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Introduction
Indications
RELEVANT ANATOMY
Contraindications
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Treatment
Complications
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AUTHOR AND EDITOR INFORMATION

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Author: Albert W Pearsall IV, MD, Associate Professor, Department of Orthopedic Surgery, University of South Alabama; Director, Section of Sports Medicine and Shoulder Service, Department of Orthopedic Surgery, University of South Alabama Medical Center

Editors: Lynn A Crosby, MD, FACS, Chief of Shoulder Division, Professor, Department of Orthopedic Surgery, Wright State University School of Medicine; Francisco Talavera, PharmD, PhD, Senior Pharmacy Editor, eMedicine; Pekka A Mooar, MD, Associate Professor, Department of Orthopedic Surgery, Temple University School of Medicine; Dinesh Patel, MD, FACS, Associate Clinical Professor of Orthopedic Surgery, Harvard Medical School; Chief of Arthroscopic Surgery, Department of Orthopedic Surgery, Massachusetts General Hospital; Mary Ann E Keenan, MD, Professor, Vice Chair for Graduate Medical Education, Department of Orthopedic Surgery, University of Pennsylvania School of Medicine; Chief of Neuro-Orthopedics Program, Department of Orthopedic Surgery, Hospital of the University of Pennsylvania

Author and Editor Disclosure

Synonyms and related keywords: adhesive capsulitis, frozen shoulder, frozen shoulder syndrome, FSS, bursitis, joint disease, capsulitis shoulder, adhesive shoulder, adhesive joint, frozen shoulder treatment, shoulder pain, stiff shoulder

INTRODUCTION

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Adhesive capsulitis and frozen shoulder syndrome (FSS) are 2 terms that have been used to describe an array of clinical conditions, including subacromial bursitis, calcifying tendinitis, and partial rotator cuff tears. Despite the diverse nomenclature used to describe FSS, all of these terms denote different clinical conditions that may cause the painful restriction of active and passive glenohumeral and periscapular shoulder motion.

Lundberg divided patients who met the pain and motion requirements of frozen shoulder into 2 groups: primary and secondary.1 A patient meets the criteria of primary or secondary FSS if painful, restricted active and passive glenohumeral and scapulothoracic motion occurs for at least 1-month duration and has either reached a plateau or worsened. This inclusion period for defining frozen shoulder is similar to that described by Binder and colleagues2, 3 but is shorter than that defined by Lloyd-Roberts and coworkers.4

Patients with primary frozen shoulder have no significant findings in the history, clinical examination, or radiographic evaluation to explain their motion loss and pain. Classically, symptoms of primary frozen shoulder have been divided into 3 phases: (1) the painful phase, (2) the stiffening phase, and (3) the thawing phase. In the initial painful phase, there is a gradual onset of diffuse shoulder pain lasting from weeks to months. The stiffening phase is characterized by a progressive loss of motion that may last up to 1 year. Most patients lose glenohumeral external rotation, internal rotation, and abduction during this phase. The final, thawing phase is measured in weeks to months and constitutes a period of gradual motion improvement. Once in this phase, the patient may require up to 9 months to regain a functional range of motion (ROM).5, 6, 7, 8

In contrast to patients with primary FSS, patients with secondary FSS describe an event that preceded shoulder symptomatology, such as trauma or surgery to the affected upper extremity.

Related eMedicine topics:
Shoulder Impingement Syndrome
Arthrocentesis, Shoulder

Related Medscape topics:
CME/CE Management of Chronic Shoulder Disorders Reviewed
Resource Center Joint Disorders
Specialty Site Orthopaedics

Problem

Codman originally coined the term frozen shoulder to describe a condition with signs and symptoms that include slow-onset shoulder pain, localized discomfort near the deltoid insertion, an inability to sleep on the affected side, restricted glenohumeral elevation and external rotation, and a normal radiologic appearance.9 The inclusion criteria for FSS include painful restriction of active and passive glenohumeral and/or periscapular motion. Despite these criteria, diagnosing FSS can be controversial because there is little consensus on specific shoulder motion restrictions or duration of symptoms needed to qualify a patient as having a frozen shoulder. Although various authors have classified patients with FSS as those with limited abduction from 45-135º, it is still primarily a clinical diagnosis based on clinical motion loss and symptoms.

