain pathologies will typically have preserved range of motion.

Rotator Cuff Tendinopathy/Impingement

History

The rotator cuff muscles include the supraspinatus, infraspinatus, subscapularis, and teres minor. These muscles stabilize the shoulder and injury to the tendons anchoring these muscles can cause significant shoulder pain.7 The patient with rotator cuff tendinopathy will often report referred pain to the lateral shoulder around the mid-deltoid and also may report pain at night.8 Pain is usually worse with overhead activities.8

Key Examination Findings

Evaluate the entire range of motion of the shoulder both passively and actively. Patients typically will have pain with active range of motion but can be coached through a complete active range in abduction, forward flexion, internal rotation, and external rotation. The examiner can consider a diagnostic subacromial lidocaine injection and repeat the examination to delineate true loss of motion versus loss of motion secondary to pain from rotator cuff pathology. The supraspinatus is an important muscle for abduction of the shoulder.9 On examination, patients may have pain with resisted arm abduction or ‘empty can’ testing and may report pain between 60 to 120 degrees of abduction.8 The infraspinatus and teres minor contribute to external rotation and the subscapularis contributes to internal rotation, so pain in these motions may assist with the diagnosis.8,9 Patients are likely to have positive impingement testing as well including pain with passive internal rotation with the elbow flexed in 90 degrees with the shoulder forward flexed at 90 degrees (Hawkins test).5 Pain may also be reproduced with passive internal rotation of the arm and forward flexion (Neer sign).5 These tests result in compression of the rotator cuff tendons and subacromial bursa between the acromion and the humeral head, reproducing pain.

Diagnosis

The diagnosis is typically based on history and physical examination. To augment the examination, there are multiple modalities with which the rotator cuff can be evaluated. Ultrasound (US) and Magnetic Resonance Imaging (MRI) are the best noninvasive studies to visualize tendon injury.10 A radiograph may be obtained to evaluate for bony etiology of shoulder pain and may show signs of rotator cuff tendinopathy with cortical irregularity at the insertion on the humerus or may show calcium deposition within the tendon suggestive of calcific tendinopathy.7 US is commonly the first step in evaluation of the rotator cuff and can visualize tendinopathy and tears clearly.7

Ultrasound

The sensitivity and specificity of US and MRI are nearly equivalent in the evaluation for rotator cuff pathology.7,11 Tendons are hyperechoic (brighter) compared with surrounding tissue with visible fibers that are uninterrupted in longitudinal and sagittal views (Figure 2 to 4).7 When tendinosis is present, the tendon will be hypoechoic (darker) and thickened on US imaging (Figure 5). Calcifications may be seen and will appear in the tendon as small, defined hyperechoic areas.7,12 A tear on US will be seen as a focused area of disruption in the fibers of the tendon (Figure 6).13

Figure 2.
  • Download figure
  • Open in new tab
Figure 2.

Normal supraspinatus tendon

Figure 3.
  • Download figure
  • Open in new tab
Figure 3.

Normal subscapularis tendon.

Figure 4.
  • Download figure
  • Open in new tab
Figure 4.

Normal biceps tendon.

Figure 5.
  • Download figure
  • Open in new tab
Figure 5.

Supraspinatus tendinosis.

Figure 6.
  • Download figure
  • Open in new tab
Figure 6.

Supraspinatus partial tear.

Management

The first step in managing rotator cuff tendinopathy is physical therapy (PT).14 Therapy should be focused on strengthening the individual muscles of the rotator cuff along with the scapular stabilizers.8 Corticosteroid injections into the subacromial space can be used for management of refractory pain, but there is little evidence to show long-term improvement in patients given injections alone compared with injections with concomitant PT.8 Hyaluronic acid injections and platelet rich plasma have limited evidence for their use in the management of rotator cuff disease, although more research is being done on their efficacy.15 US guided needle fenestration or percutaneous tenotomy is another emerging treatment option.16 Surgical referral can be considered for persistent pain with rotator cuff tendinopathy that has failed conservative treatment.8 Small tears can be debrided while higher grade partial tears or full thickness tears may benefit from repair.7

Biceps Tendinopathy

History

It can be difficult to diagnose biceps tendinopathy due to its overlap with many other causes of shoulder pain. Patients will often report anterior shoulder pain that may radiate down the biceps. The pain will be aggravated by overhead movements including forward flexion,2 especially in overhead athletes or individuals with repetitive overhead work.17 Patients with instability of the tendon may experience clicking or popping and may even hear a snapping sound with overhead motions.2,3

Key Examination Findings

A key finding on examination is pain to palpation over the bicipital groove.2,18 With biceps tendinopathy, patients may have pain with resisted forward flexion of the arm with the palm up (Speed’s test).5 They may also have pain with resisted supination with the elbow flexed at 90 degrees (Yergason’s test).4 These tests are sensitive but not specific to biceps pathology as these tests can also reproduce pain when rotator cuff pathology is present.3,19 In the case of rupture of the proximal biceps tendon, the examiner may see a bulge in the upper arm due to biceps muscle contraction, particularly with elbow flexion.2

Diagnosis

The diagnosis is primarily clinical, based on history and physical examination. MRI and ultrasound can aid in the diagnosis of biceps tendinopathy if the etiology remains unclear.2,20,21 Biceps tendinopathy is seen on ultrasound as tendon thickening with heterogenous hypoechoic changes(Figure 7).22 There may be edema surrounding the tendon on ultrasound in cases of acute tendinitis. A radiograph may be helpful to rule out other causes of shoulder pain but will not visualize the biceps tendon.3

Figure 7.
  • Download figure
  • Open in new tab
Figure 7.

