Impingement, Subacromial Bursitis and Rotator Cuff Tendinitis

By admin On Sep 21, 2023

Ovid: 5-Minute Sports Medicine Consult, The

Mark E. Lavallee

Emily C. McDevitt

Basics

Description

Repetitive shoulder activity causes breakdown in the rotator cuff muscles from tensile overload and results in tendinopathy.
Weakness in the rotator cuff muscles (supraspinatus, infraspinatus, teres minor, or subscapularis) results in loss of effective dynamic glenohumeral movement.
This causes impingement of the cuff muscles under the acromion, enhancing the pain and inflammation.
Synonym(s): Calcific tendonitis of the shoulder; Subacromial bursitis; Shoulder impingement syndrome

Epidemiology

Very common in athletes, especially in those with repetitive motion of the arms (ie, throwing, racquet sports, swimming, weight lifting)
In individuals <25 yrs of age, impingement is usually related to laxity caused by instability.
In those 25–40 yrs of age, impingement is usually due to overuse of the rotator cuff.
In those >40 yrs of age, impingement is caused by use of the cuff muscles over threshold. This may result in partial- or full-thickness tears in addition to impingement (1)[C].

Risk Factors

Weight lifting (Olympic style)
Throwing or racquet sports
“Industrial” athletics (repetitive, overhead motion)
Shoulder instability
Previous shoulder surgery or trauma (to ipsilateral or contralateral shoulder)
Individuals with more “hooked” acromions (type III > type II > type I)
Smoking

Commonly Associated Conditions

Rotator cuff tear (partial or full)
Adhesive capsulitis
Thoracic outlet syndrome
Brachial plexus injury
Axillary nerve entrapment
Pancoast tumor

Diagnosis

History

Rule out cervical spine disease, neck pain.
Symptoms: Weakness, crepitation, numbness, “slipped out,” night pain, dead arm (3)[B]
Exacerbation: Pain presents more at rest or with activity
Duration: Chronic (overuse) versus acute (traumatic)
Activation: Right or left handed, type of job, sports, hobby
History of previous trauma or surgery

Physical Exam

Shoulder pain with overhead activity
Weakness in the shoulder musculature
Crepitations
Numbness/paresthesias (usually between the lateral neck to the elbow)
Night pain
Pain at rest (usually in more severe cases)
Medial upper scapular border or medial upper trapezius pain (2)[C]
Observation:
- How the athlete carries arm/shoulder (ie, recent dislocation, guarding)
- Deltoid atrophy (ie, C5 plexus injury)
- Scapular winging (ie, long thoracic nerve palsy) (3)[C]
- Infraspinatus fossa scalloping (inferior branch of the suprascapular nerve)
Palpation:
- Cervical spinous process: Rule out cervical neck pathology as cause of shoulder pain (4)[A].
- Subacromial bursa: Distal to acromion
- Biceps tendon (long head)/bicipital groove
- Insertion of the deltoid on the humerus: Pain at site but no pain with palpation; axillary nerve pain referral site
- Coracoid process: Pain referral site for impingement
Range of motion (ROM) (2):
- Abduction (0–180 degrees)
- Adduction (0–50 degrees)
- Flexion: Forward (0–180 degrees) and horizontal (0–130 degrees)
- Extension (0–90 degrees)
- Internal rotation (0–100 degrees) (adduction and internal rotation: “Bra strap”)
- External rotation (0–60 degrees) (abduction and external rotation: “Shampoo hair”)
Manual muscle testing:
- Deltoid: Full abduction, resist at 90 degrees
- Supraspinatus: Abduction to 90 degrees, 30 degrees forward flexion, resist downward pressure
- Infraspinatus and teres minor: Arm at side, 90 degrees at elbow, resist external rotation (ie, “opening the door”)
- Subscapularis: Hand behind back, push-off; Gerber's lift-off test
Special tests:
- Hawkin's test: 90 degrees of forward flexion at the shoulder and elbow, support elbow, pain with internal rotation of arm (4)[B]
- Arc test: Shoulder abduction, gets “stuck” or painful at 60–120 degrees (2)[B]
- Infraspinatus test: 90 degrees of flexion at the elbow, elbow held against body while patient attempts to externally rotate arm against examiner's resistance, pain in shoulder with external rotation (4)[B]
- Neer test: Arm straight, thumb down, passive forward flexion (pain at 60–120 degrees) (2)[B]
- Impingement test: Inject subacromial bursa with lidocaine; helps to differentiate between impingement and tear; after injection, pain, ROM, and strength should improve if impingement and not a tear (2)[B].
- Drop arm test: Patient cannot hold arm at 90 degrees of abduction; indicates cuff tear (2)[A].
- Speed test: Arm straight, forward flexion to 90 degrees, palm up, resisted downward pressure; palpate the bicipital tendon at groove; pain indicates bicipital tendonitis (2)[B].

Diagnostic Tests & Interpretation

Imaging

Imaging is often not needed in light of good history and physical exam and a straightforward case.
Radiography:
- Anteroposterior (AP) view and axillary (transscapular) views bare minimum to order; radiographs helpful for acute injuries to rule out fractures, dislocations; with impingement, may be helpful to get additional views (1)[C]
- Internal and external AP rotational views help to visualize humerus (ie, Hill-Sacks lesions) (3)[C].
- Stryker notch view helps to visualize posterolateral humeral head deformity (ie, Hill-Sacks lesions) (3)[C].
- West Point (modified axillary) view allows visualization of the anterior/inferior glenoid (ie, Bankhart lesions) (1)[C].
- Outlet or Alexander view allows for visualization of subacromial space; helpful in elderly patients with severe impingement (3)[C].
- Calcification on the tendon is associated with bicipital tendonitis or severe impingement.