Frequency

Frozen shoulder syndrome usually affects patients aged 40-70 years. Incidence of FSS is not precisely known; however, it is estimated that 3% of people develop the disease over their lifetime. Males tend to be affected less frequently than females, and there is no predilection for race.

Adhesive capsulitis has been associated with several conditions. A higher incidence of frozen shoulder exists among patients with diabetes (10-20%) compared with the general population (2-5%). Incidence among patients with insulin-dependent diabetes is even higher (36%), with an increased frequency of bilateral shoulder involvement.10

Etiology

Duplay was one of the first physicians to present the concept of periarticular tissue pathology rather than periarticular arthritis as the cause of frozen shoulder.11 Despite a lack of evidence linking frozen shoulder to a specific etiology, various triggers that may predispose patients to this problem appear to exist. A few reported etiologic agents include the following:

  • Trauma
  • Surgery (including but not limited to shoulder surgery)
  • Inflammatory disease
  • Diabetes
  • Regional conditions
  • Various shoulder maladies

In addition, an autoimmune theory has been postulated, with elevated levels of C-reactive protein and an increased incidence of HLA-B27 histocompatibility antigen reported in patients with frozen shoulder versus controls. DePalma proposed that muscular inactivity was a major etiologic factor,12 while Bridgman identified an increased incidence of FSS in patients with diabetes mellitus.13 Finally, frozen shoulder also has been associated with cervical disease, hyperthyroidism, and ischemic heart disease.

Most patients with FSS have a period of shoulder immobilization. Reasons for immobilization can be diverse; however, the common finding in all of these patients is a period of restricted shoulder motion. In a study of neurosurgery patients who immobilized their shoulders for varying periods, Bruckner noted an incidence of frozen shoulder that was 5-9 times greater than that found in the general population.14

Clinical

Prior to examining the patient, a thorough clinical history should be elicited. Specifically, information should be gathered regarding onset of symptoms, any antecedent trauma or surgery, affected side(s), and duration of symptoms. The patient should be queried about any existing conditions. Since adhesive capsulitis is associated with diabetes, it is imperative to screen any new patient presenting with suggested frozen shoulder syndrome for diabetes. Adhesive capsulitis has also been reported in patients with hyperthyroidism, ischemic heart disease, and cervical spondylosis. Any previous treatments that the patient has received for this condition should be documented, as should the individual's current medication list. Questions should be directed toward any upper extremity neurologic complaints, including cervical radiculopathy. Any history of cervical pain or radiculopathy should be thoroughly evaluated during the clinical examination to exclude a diagnosis of cervical spondylosisor cervical disc disease.

The patient's posture should be observed while he or she is wearing a gown and sitting on a stool. It should also be noted whether the patient is listing to one side secondary to pain and whether he or she is holding the neck to one side secondary to spasm or pain. Observations during this period help determine whether a cervical condition may be contributing to the patient's symptomatology.


INDICATIONS

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Refractory shoulder periscapular pain and limited glenohumeral motion that persists despite a period of at least 3 months of attempted conservative treatment are indications for surgery. The conservative treatment should include the following:

  • Physical therapy for ROM of the shoulder15, 16
  • A course of prednisone17
  • A subacromial injection at least once but not more than twice within a 3-month period
  • A course of anti-inflammatory medication when the patient is not taking prednisone


RELEVANT ANATOMY

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Critical to the understanding of frozen shoulder syndrome is the concept that shoulder function involves not only the glenohumeral joint but also scapulothoracic articulation. Clinicians must understand the essential role that the scapula plays in facilitating glenohumeral motion. Scapulothoracic and glenohumeral motion occur simultaneously following initial arm abduction. With arm abduction in individuals who are healthy, approximately one third of elevation is attributed to scapulothoracic motion, while two thirds of elevation is provided by glenohumeral motion. The glenohumeral joint is enclosed by the joint capsule and is surrounded by 2 sleeves of muscles. The capsule normally is a loose structure with a surface area nearly twice as large as that of the humeral head. The rotator cuff tendons adjacent to the joint capsule thicken the capsule anteriorly, posteriorly, and superiorly, while the glenohumeral ligaments represent further areas of joint capsule thickening.