Biceps tendinosis.

Management

Biceps tendinopathy is often associated with rotator cuff pathology. Identifying and treating rotator cuff pathology, if present, is important in the treatment of biceps tendinopathy.17 Management begins with conservative measures including rest, over the counter pain management, and physical therapy.2,3 Rehabilitation programs should focus on stabilization of the shoulder through strengthening the rotator cuff, deltoid, and scapular muscles.17 Activity modification until resolution of pain with gradual return to activity can prevent reinjury.3,17 Corticosteroid injections can be performed for pain relief if symptoms are not improving with PT. The injection is typically done under ultrasound guidance into the tendon sheath to avoid injection into the tendon which can increase the risk of tendon rupture.2,3,17,23 If there is no improvement with these measures, surgical intervention including biceps tenotomy or tenodesis can be considered.2,3

Acromioclavicular (AC) Joint Pathology

History

AC joint pathology presents as pain over superior aspect of the shoulder, lateralizing over the AC joint. Risk factors including repetitive cross body loading including weightlifting, repetitive work, or history of injury/trauma including AC separation.

Key Examination Findings

The most common examination finding is tenderness to palpation directly over the AC joint.24 Patients may have pain reproduced with passive crossbody adduction of the arm with the shoulder in 90 degrees of flexion (crossbody adduction test).5 The crossbody adduction test, also known as the scarf test, has the highest sensitivity for AC joint pathology.24

Diagnosis

In addition to the physical examination, a Zanca view shoulder radiograph can further evaluate the AC joint for arthritis, separation, or fracture.24 Ultrasound evaluation can identify if AC joint effusion is present.24 Ultrasound can also evaluate for tenderness with sonopalpation. In addition, US can be used for diagnostic and therapeutic AC joint injection for further diagnostic clarity and pain management.25 The utility of MRI is limited for AC joint pathology.24

Management and Prognosis

AC joint pathology management depends on the diagnosis. AC joint arthritis is managed similar to glenohumeral joint arthritis with rehabilitation, corticosteroid injections, or surgical management with distal clavicle resection.26 Avoiding crossbody maneuvers can help manage pain during acute flares. Management of AC sprains varies from conservative management with a short course of immobilization to surgical ligamentous repair depending on grade of injury.26

Labral Pathology

History

Patients with anterior labral pathology will typically present with anterior shoulder pain around the bicipital groove.27 Patients at risk for labral pathology, specifically superior labrum anterior posterior (SLAP) lesions, include overhead athletes and those who perform heavy manual labor.28 Individuals may also present with mechanical symptoms including clicking, particularly when their arm is abducted and externally rotated.29 Posterior labral tears are most commonly caused by direct shoulder injury by falling on an outstretched hand.27

Key Examination Findings

In addition to the basic shoulder examination, a combination of special tests is recommended as there is not a single test proven to have high sensitivity and specificity for labral pathology. These tests include anterior glide test, compression rotation test, active compression (O’Brien’s) test, and crank test.30,31

Diagnosis

The diagnosis of labral pathology is based on history, examination, and imaging.32 MR Arthrogram is more sensitive in diagnosing labral pathology than the conventional shoulder MRI.32 Radiograph and ultrasound will not evaluate the anterior glenoid labrum but can be considered to rule out other concurrent shoulder injury.33 Arthroscopy is the gold-standard for diagnosing labral tears.33

Management and Prognosis

Management depends on patient’s symptoms, age, and functional requirements. Many overhead athletes will have asymptomatic SLAP tears and do not need additional treatment or intervention.34,35 It is sometimes thought to be a normal, adaptive response for higher level athletes.35 In addition, SLAP lesions can be present in up to 70% of asymptomatic middle-aged patients.36 Thus, the management can be confounded as this may be an incidental finding on MRI and not the primary source of pain. A careful shoulder examination to pinpoint the etiology and location of pain is the most informative in determining if the source of pain is the labrum. First line treatment for symptomatic anterior labral tears includes a focused physical therapy program. If no improvement, surgical evaluation is indicated as management varies based on the type of tear, which remains outside of the scope of this manuscript. Anterior labral tears which occur from trauma or shoulder dislocation should be referred for surgical evaluation.37

Loss of Active and Passive Range of Motion

Adhesive Capsulitis

History

Incidence is approximately 3 to 5% of the population and up to 20% in those with diabetes.38 Pain typically starts at night and presents as vague, generalized shoulder pain. Many patients will endorse referred pain to the mid deltoid region over the lateral aspect of the upper arm.39 Pain precedes the loss of range of motion and external rotation tends to be the first motion lost, followed by global loss of motion.39 Comorbid conditions associated with adhesive capsulitis include hypothyroidism and diabetes.38

Key Examination Findings

Loss of active and passive range of motion is a hallmark of adhesive capsulitis. Individuals tend to have overlapping special test findings including pain with impingement maneuvers (Neer and Hawkins test), biceps provocative maneuvers, and pain with active and passive shoulder range of motion.

