Shoulder Joint Replacement

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Shoulder Joint Replacement

Normal results
Morbidity and mortality rates


Shoulder joint replacement surgery is performed to replace a shoulder joint with artificial components (prostheses) when the joint is severely damaged by degenerative joint diseases such as arthritis, or in complex cases of upper arm bone fracture.


The shoulder is a ball-and-socket joint that allows the arms to be raised, twisted, bent, and moved forward, to the side and backward. The head of the upper arm bone (humerus) is the ball, and a circular cavity (glenoid) in the shoulder blade (scapula) is the socket.A soft-tissue rim (labrum) surrounds and deepens the socket. The head of the humerus is also covered with a smooth, tough tissue (articular cartilage), and the joint, also called the acromioclavicular (AC) joint, has a thin inner lining (synovium) that facilitates movement, while surrounding muscles and tendons provide stability and support.

The AC joint can be damaged by the following conditions to such an extent as to require replacement by artificial components:

  • Osteoarthritis. This is a degenerative joint disease characterized by degeneration of the articular cartilage. When nonsurgical treatment is no longer effective and shoulder resection not possible, joint replacement surgery is usually indicated.
  • Rheumatoid arthritis. Shoulder replacement surgery is the most commonly performed procedure for the arthritic shoulder with severe inflammatory or rheumatoid arthritis.
  • Severe fracture of the humerus. A fracture of the upper arm bone can be so severe as to require replacement of the AC joint.
  • Osteonecrosis. This condition usually follows a three-or four-part fracture of the humeral head that disrupts the blood supply, resulting in bone death and disruption of the AC joint.
  • Charcot’s arthropathy. Also called neuropathic arthropathy or arthritis, Charcot’s arthropathy is a condition in which the shoulder joint is destroyed following loss of its nerve supply.


Shoulder arthritis is among the most prevalent causes of shoulder pain and loss of function. In the United States, arthritis of the shoulder joint is less common than arthritis of the hip or knee. Individuals with arthritis in one joint are more likely to get it in another joint. Overall, arthritis is quite common in the United States, affecting about 21% of adult Americans, and 50% of American adults over the age of 65. Projections suggest that, by the year 2030, there will be 67 million Americans who have received the diagnosis of arthritis from their doctor. Osteoarthritis is also the most common joint disorder, extremely common by age 70. Men and women are equally affected, but onset is earlier in men.


Shoulder joint replacement surgery can either replace the entire AC joint, in which case it is referred to as total shoulder joint replacement or total shoulder arthroplasty; or replace only the head of the humerus, in which case the procedure is called a hemiarthroplasty.


The two artificial components that can be implanted in the shoulder during shoulder joint replacement surgery are:

  • The humeral component. This part replaces the head of the humerus. It is usually made of cobalt or chromium-based alloys and has a rounded ball attached to a stem that can be inserted into the bone. It comes in various sizes and may consist of a single piece or a modular unit.
  • The glenoid component. This component replaces the glenoid cavity. It is made of very high-density polyethelene. Some models feature a metal tray, but the 100% polyethylene type is more common.

Shoulder joint replacement surgery is performed under either regional or general anesthesia, depending on the specifics of the case. The surgeon makes a 3-4 in (7.6-10.2 cm) incision on the front of the shoulder from the collarbone to the point where the shoulder muscle (deltoid) attaches to the humerus. The surgeon also inspects the muscles to see if any are damaged. He or she then proceeds to dislocate the humerus from the socket-like glenoid cavity to expose the head of the humerus. Only the portion of the head covered with articular cartilage is removed. The center cavity of the humerus (humeral shaft) is then cleaned and enlarged with reamers of gradually increasing size to create a cavity matching the shape of the implant stem. The top end of the bone is smoothed so that the stem can be inserted flush with the bone surface.

If the glenoid cavity of the AC joint is not damaged and the surrounding muscles are intact, the surgeon does not replace it, thus performing a simple hemiarthroplasty; however, if the glenoid cavity is


Acromioclavicular (AC) joint— The shoulder joint. Articulation and ligaments between the collarbone and the acromion of the shoulder blade.

Acromion— The triangular projection of the spine of the shoulder blade that forms the point of the shoulder and articulates with the collarbone.

Arthroplasty— The surgical repair of a joint.

Charcot’s arthropathy— Also called neuropathic arthropathy, a condition in which the shoulder joint is destroyed following loss of its nerve supply.

Glenoid cavity— The hollow cavity in the head of the shoulder blade that receives the head of the humerus to make the glenohumeral or shoulder joint.

Humerus— The bone of the upper part of the arm.

Inflammatory arthritis— An inflammatory condition that affects joints.

Osteoarthritis— Non-inflammatory degenerative joint disease occurring chiefly in older persons, characterized by degeneration of the articular cartilage.

Osteonecrosis— Condition resulting from poor blood supply to an area of a bone and causing bone death.

Rheumatoid arthritis Chronic inflammatory disease that destroys joints.