Histologically, the capsule consists of bundles of type I collagen. Synovial cells line the inner surface of the capsule and enclose the long head of the biceps tendon.


CONTRAINDICATIONS

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Contraindications to surgical intervention for recalcitrant frozen shoulder include the following:

  • Concomitant neurologic complaints or abnormalities originating from the cervical spine
  • An inadequate trial of conservative therapy (<3 mo)
  • Ongoing infection of any type18
  • Isolated capsular release in the face of adhesive capsulitis and concomitant glenohumeral arthritis (In this situation, capsular release or lengthening should be performed in conjunction with total shoulder arthroplasty.)
  • Ongoing oncologic process involving the affected shoulder

 


WORKUP

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Lab Studies

  • Laboratory studies rarely are required for the evaluation of adhesive capsulitis. However, if a predisposing medical condition that may be contributing to adhesive capsulitis is suggested, the following tests may be ordered:
    • CBC
    • Erythrocyte sedimentation rate (ESR)
    • C-reactive protein
    • Serum blood sugar
    • Thyroid stimulating hormone (TSH)
    • Free thyroxine index (FTI)
  • Although an orthopedic surgeon may order these tests, results should be forwarded to the patient's internist for further evaluation.

Imaging Studies

  • Routine radiographs of the shoulder should be obtained in all cases to rule out any pathologic process. These radiographs should include the anteroposterior (AP) view of the glenohumeral joint in neutral rotation, the supraspinatus outlet view, and the axillary lateral view (if possible).
  • Magnetic resonance imaging (MRI) is not initially indicated in cases of adhesive capsulitis. Due to the global pain associated with frozen shoulder, MRI is an expensive and nonspecific test. However, if the patient does not improve after a period of time (6 wk to 3 mo), then MRI is appropriate to rule out a possible rotator cuff tear or intra-articular pathology.

Histologic Findings

Many patients with adhesive capsulitis demonstrate arthroscopic evidence of proliferative synovitis, capsular and intra-articular subscapularis tendon thickening, and fibrosis and chronic inflammatory cells. The majority of significant synovitis is noted, although it is not limited to the anterior capsule. In addition, most patients demonstrate significant subacromial fibrosis. In one study, the author noted that approximately 40% of patients had significant subacromial fibrosis, regardless of preoperative etiology.


TREATMENT

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Medical Therapy

Idiopathic adhesive capsulitis affecting the glenohumeral joint is believed to be self-limiting and is often treated effectively with physical therapy and medications. However, studies on the natural history of the condition have noted long-term pain in many patients following nonoperative treatment, with as many as 10% of patients never fully recovering normal shoulder activities.

Various authors have reported an inflammatory component to frozen shoulder syndrome. Therefore, the use of nonsteroidal medications in the initial treatment phase of frozen shoulder is recommended. By diminishing inflammation and pain, the patient is better able to tolerate aggressive physical therapy. Before the patient is prescribed any medication, he or she should be queried about any contraindications to nonsteroidal medicines.

Depending on the severity of symptoms, a 3-week tapered course of oral corticosteroids should be prescribed in lieu of nonsteroidal medication (see Table 1). Due to potential side effects of this medicine, the patient should be thoroughly questioned regarding past medical history, including diabetes mellitus. Diabetes mellitus is not an absolute contraindication to the use of oral corticosteroids; however, because of the potential hyperglycemic effects of corticosteroids, it should be used judiciously and the patient's blood glucose should be closely monitored. The use of low-dose oral corticosteroids is recommended only in cases of severe refractory frozen shoulder that has either been present for an extended period (ie, longer than 2 mo) or is causing significant pain.19, 10, 20

Oral corticosteroids provide an even stronger anti-inflammatory effect than do nonsteroidal medications. Either type of medication may be used in conjunction with a subacromial corticosteroid injection.