Diagnosis

History, examination, and imaging can aid in the diagnosis of adhesive capsulitis. In patients with loss of active and passive range of motion, a radiograph can help rule out glenohumeral joint osteoarthritis, which can also result in loss of passive range of motion. If radiography does not show significant arthritis, adhesive capsulitis is the most likely diagnosis in the setting of loss of passive range of motion. There are secondary imaging findings that can suggest adhesive capsulitis on diagnostic ultrasound and MRI including joint capsule thickening and coracohumeral ligament thickening.40 These are nonspecific findings and advanced imaging is not necessary for further workup if the history and examination is consistent.

Management

Initial management includes physical therapy and over the counter medications for pain management. If pain is severe and limiting activities of daily living including sleep, injection options can be considered including US guided glenohumeral joint injection.41 Another injection option for management is US guided hydrodilation which entails injecting high volume fluid such as sterile water or sterile saline in addition to a local anesthetic and a steroid with the intent to dilate the joint capsule.42 Finally, surgical management can be considered including manipulation under anesthesia or capsular release. While these options may help with pain management, they have not been proven to consistently shorten the time course of this disease.43 Adhesive capsulitis is thought to be self-limited with a typical duration of 12 to 36 months, however, some individuals can have long-term sequelae.44

Glenohumeral Joint Osteoarthritis

History

Individuals with glenohumeral joint arthritis may endorse insidious, deep, anterior shoulder and upper arm pain with associated stiffness and progressive loss of range of motion. Risk factors include history of instability, rotator cuff pathology, history of trauma, genetics, and obesity.45

Key Examination Findings

On examination, there may be tenderness to palpation over the anterior joint line. In later stage disease, patients may lose active and passive range of motion, particularly with external rotation and abduction.46 Special testing for biceps tendinopathy, rotator cuff tendinopathy and labral pathology may be positive and may confound evaluation.

Diagnosis

Shoulder radiographs, including Grashey view or axillary view, is the recommended imaging to evaluate for glenohumeral joint arthritis.47 Reduction in joint space with subchondral sclerosis and osteophyte formation is characteristic of glenohumeral joint arthritis (Figure 8).47 In patients with multiple positive special tests, loss of active and passive range of motion, and radiograph findings of arthritis, the likely diagnosis is glenohumeral joint arthritis.

Figure 8.
  • Download figure
  • Open in new tab
Figure 8.

Glenohumeral joint osteoarthritis.

Management and Prognosis

A strengthening and stretching program focusing on shoulder joint capsule, deltoid, rotator cuff, and scapular stabilizers is a key component of rehabilitation.48 If pain persists, injection options include US guided corticosteroid injection into the glenohumeral joint or suprascapular nerve block can be considered for pain management.48,49 It is important to note, injection options will not necessarily improve the patient’s range of motion but can decrease pain and increase function. Finally, surgical options can be considered if no improvement with conservative management including arthroscopic management or shoulder arthroplasty including reverse total shoulder arthroplasty or total shoulder arthroplasty.48

Loss of Active Range of Motion, Preserved Passive Range of Motion

Rotator Cuff Tear

History

There is overlap in symptoms of rotator cuff tendinopathy and rotator cuff tear. Both present with pain with abduction and external rotation of the arm. Individuals with a rotator cuff tear may have a history of trauma such as a fall on an outstretched hand or a direct fall on the shoulder.

Key Examination Findings

Key examination findings include weakness in the motion of the affected muscle. Patients with a supraspinatus tear will present with weakness with abduction. Infraspinatus injury may present with weakness with external rotation and subscapularis tears present with weakness with internal rotation or difficulty with push-off test.50

Diagnosis

The diagnosis can be made clinically with evidence of weakness on examination. However, pain secondary to partial tears or tendinopathy can also contribute to weakness and difficulty assessing strength, so obtaining advanced imaging is often necessary to confirm the diagnosis. Radiographs are helpful to evaluate for cortical irregularities of the humerus, a high riding humerus, or rotator cuff arthropathy which can be present in the setting of chronic, complete rotator cuff tears (Figure 9).50 Ultrasound and MRI as reviewed above are the most helpful imaging modalities for evaluating for rotator cuff tears.

Figure 9.
  • Download figure
  • Open in new tab
Figure 9.