Shoulder resection arthroplasty— Surgery performed to repair a shoulder acromioclavicular (AC) joint. The procedure is most commonly recommended for AC joint problems resulting from osteoarthritis or injury.

damaged or diseased, the surgeon moves the humerus to the back and implants the artificial glenoid component as well. The surgeon prepares the surface by removing the cartilage and equalizes the glenoid bone to match the implant. Protrusions on the polyethylene glenoid implant are then fitted into holes drilled in the bone surface. Once a precise fit is achieved, the implant is cemented into position. The humerus, with its new implanted artificial head, is replaced in the glenoid socket. The surgeon reattaches the supporting tendons and closes the incision.


Damage to the AC joint is usually assessed using X-rays of the joint and humerus. They provide information on the state of the joint space, the position of the humeral head in relation to the glenoid, the


Shoulder replacement surgery is performed in a hospital by orthopedic surgeons with specialized training in shoulder joint replacement surgery.

presence of bony defects or deformity, and the quality of the bone. If glenoid wear is observed, a computed tomography (CT) scan is usually performed to evaluate the degree of bone loss.

The treating physician usually performs a general medical evaluation several weeks before shoulder joint replacement surgery to assess the patient’s general health condition and risk for anesthesia. The results of this examination are forwarded to the orthopedic surgeon, along with a surgical clearance. Patients are advised to eat properly and take a daily iron supplement some weeks before surgery. Several types of tests are usually required, including blood tests, a cardiogram, a urine sample, and a chest X-ray. Patients may be required to stop taking certain medications until surgery is over.


Following surgery, the operated arm is placed in a sling, and a support pillow is placed under the elbow to protect the repair. A drainage tube is used to remove excess fluid and is usually removed on the day after surgery.

A careful and well-planned rehabilitation program is very important for the successful outcome of a shoulder joint replacement. It should start no later than the first postoperative day. A physical therapist usually starts the patient with gentle, passive-assisted range of motion exercises. Before the patient leaves the hospital (usually two or three days after surgery), the therapist provides instruction on using a pulley device to help bend and extend the operated arm.


Complications after shoulder replacement surgery occur less frequently than with other joint replacement surgeries; however, there are risks associated with the surgery, including infection, intra-operative fracture of the humerus or postoperative fractures, biceps tendon rupture, and postoperative instability and loosening of the glenoid implant. Advances in surgical


  • What type of joint replacement surgery does my shoulder require?
  • What are the risks associated with the surgery?
  • How long will it take for my shoulder to recover from the surgery?
  • How long will the artificial components last?
  • Is there a risk of implant infection?
  • How many shoulder joint replacement surgeries do you perform in a year?

techniques and prosthetic innovations are helping to significantly lower the occurrence of complications.

Normal results

Pain relief is expected after shoulder joint replacement because the diseased joint surfaces have been replaced with smooth gliding surfaces. Improved motion, however, is variable and depends on the following:

  • the surgeon’s ability to reconstruct the shoulde’s supporting tissues, namely the shoulder ligaments, capsule, and muscle attachments;
  • the patient’s preoperative muscle strength; and
  • the patient’s motivation and compliance in participating in postoperative rehabilitation therapy.

Morbidity and mortality rates

Good to excellent outcomes usually follow shoulder joint replacement surgery, including pain relief and a functional range of motion that provides the ability to dress and perform the normal activities of daily living. In the hands of experienced orthopedic surgeons, such outcomes occur 90% of the time. Shoulders with artificial joints are reported to function well for more than 20 years. No death has ever been reported for shoulder joint replacement procedures.


Arthritis treatment is very complex, as it depends on the type of arthritis and the severity of symptoms. Alternatives to joint replacement may include medications and therapy. It is known that arthritis is characterized by an increased rate of cartilage degradation and a decreased rate of cartilage production. An experimental therapy featuring the use of joint supplements such as glucosamine and chondroitin is being investigated for its effectiveness to repair cartilage. The pain and inflammation resulting from arthritis are also commonly treated with nonsteroidal anti-inflammatory pain medication (NSAIDs) or cortisone injections (steroidal).



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Canale, S. T. Campbell’s Operative Orthopedics, 10th ed. St. Louis, MO: Mosby, 2002.

DeLee, J. C., D. Drez, and M. D. Miller.DeLee and Drez’s Orthopaedic Sports Medicine, 2nd ed. Philadelphia: Saunders, 2002.


Miller, S. L., Y. Hazrati, S. Klepps, A. Chiang, and E. L. Flatow. “Loss of Subscapularis Function after Total Shoulder Replacement: A Seldom Recognized Problem.” Journal of Shoulder and Elbow Surgery 12, no. 1 (January-February 2003): 29–34.

Roos, E. M. “Effectiveness and Practice Variation of Rehabilitation after Joint Replacement.” Current Opinions in Rheumatology 15, no. 2 (March 2003): 160–162.


American Academy of Orthopaedic Surgeons, 6300 N. River Road, Rosemont, IL, 60018-4262, (847) 823-7186, (800) 346-AAOS, (847) 823-8125,

American Shoulder and Elbow Surgeons, 6300 N. River Road, Suite 727, Rosemont, IL, 60018, (847) 698-1629,

Monique Laberge, Ph.D.