Because adhesive capsulitis is rare in children, any of the previously mentioned medications rarely are used in this population. Most pediatric patients respond to conservative physical therapy without the use of medications.


Table 1                                                                                      

Corticosteroid Dosing in Patients With Refractive Frozen Shoulder Syndrome*      
Week Number Medication Dose
1 (Days 1-7)Prednisone40 mg/d
2 (Days 8-14)Prednisone30 mg/d
3 (Days 15-18)Prednisone20 mg/d
4 (Days 19-21)Prednisone10 mg/d
5 (Days 22+)Discontinue----

*Before oral corticosteroid medication is prescribed, the patient should be extensively questioned about pertinent medical problems that may be contraindications to taking the medicine.


Surgical Therapy

A subgroup of patients with frozen shoulder syndrome often fail to improve despite treatment with aggressive nonsurgical therapy and medication. These patients frequently are referred to as having a refractory or recalcitrant frozen shoulder. Specifically, these patients demonstrate minimal improvement in shoulder pain and motion over a 3-month period, despite the use of aggressive nonoperative measures, including medications and physical therapy. In these refractory cases, more invasive techniques (eg, manipulation, distention arthrography, open surgical release) may be needed.

Although several authors have championed the success of these therapies, significant complications, ranging from biceps tendon sheath and subscapularis tendon rupture to humeral fracture, have been reported with various nonsurgical treatments. Ogilvie-Harris and Warner have demonstrated the efficacy of arthroscopic capsular release for the refractory frozen shoulder.21, 22, 23 Based on these reports and work by others, a selective arthroscopic capsular release is recommended for patients with refractory frozen shoulder.

Following a thorough preoperative assessment of the affected and unaffected shoulder's passive range of motion (PROM), standard arthroscopic shoulder portals are established. Based on the preoperative examination, the anterior and/or posterior glenohumeral joint capsule is released with electrocautery (see Image 1). Before the patient is taken from the operating room, the individual's ROM is documented and compared with his or her presurgical motion. With 24-48 hours of postoperative pain relief provided by a preoperative interscalene block, ROM exercises should be initiated on the day of surgery. A 2-week course of oral corticosteroids also should be initiated on the day of surgery.

Postoperative Details

Further inpatient care is indicated only in refractory patients. Patients receiving arthroscopic or open capsular release frequently are in the hospital for several days to permit interscalene anesthesia and aggressive, monitored physical therapy. However, patients rarely have to return to the hospital following the initial surgery. A small group of patients with adhesive capsulitis relapse, despite surgical intervention and physical therapy; admitting these patients for interscalene anesthesia and aggressive physical therapy may be appropriate.

Most patients with adhesive capsulitis use either an anti-inflammatory medication or a short course of an oral corticosteroid. Occasionally, patients may require medication for pain. A chronic-pain medication such as Neurontin or Elavil is preferred for these symptoms.

Follow-up

Patients with adhesive capsulitis—those who have been treated with conservative therapy and those who have had surgical intervention—should be closely monitored as outpatients. Usually, supervised or home physical therapy is a component of  treatment. In addition, the patient may be taking oral corticosteroids, which must be monitored for side effects. The patient should be monitored every several weeks to document progress.

The patient should be monitored at 2-week intervals for the first month after surgery. Thereafter, follow-up intervals can be increased from 6 weeks to 3 months, as needed.


COMPLICATIONS

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The predominant complication arising from adhesive capsulitis is residual shoulder stiffness or pain. Several reports have indicated that most patients may continue to have pain and/or stiffness for up to 3 years following conservative treatment. In addition, humeral fracture, biceps tendon rupture, and subscapularis tendon rupture have been reported after shoulder manipulation.


OUTCOME AND PROGNOSIS

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In the past, frozen shoulder was considered a self-limiting condition that could be treated with physical therapy and would resolve in 1-3 years. However, several studies have demonstrated long-term pain and shoulder stiffness following conservative treatment.