Rotator cuff arthropathy.

Management and Prognosis

Management depends on time course and nature of injury. In an acute, traumatic, full-thickness rotator cuff tear, the standard of care particularly in young, active patients is early rotator cuff repair with a goal of repairing within 3 to 4 months from injury.50,51 Patients with an atraumatic tear or partial tear can start with nonoperative management similar to rotator cuff tendinopathy as described above with physical therapy, injection options for pain management, and consider surgical management if no improvement with nonoperative options.14,50

Less Common Causes of Shoulder Pain

Thoracic Outlet Syndrome

Neurogenic, arterial, and venous thoracic outlet syndrome is caused by trauma, repetitive motion, and variations in anatomy around the first rib.52 Close to 90% with neurogenic thoracic outlet syndrome present with shoulder pain, so maintaining a broad differential can aid in diagnosis.53 Multiple special tests can be used during examination including Adson’s test, elevated arm stress test, and upper limb tension tests. These test are not sensitive nor specific and may lead to false positives.54 Vascular imaging to rule out deep vein thrombosis and doppler to evaluate arterial flow are the best initial tests when evaluating for thoracic outlet syndrome.55 Evaluation by vascular surgery is recommended if there is suspicion for thoracic outlet syndrome.

Brachial Neuritis

Brachial Neuritis, also known as Parsonage-Turner Syndrome, presents as sudden onset, severe pain without significant trauma or injury.56 Pain is typically worse at night. The next stage of the condition entails resolution of pain but progressive shoulder weakness.57 Diagnosis is made clinically and by evaluating nerve conduction with an EMG along with MRI of the brachial plexus. This is a self-limiting condition with around 90% recovery within 3 years.58 It may be reasonable to use oral steroids in the acute phase for pain management, but this has not been shown to change the time course of the disease.57

Distal Clavicle Osteolysis

Distal clavicle osteolysis may develop in individuals who weightlift or perform repetitive heavy lifting at work.59 This results in a ‘moth eaten’ appearance of the distal clavicle due to repetitive bony stress from microfractures and repair attempts (Figure 10).60 Examination is significant for pain over the AC joint and pain with AC provocative maneuvers as described above. Treatment includes activity reduction/modification and consideration of corticosteroid injections for symptom management. Severe cases are managed with distal clavicle resection.59

Figure 10.
  • Download figure
  • Open in new tab
Figure 10.

Distal clavicle osteolysis.

Non-Musculoskeletal Causes of Shoulder Pain

While the focus of this review is on musculoskeletal etiology of shoulder pain, clinicians should maintain a broad differential to evaluate and workup for nonmusculoskeletal etiology of shoulder pain including referred cardiac, thoracic, spinal, or abdominal pain.

Conclusion

The shoulder is a complex and unique joint which can be diagnostically challenging. Triaging shoulder pain based on presence or loss of range of motion and special tests can guide the differential and lead to more accurate diagnosis and management of shoulder pathology.

Notes

  • This article was externally peer reviewed.

  • Conflict of interest: The authors have no conflicts of interest to report.

  • Funding: There were no sources of funding for this project.

  • To see this article online, please go to: http://jabfm.org/content/37/6/1156.full.

  • Received for publication March 11, 2024.
  • Revision received May 8, 2024.
  • Revision received June 4, 2024.
  • Accepted for publication June 10, 2024.