P.329

US:
- Though dependent on skill and comfort of practitioner, can be cost-effective in-office imaging choice for static and dynamic view of soft tissue structures of the shoulder (ie, rotator cuff muscles, biceps tendons, subacromial bursa, calcification in tendons) (3)[C],(5)[A]
- Also can be used to guide injections into biceps tendon sheath, subacromial bursa, or intraarticular area
MRI:
- In severe or confusing cases, MRI is helpful in diagnosis of rotator cuff tears, labrum tears, biceps tendon rupture, as well as assessing volume and capsule thickening in adhesive capsulitis.
- An MRI arthrogram is often useful to further displace a torn labrum, thus improving visualization of the anatomy (1)[C].
Electromyography/nerve conduction study: Helpful if there is weakness in addition to an altered neurologic exam (sensation, reflexes) etc.; has the highest sensitivity when symptoms have persisted >3 wks

Differential Diagnosis

Rotator cuff tear (partial or full thickness)
Adhesive capsulitis
Acromioclavicular sprain/injury
Labral tear
Bicipital tendonitis
Thoracic outlet syndrome
Brachial plexus injury
Fracture: Clavicle, humerus, scapula
Subluxation of glenohumeral joint
Axillary nerve entrapment
Pancoast tumor
Bankhart lesion (avulsion fracture of glenoid)
Hill-Sacks lesion (impact fracture of humeral head)
Septic arthritis
Glenohumeral arthritis
Thrombosis of subclavian or brachial artery

Treatment

Medication

Oral analgesia: NSAIDs, acetaminophen, tramadol; in severe cases, short-term pain relief with narcotics. Prednisone: Short course of 40 mg daily × 5 days (1)[A]
Dermal: Topical cream or transdermal patches (NSAID- or lidocaine-based)
Injectable: Subacromial bursa injection (5–10 mL 2:2:1 mixture of lidocaine, Marcaine, corticosteroid; use a 22–25-gauge, 1.5-in-long needle) (1)[A]

Additional Treatment

Management of acute phase:
- Relative rest: Decrease use of affected shoulder (1)[C]
- Home exercise program (HEP): Exercise done daily, 3 sets per exercise
- ROM: Dangling arm circles, finger wall-walking, broom-handle exercises
- Strengthening: Sword-from-sheath exercises, posterior dumbbell raises, proprioceptive neuromuscular facilitation (PNF), augmented soft tissue mobilization (ASTM), scapular stabilizing exercises using light weights or flexible elastic cords (1)[C]
Rehabilitation for long-term treatment:
- Formal physical therapy: Pain relief via contrast baths, hydrocollator, ice, mobilization/manipulation, modalities (e-stim, US) (1)[C]
- ROM strengthening: Deltoid, rotator cuff musculature, scapular stabilizers, biceps
- ROM flexibility: Biceps, triceps, glenohumeral joint
- Transmembrane corticosteroid (ie, phono-phoresis, iontophoresis)
- Return to normal function
- Sports-specific retraining

Additional Therapies

In the younger athlete, impingement is often due to another underlying problem (ie, instability).
Certain athletes (ie, mentally challenged, unmotivated, etc.) may need assistance of formal physical therapy without a trial of HEP.

Complementary and Alternative Medicine

Mentioned in literature for recalcitrant cases: Prolotherapy, platelet-rich plasma injections, acupuncture, and topical nitrates

Surgery/Other Procedures

Anterior acromioplasty: The acromion is “shaved” to allow more space for the rotator cuff. It is used only if conservative measures fail. There is a less favorable outcome in younger (50% success rate) than older athletes (1)[C].
Surgical débridement/repair of rotator cuff: Often accompanies an anterior acromioplasty
Surgical débridement/repair of labrum

Ongoing Care

Follow-Up Recommendations

Presence of a fever and a tense joint capsule (ie, a potentially septic joint)
Severe disease that is refractory to physical therapy, modalities, and steroid injections
Rotator cuff tear, full or partial thickness, nonresponsive to conservative care
Extra cervical rib, causing shoulder symptoms
SLAP lesion
Gross instability of shoulder not improved with physical therapy

References

1. Burbank KM, Stevenson JH, Czarnecki GR, et al. Chronic shoulder pain: part II. Treatment. Am Fam Physician. 2008;77:493–497.

2. McFarland E, Tanaka M, Papp D. Examination of the shoulder in the overhead and throwing athletes. Clin. Sports Med. 2008;(27):553–578.

3. Burbank KM, Stevenson JH, Czarnecki GR, et al. Chronic shoulder pain: part I. Evaluation and diagnosis. Am Fam Physician. 2008;77:453–460.

4. Parker B, Zlatkin M, Newman J, et al. Imaging of shoulder injuries in sports medicine: current concepts and protocols. Clin Sports Med. 2008;(27):579–606.

5. Iannotti J, et al. Accuracy of office-based ultrasonography of the shoulder for the diagnosis of rotator cuff tears. J Bone Joint Surg. 2005;(87-A)6:1305–1311.

Codes

ICD9

726.10 Disorders of bursae and tendons in shoulder region, unspecified
726.11 Calcifying tendinitis of shoulder
726.12 Bicipital tenosynovitis