Several studies have noted improved symptoms following arthroscopic capsular release. Warner and colleagues reported an improvement in the Constant and Murley score of 48 points with a mean follow-up of 39 months.24 Pearsall and colleagues found that 83% of patients reported their shoulder to be normal or near normal at an average of 22 months following capsular release.25 Ogilvie-Harris noted that 15 of 18 patients treated with arthroscopic capsular release had an excellent result at 2-5 years following surgery. A review of the literature indicates that in patients with refractory adhesive capsulitis, a near-excellent to excellent result of 75-90% can be expected with arthroscopic capsular release and an aggressive postoperative physical therapy regimen.


FUTURE AND CONTROVERSIES

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Hyperthyroidism, ischemic heart disease, diabetes mellitus,10 and cervical spondylosis have been associated with the occurrence of adhesive capsulitis. Patients with these conditions should be alerted to the increased risk of developing frozen shoulder.


MULTIMEDIA

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Media file 1:  True anteroposterior view of the glenohumeral joint (left); axillary lateral view (middle); supraspinatus outlet view (right)
Click to see larger pictureClick to see detailView Full Size Image
Media type:  Image


REFERENCES

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  1. Lundberg BJ. The frozen shoulder. Clinical and radiographical observations. The effect of manipulation under general anesthesia. Structure and glycosaminoglycan content of the joint capsule. Local bone metabolism. Acta Orthop Scand Suppl. 1969;119:1-59. [Medline].
  2. Binder AI, Bulgen DY, Hazleman BL, et al. Frozen shoulder: a long-term prospective study. Ann Rheum Dis. Jun 1984;43(3):361-4. [Medline][Full Text].
  3. Binder AI, Bulgen DY, Hazleman BL, et al. Frozen shoulder: an arthrographic and radionuclear scan assessment. Ann Rheum Dis. Jun 1984;43(3):365-9. [Medline][Full Text].
  4. Lloyd-Roberts GC, French PR. Periarthritis of the shoulder. A study of the disease and its treatment. Br Med J. 1959;1:1569-71.
  5. Tveitå EK, Sandvik L, Ekeberg OM, Juel NG, Bautz-Holter E. Factor structure of the Shoulder Pain and Disability Index in patients with adhesive capsulitis. BMC Musculoskelet Disord. Jul 17 2008;9:103. [Medline].
  6. Tasto JP, Elias DW. Adhesive capsulitis. Sports Med Arthrosc. Dec 2007;15(4):216-21. [Medline].
  7. Hand C, Clipsham K, Rees JL, Carr AJ. Long-term outcome of frozen shoulder. J Shoulder Elbow Surg. Mar-Apr 2008;17(2):231-6. [Medline].
  8. Hand GC, Athanasou NA, Matthews T, Carr AJ. The pathology of frozen shoulder. J Bone Joint Surg Br. Jul 2007;89(7):928-32. [Medline].
  9. Codman EA. The shoulder. Boston, Mass: Thomas Todd; 1934.
  10. Tighe CB, Oakley WS Jr. The prevalence of a diabetic condition and adhesive capsulitis of the shoulder. South Med J. Jun 2008;101(6):591-5. [Medline].
  11. Duplay ES. De la periarthritis scapulohumerale et des raiderus de l'epaule qui en son la consequence. Arch Gen Med. 1872;20:513-42.
  12. DePalma AF. Loss of scapulohumeral motion (frozen shoulder). Ann Surg. 1952;135:193-204.
  13. Bridgman JF. Periarthritis of the shoulder and diabetes mellitus. Ann Rheum Dis. Jan 1972;31(1):69-71. [Medline][Full Text].
  14. Bruckner FE, Nye CJ. A prospective study of adhesive capsulitis of the shoulder ("frozen shoulder'') in a high risk population. Q J Med. Spring 1981;50(198):191-204. [Medline].