References

  1. 1.↵
    1. Luime JJ,
    2. Koes BW,
    3. Hendriksen IJ,
    4. et al
    . Prevalence and incidence of shoulder pain in the general population; a systematic review. Scand J Rheumatol 2004;33:73–81.
    OpenUrlCrossRefPubMed
  2. 2.↵
    1. Nho SJ,
    2. Strauss EJ,
    3. Lenart BA,
    4. et al
    . Long head of the biceps tendinopathy: diagnosis and management. J Am Acad Orthop Surg 2010;18:645–56.
    OpenUrlPubMed
  3. 3.↵
    1. Churgay CA
    . Diagnosis and treatment of biceps tendinitis and tendinosis. Am Fam Physician 2009;80:470–6.
    OpenUrlPubMed
  4. 4.↵
    1. Varacallo M,
    2. El Bitar Y,
    3. Mair SD
    . Comprehensive shoulder evaluation strategies. In: StatPearls. Treasure Island (FL). 2023.
  5. 5.↵
    1. Cotter EJ,
    2. Hannon CP,
    3. Christian D,
    4. Frank RM,
    5. Bach BR Jr.
    . Comprehensive examination of the athlete's shoulder. Sports Health 2018;10:366–75.
    OpenUrlPubMed
  6. 6.↵
    1. Bordachar D
    . Lateral epicondylalgia: a primary nervous system disorder. Med Hypotheses 2019;123:101–9.
    OpenUrlPubMed
  7. 7.↵
    1. Fitzpatrick LA,
    2. Atinga A,
    3. White L,
    4. Henry PDG,
    5. Probyn L
    . Rotator cuff injury and repair. Semin Musculoskelet Radiol 2022;26:585–96.
    OpenUrlPubMed
  8. 8.↵
    1. Dang A,
    2. Davies M
    . Rotator cuff disease: treatment options and considerations. Sports Med Arthrosc Rev 2018;26:129–33.
    OpenUrl
  9. 9.↵
    1. Jain NB,
    2. Wilcox RB 3rd.,
    3. Katz JN,
    4. Higgins LD
    . Clinical examination of the rotator cuff. PM R 2013;5:45–56.
    OpenUrlPubMed
  10. 10.↵
    1. Lewis J
    . Rotator cuff related shoulder pain: assessment, management and uncertainties. Man Ther 2016;23:57–68.
    OpenUrlCrossRefPubMed
  11. 11.↵
    1. Kalia V,
    2. Freehill MT,
    3. Miller BS,
    4. Jacobson JA
    . Multimodality imaging review of normal appearance and complications of the postoperative rotator cuff. AJR Am J Roentgenol AJR Am J Roentgenol 2018;211:538–47.
    OpenUrlPubMed
  12. 12.↵
    1. Greis AC,
    2. Derrington SM,
    3. McAuliffe M
    . Evaluation and nonsurgical management of rotator cuff calcific tendinopathy. Orthop Clin North Am 2015;46:293–302.
    OpenUrlCrossRefPubMed
  13. 13.↵
    1. Plancher KD,
    2. Shanmugam J,
    3. Briggs K,
    4. Petterson SC
    . Diagnosis and management of partial thickness rotator cuff tears: a comprehensive review. J Am Acad Orthop Surg 2021;29:1031–43.
    OpenUrlPubMed
  14. 14.↵
    1. Kuhn JE,
    2. Dunn WR,
    3. Sanders R
    , MOON Shoulder Groupet al. Effectiveness of physical therapy in treating atraumatic full-thickness rotator cuff tears: a multicenter prospective cohort study. J Shoulder Elbow Surg 2013;22:1371–9.
    OpenUrlCrossRefPubMed
  15. 15.↵
    1. Weber S,
    2. Chahal J
    . Management of rotator cuff injuries. J Am Acad Orthop Surg 2020;28:e193–e201.
    OpenUrlCrossRefPubMed
  16. 16.↵
    1. Krey D,
    2. Borchers J,
    3. McCamey K
    . Tendon needling for treatment of tendinopathy: a systematic review. Phys Sportsmed 2015;43:80–6.
    OpenUrlCrossRefPubMed
  17. 17.↵
    1. Wilk KE,
    2. Hooks TR
    . The painful long head of the biceps brachii: nonoperative treatment approaches. Clin Sports Med 2016;35:75–92.
    OpenUrlPubMed
  18. 18.↵
    1. Chen RE,
    2. Voloshin I
    . Long head of biceps injury: treatment options and decision making. Sports Med Arthrosc Rev 2018;26:139–44.
    OpenUrl
  19. 19.↵
    1. Holtby R,
    2. Razmjou H
    . Accuracy of the Speed's and Yergason's tests in detecting biceps pathology and SLAP lesions: comparison with arthroscopic findings. Arthroscopy 2004;20:231–6.
    OpenUrlCrossRefPubMed
  20. 20.↵
    1. Dubrow SA,
    2. Streit JJ,
    3. Shishani Y,
    4. Robbin MR,
    5. Gobezie R
    . Diagnostic accuracy in detecting tears in the proximal biceps tendon using standard nonenhancing shoulder MRI. Open Access J Sports Med 2014;5:81–7.
    OpenUrlPubMed
  21. 21.↵
    1. Courage O,
    2. van Rooij F,
    3. Saffarini M
    . Ultrasound is more reliable than clinical tests to both confirm and rule out pathologies of the long head of the biceps: a systematic review and meta-analysis. Knee Surg Sports Traumatol Arthrosc 2023;31:662–71.
    OpenUrlPubMed
  22. 22.↵
    1. Al-Ani Z,
    2. Lauder J
    . Ultrasound assessment in distal biceps tendon injuries: techniques, pearls and pitfalls. Clin Imaging 2021;75:46–54.
    OpenUrlPubMed
  23. 23.↵
    1. Messina C,
    2. Banfi G,
    3. Orlandi D,
    4. et al
    . Ultrasound-guided interventional procedures around the shoulder. Br J Radiol 2016;89:20150372.
    OpenUrlPubMed
  24. 24.↵
    1. Willimon SC,
    2. Gaskill TR,
    3. Millett PJ
    . Acromioclavicular joint injuries: anatomy, diagnosis, and treatment. Phys Sportsmed 2011;39:116–22.
    OpenUrlCrossRefPubMed
  25. 25.↵
    1. Krill MK,
    2. Rosas S,
    3. Kwon K,
    4. Dakkak A,
    5. Nwachukwu BU,
    6. McCormick F
    . A concise evidence-based physical examination for diagnosis of acromioclavicular joint pathology: a systematic review. Phys Sportsmed 2018;46:98–104.
    OpenUrlPubMed
  26. 26.↵
    1. Boffano M,
    2. Mortera S,
    3. Wafa H,
    4. Piana R
    . The surgical treatment of acromioclavicular joint injuries. EFORT Open Rev 2017;2:432–7.
    OpenUrlAbstract/FREE Full Text
  27. 27.↵
    1. Alexeev M,
    2. Kercher JS,
    3. Levina Y,
    4. Duralde XA
    . Variability of glenoid labral tear patterns: a study of 280 sequential surgical cases. J Shoulder Elbow Surg 2021;30:2762–6.
    OpenUrlPubMed
  28. 28.↵
    1. Andrews JR,
    2. Carson WG Jr.,
    3. McLeod WD
    . Glenoid labrum tears related to the long head of the biceps. Am J Sports Med 1985;13:337–41.
    OpenUrlCrossRefPubMed
  29. 29.↵
    1. Bedi A,
    2. Allen AA
    . Superior labral lesions anterior to posterior-evaluation and arthroscopic management. Clin Sports Med 2008;27:607–30.
    OpenUrlCrossRefPubMed
  30. 30.↵
    1. Walton DM,
    2. Sadi J
    . Identifying SLAP lesions: a meta-analysis of clinical tests and exercise in clinical reasoning. Phys Ther Sport 2008;9:167–76.
    OpenUrlCrossRefPubMed
  31. 31.↵
    1. Meserve BB,
    2. Cleland JA,
    3. Boucher TR
    . A meta-analysis examining clinical test utility for assessing superior labral anterior posterior lesions. Am J Sports Med 2009;37:2252–8.
    OpenUrlCrossRefPubMed
  32. 32.↵
    1. Arirachakaran A,
    2. Boonard M,
    3. Chaijenkij K,
    4. Pituckanotai K,
    5. Prommahachai A,
    6. Kongtharvonskul J
    . A systematic review and meta-analysis of diagnostic test of MRA versus MRI for detection superior labrum anterior to posterior lesions type II-VII. Skeletal Radiol 2017;46:149–60.
    OpenUrlPubMed
  33. 33.↵
    1. Jain NB,
    2. Luz J,
    3. Higgins LD,
    4. et al
    . The diagnostic accuracy of special tests for rotator cuff tear: the ROW Cohort Study. Am J Phys Med Rehabil 2017;96:176–83.
    OpenUrlPubMed
  34. 34.↵
    1. Miniaci A,
    2. Mascia AT,
    3. Salonen DC,
    4. Becker EJ
    . Magnetic resonance imaging of the shoulder in asymptomatic professional baseball pitchers. Am J Sports Med 2002;30:66–73.
    OpenUrlPubMed
  35. 35.↵
    1. Mathew CJ,
    2. Lintner DM
    . Superior labral anterior to posterior tear management in athletes. Open Orthop J 2018;12:303–13.
    OpenUrlPubMed
  36. 36.↵
    1. Schwartzberg R,
    2. Reuss BL,
    3. Burkhart BG,
    4. Butterfield M,
    5. Wu JY,
    6. McLean KW
    . High Prevalence of superior labral tears diagnosed by MRI in middle-aged patients with asymptomatic shoulders. Orthop J Sports Med 2016;4:2325967115623212.
    OpenUrlCrossRefPubMed
  37. 37.↵
    1. Tupe RN,
    2. Tiwari V
    . Anteroinferior glenoid labrum lesion (Bankart lesion). In: StatPearls. Treasure Island (FL). 2023.
  38. 38.↵
    1. Manske RC,
    2. Prohaska D
    . Diagnosis and management of adhesive capsulitis. Curr Rev Musculoskelet Med 2008;1:180–9.
    OpenUrlCrossRefPubMed
  39. 39.↵
    1. Date A,
    2. Rahman L
    . Frozen Shoulder: overview of clinical presentation and review of the current evidence base for management strategies. Future Sci OA 2020;6:FSO647.
    OpenUrl
  40. 40.↵
    1. Sofka CM,
    2. Ciavarra GA,
    3. Hannafin JA,
    4. Cordasco FA,
    5. Potter HG
    . Magnetic resonance imaging of adhesive capsulitis: correlation with clinical staging. HSS J 2008;4:164–9.
    OpenUrlCrossRefPubMed
  41. 41.↵
    1. Chen R,
    2. Jiang C,
    3. Huang G
    . Comparison of intra-articular and subacromial corticosteroid injection in frozen shoulder: a meta-analysis of randomized controlled trials. Int J Surg 2019;68:92–103.
    OpenUrlCrossRefPubMed
  42. 42.↵
    1. Tveita EK,
    2. Tariq R,
    3. Sesseng S,
    4. Juel NG,
    5. Bautz-Holter E
    . Hydrodilatation, corticosteroids and adhesive capsulitis: a randomized controlled trial. BMC Musculoskelet Disord 2008;9:53.
    OpenUrlCrossRefPubMed
  43. 43.↵
    1. Uppal HS,
    2. Evans JP,
    3. Smith C