  15. Flannery O, Mullett H, Colville J. Adhesive shoulder capsulitis: does the timing of manipulation influence outcome?. Acta Orthop Belg. Feb 2007;73(1):21-5. [Medline].
  16. Vermeulen HM, Rozing PM, Obermann WR, et al. Comparison of high-grade and low-grade mobilization techniques in the management of adhesive capsulitis of the shoulder: randomized controlled trial. Phys Ther. Mar 2006;86(3):355-68. [Medline].
  17. Saeidian SR, Hemmati AA, Haghighi MH. Pain relieving effect of short-course, pulse prednisolone in managing frozen shoulder. J Pain Palliat Care Pharmacother. 2007;21(1):27-30. [Medline].
  18. De Ponti A, Viganò MG, Taverna E, et al. Adhesive capsulitis of the shoulder in human immunodeficiency virus-positive patients during highly active antiretroviral therapy. J Shoulder Elbow Surg. Mar-Apr 2006;15(2):188-90. [Medline].
  19. Bal A, Eksioglu E, Gulec B, Aydog E, Gurcay E, Cakci A. Effectiveness of corticosteroid injection in adhesive capsulitis. Clin Rehabil. Jun 2008;22(6):503-12. [Medline].
  20. Tveitå EK, Tariq R, Sesseng S, Juel NG, Bautz-Holter E. Hydrodilatation, corticosteroids and adhesive capsulitis: a randomized controlled trial. BMC Musculoskelet Disord. Apr 19 2008;9:53. [Medline].
  21. Ogilvie-Harris DJ, Biggs DJ, Fitsialos DP, MacKay M. The resistant frozen shoulder. Manipulation versus arthroscopic release. Clin Orthop. Oct 1995;(319):238-48. [Medline].
  22. Warner JJ, Allen A, Marks PH, et al. Arthroscopic release for chronic, refractory adhesive capsulitis of the shoulder. J Bone Joint Surg Am. Dec 1996;78(12):1808-16. [Medline].
  23. Warner JJ, Allen AA, Marks PH, et al. Arthroscopic release of postoperative capsular contracture of the shoulder. J Bone Joint Surg Am. Aug 1997;79(8):1151-8. [Medline].
  24. Warner JJ, Greis PE. The treatment of stiffness of the shoulder after repair of the rotator cuff. Instr Course Lect. 1998;47:67-75. [Medline].
  25. Pearsall AW, Osbahr DC, Speer KP. An arthroscopic technique for treating patients with frozen shoulder. Arthroscopy. Feb 1999;15(1):2-11. [Medline].
  26. Andren L, Lundberg BJ. Treatment of rigid shoulders by joint distention during arthrography. Acta Orthop Scand. 1965;36:45-53.
  27. Askey JM. The syndrome of painful disability of the shoulder and hand complicating coronary occlusion. Am Heart J. 1961;22:1-12.
  28. Baker CL, Liu SH. Comparison of open and arthroscopically assisted rotator cuff repairs. Am J Sports Med. Jan-Feb 1995;23(1):99-104. [Medline].
  29. Bigliani LU, Cordasco FA, McIlveen SJ, Musso ES. Operative treatment of failed repairs of the rotator cuff. J Bone Joint Surg Am. Dec 1992;74(10):1505-15. [Medline].
  30. Bigliani LU, McIlveen SJ, Cordasco FA. Operative management of failed rotator cuff repairs. Orthop Trans. 1988;12:674.
  31. Bigliani LU, Ticker JB, Flatow EL, et al. The relationship of acromial architecture to rotator cuff disease. Clin Sports Med. Oct 1991;10(4):823-38. [Medline].
  32. Bulgen DY, Binder A, Hazleman BL, et al. Immunological studies in frozen shoulder. J Rheumatol. Nov-Dec 1982;9(6):893-8. [Medline].
  33. Bulgen DY, Binder AI, Hazleman BL, et al. Frozen shoulder: prospective clinical study with an evaluation of three treatment regimens. Ann Rheum Dis. Jun 1984;43(3):353-60. [Medline][Full Text].
  34. Bulgen DY, Hazleman BL, Voak D. HLA-B27 and frozen shoulder. Lancet. May 15 1976;1(7968):1042-4. [Medline].