    . Frozen shoulder: a systematic review of therapeutic options. World J Orthop 2015;6:263–8.
    OpenUrlCrossRefPubMed
  44. 44.↵
    1. Le HV,
    2. Lee SJ,
    3. Nazarian A,
    4. Rodriguez EK
    . Adhesive capsulitis of the shoulder: review of pathophysiology and current clinical treatments. Shoulder Elbow 2017;9:75–84.
    OpenUrlCrossRefPubMed
  45. 45.↵
    1. Ibounig T,
    2. Simons T,
    3. Launonen A,
    4. Paavola M
    . Glenohumeral osteoarthritis: an overview of etiology and diagnostics. Scand J Surg 2021;110:441–51.
    OpenUrlCrossRefPubMed
  46. 46.↵
    1. Ansok CB,
    2. Muh SJ
    . Optimal management of glenohumeral osteoarthritis. Orthop Res Rev 2018;10:9–18.
    OpenUrlPubMed
  47. 47.↵
    1. Khazzam MS,
    2. Pearl ML
    . AAOS clinical practice guideline: management of glenohumeral joint osteoarthritis. J Am Acad Orthop Surg 2020;28:790–4.
    OpenUrlCrossRefPubMed
  48. 48.↵
    1. Macias-Hernandez SI,
    2. Morones-Alba JD,
    3. Miranda-Duarte A,
    4. et al
    . Glenohumeral osteoarthritis: overview, therapy, and rehabilitation. Disabil Rehabil 2017;39:1674–82.
    OpenUrlPubMed
  49. 49.↵
    1. Lee SH,
    2. Choi HH,
    3. Lee DG
    . Effectiveness of new nerve blocks method on the articular branches of the suprascapular and subscapular nerves to treat shoulder pain. Medicine (Baltimore) 2020;99:e22050.
    OpenUrlPubMed
  50. 50.↵
    1. Patel M,
    2. Amini MH
    . Management of acute rotator cuff tears. Orthop Clin North Am 2022;53:69–76.
    OpenUrlPubMed
  51. 51.↵
    1. Petersen SA,
    2. Murphy TP
    . The timing of rotator cuff repair for the restoration of function. J Shoulder Elbow Surg 2011;20:62–8.
    OpenUrlCrossRefPubMed
  52. 52.↵
    1. Ferrante MA,
    2. Ferrante ND
    . The thoracic outlet syndromes: part 2. The arterial, venous, neurovascular, and disputed thoracic outlet syndromes. Muscle Nerve 2017;56:663–73.
    OpenUrlCrossRefPubMed
  53. 53.↵
    1. Sanders RJ,
    2. Hammond SL,
    3. Rao NM
    . Diagnosis of thoracic outlet syndrome. J Vasc Surg 2007;46:601–4.
    OpenUrlCrossRefPubMed
  54. 54.↵
    1. Jones MR,
    2. Prabhakar A,
    3. Viswanath O,
    4. et al
    . Thoracic outlet syndrome: a comprehensive review of pathophysiology, diagnosis, and treatment. Pain Ther 2019;8:5–18.
    OpenUrlPubMed
  55. 55.↵
    1. Kuhn JE,
    2. Lebus VG,
    3. Bible JE
    . Thoracic outlet syndrome. J Am Acad Orthop Surg 2015;23:222–32.
    OpenUrlCrossRefPubMed
  56. 56.↵
    1. Al Khalili Y,
    2. Jain S,
    3. Lam JC,
    4. DeCastro A
    . Brachial neuritis. In: StatPearls. Treasure Island (FL). 2023.
  57. 57.↵
    1. Gonzalez-Alegre P,
    2. Recober A,
    3. Kelkar P
    . Idiopathic brachial neuritis. Iowa Orthop J 2002;22:81–5.
    OpenUrlPubMed
  58. 58.↵
    1. van Alfen N,
    2. van Engelen BG
    . The clinical spectrum of neuralgic amyotrophy in 246 cases. Brain 2006;129:438–50.
    OpenUrlCrossRefPubMed
  59. 59.↵
    1. Rios CG,
    2. Mazzocca AD
    . Acromioclavicular joint problems in athletes and new methods of management. Clin Sports Med 2008;27:763–88.
    OpenUrlCrossRefPubMed
  60. 60.↵
    1. Schwarzkopf R,
    2. Ishak C,
    3. Elman M,
    4. Gelber J,
    5. Strauss DN,
    6. Jazrawi LM
    . Distal clavicular osteolysis: a review of the literature. Bull NYU Hosp Jt Dis 2008;66:94–101.
    OpenUrlPubMed
  61. 61.
    1. Hegedus EJ,
    2. Goode AP,
    3. Cook CE,
    4. et al
    . Which physical examination tests provide clinicians with the most value when examining the shoulder? Update of a systematic review with meta-analysis of individual tests. Br J Sports Med 2012;46(14):964–978.
    OpenUrlAbstract/FREE Full Text
  62. 62.
    1. Park HB,
    2. Yokota A,
    3. Gill HS,
    4. El Rassi G,
    5. McFarland EG
    . Diagnostic accuracy of clinical tests for the different degrees of subacromial impingement syndrome. J Bone Joint Surg Am 2005;87(7):1446–1455.
    OpenUrlAbstract/FREE Full Text
  63. 63.
    1. Gismervik SO,
    2. Drogset JO,
    3. Granviken F,
    4. Ro M,
    5. Leivseth G
    . Physical examination tests of the shoulder: a systematic review and meta-analysis of diagnostic test performance. BMC Musculoskelet Disord 2017;18(1):41.
    OpenUrlCrossRefPubMed
  64. 64.
    1. Kappe T,
    2. Sgroi M,
    3. Reichel H,
    4. Daexle M
    . Diagnostic performance of clinical tests for subscapularis tendon tears. Knee Surg Sports Traumatol Arthrosc 2018;26(1):176–181.
    OpenUrlPubMed
PreviousNext
Back to top

In this issue

The Journal of the American Board of Family     Medicine: 37 (6)
The Journal of the American Board of Family Medicine
Vol. 37, Issue 6
November-December 2024
  • Table of Contents
  • Table of Contents (PDF)
  • Cover (PDF)
  • Index by author
  • Back Matter (PDF)
  • Front Matter (PDF)
Print
Download PDF
Article Alerts
Sign In to Email Alerts with your Email Address
Email Article

Thank you for your interest in spreading the word on American Board of Family Medicine.

NOTE: We only request your email address so that the person you are recommending the page to knows that you wanted them to see it, and that it is not junk mail. We do not capture any email address.

Enter multiple addresses on separate lines or separate them with commas.
A Simplified Approach to Evaluate and Manage Shoulder Pain
(Your Name) has sent you a message from American Board of Family Medicine
(Your Name) thought you would like to see the American Board of Family Medicine web site.
CAPTCHA
This question is for testing whether or not you are a human visitor and to prevent automated spam submissions.
2 + 2 =
Solve this simple math problem and enter the result. E.g. for 1+3, enter 4.
Citation Tools
A Simplified Approach to Evaluate and Manage Shoulder Pain
Kartik Sidhar, Hyung Jin Lim, Laurel Gutierrez
The Journal of the American Board of Family Medicine Nov 2024, 37 (6) 1156-1166; DOI: 10.3122/jabfm.2024.240114R2

Citation Manager Formats

  • BibTeX
  • Bookends
  • EasyBib
  • EndNote (tagged)
  • EndNote 8 (xml)
  • Medlars
  • Mendeley
  • Papers
  • RefWorks Tagged
  • Ref Manager
  • RIS
  • Zotero
Share
A Simplified Approach to Evaluate and Manage Shoulder Pain
Kartik Sidhar, Hyung Jin Lim, Laurel Gutierrez
The Journal of the American Board of Family Medicine Nov 2024, 37 (6) 1156-1166; DOI: 10.3122/jabfm.2024.240114R2
Twitter logo Facebook logo Mendeley logo
  • Tweet Widget
  • Facebook Like
  • Google Plus One

Jump to section

  • Article
    • Abstract
    • Introduction
    • History
    • Physical Examination
    • Terminology
    • Evaluating Shoulder Pain
    • Preserved Range of Motion
    • Loss of Active and Passive Range of Motion
    • Loss of Active Range of Motion, Preserved Passive Range of Motion
    • Less Common Causes of Shoulder Pain
    • Non-Musculoskeletal Causes of Shoulder Pain
    • Conclusion
    • Notes
    • References
  • Figures & Data
  • References
  • Info & Metrics
  • PDF

Related Articles

  • No related articles found.
  • PubMed
  • Google Scholar

Cited By...

  • Improving Health Through Family Medicine: New Opportunities, Missed Opportunities
  • Google Scholar

More in this TOC Section

  • Practical Recommendations for Minimizing Pain and Anxiety with IUD Insertion
  • Treatment of Vasomotor Symptoms
Show more Evidence-Based Clinical Medicine

Similar Articles

Keywords

  • Diagnostic Ultrasound
  • Physical Examination
  • Physical Therapy
  • Range of Motion
  • Rotator Cuff Injuries
  • Shoulder Pain
  • Sports Medicine

Navigate

  • Home
  • Current Issue
  • Past Issues

Authors & Reviewers

  • Info For Authors
  • Info For Reviewers
  • Submit A Manuscript/Review

Other Services

  • Get Email Alerts
  • Classifieds
  • Reprints and Permissions

Other Resources

  • Forms
  • Contact Us
  • ABFM News

© 2025 American Board of Family Medicine

Powered by HighWire