  35. Clarke GR, Willis LA, Fish WW, et al. Preliminary studies in measuring range of motion in normal and painful stiff shoulders. Rheumatol Rehabil. Feb 1975;14(1):39-46. [Medline].
  36. Cofield RH. Subscapular muscle transposition for repair of chronic rotator cuff tears. Surg Gynecol Obstet. May 1982;154(5):667-72. [Medline].
  37. DeOrio JK, Cofield RH. Results of a second attempt at surgical repair of a failed initial rotator-cuff repair. J Bone Joint Surg Am. Apr 1984;66(4):563-7. [Medline].
  38. Freedman L, Munro RR. Abduction of the arm in the scapular plane: scapular and glenohumeral movements. A roentgenographic study. J Bone Joint Surg Am. Dec 1966;48(8):1503-10. [Medline].
  39. Grey RG. The natural history of "idiopathic" frozen shoulder. J Bone Joint Surg Am. Jun 1978;60(4):564. [Medline].
  40. Groh GI, Simoni M, Rolla P. Loss of the deltoid after shoulder operations: an operative disaster. J Shoulder Elbow Surg. 1994;3:243-53.
  41. Hawkins RJ. Impingement syndrome. Orthop Trans. 1979;3:274.
  42. Hazleman BL. The painful stiff shoulder. Rheumatol Phys Med. Nov 1972;11(8):413-21. [Medline].
  43. Hollinshead WH. Anatomy for Surgeons: The Back and Limbs. 3rd ed. Philadelphia, Pa: Lippincott-Raven; 1982.
  44. Hoppenfeld S, DeBoer P. Surgical Exposures in Orthopaedic Surgery: The Anatomic Approach. Philadelphia, Pa: Lippincott-Raven; 1984.
  45. Inmann VT, Saunders JB, Abott LC. Observations on the shoulder joint. J Bone Joint Surg Am. 1959;41:877-82.
  46. Kay NR. The clinical diagnosis and management of frozen shoulders. Practitioner. Feb 1981;225(1352):164-7. [Medline].
  47. Kelly BT, Kadrmas WR, Speer KP. Empty can versus full can exercise for rotator cuff rehabilitation: An EMG analysis (unpublished data).
  48. Kessel L. Clinical Disorders of the Shoulder. New York, NY: Churchill Livingstone; 1982.
  49. Levy HJ, Uribe JW, Delaney LG. Arthroscopic assisted rotator cuff repair: preliminary results. Arthroscopy. 1990;6(1):55-60. [Medline].
  50. McLaughlin HL. The frozen shoulder. Clin Orthop. 1961;20:126-31.
  51. Murnaghan JP. Frozen shoulder. In: Rockwood CA, Matsen FA III, eds. The Shoulder. Philadelphia, Pa: Saunders; 1990:837-62.
  52. Neviaser RJ. Painful conditions affecting the shoulder. Clin Orthop. Mar 1983;(173):63-9. [Medline].
  53. Older MW. Distention arthrography of the shoulder joint. In: Bayley I, Kessel L, eds. Shoulder Surgery. New York, NY: Springer-Verlag; 1982:123-7.
  54. Ozaki J, Nakagawa Y, Sakurai G, et al. Recalcitrant chronic adhesive capsulitis of the shoulder. Role of contracture of the coracohumeral ligament and rotator interval in pathogenesis and treatment. J Bone Joint Surg Am. Dec 1989;71(10):1511-5. [Medline].
  55. Quigley TB. Indications for manipulation and corticosteroids in the treatment of stiff shoulders. Surg Clin North Am. 1963;43:1715-20.
  56. Reeves B. The natural history of the frozen shoulder syndrome. Scand J Rheumatol. 1975;4(4):193-6. [Medline].
  57. Rizk TE, Pinals RS. Frozen shoulder. Semin Arthritis Rheum. May 1982;11(4):440-52. [Medline].
  58. Shaffer B, Tibone JE, Kerlan RK. Frozen shoulder. A long-term follow-up. J Bone Joint Surg Am. Jun 1992;74(5):738-46. [Medline].
  59. Speer KP. Anatomy and pathomechanics of shoulder instability. Operative Tech in Sports Med. 1993;1:252-5.
  60. Wohlgethan JR. Frozen shoulder in hyperthyroidism. Arthritis Rheum. Aug 1987;30(8):936-9. [Medline].

Adhesive Capsulitis excerpt

Article Last Updated: Aug 12, 2008