Artificial Joint Replacement of the Elbow Sterling CO
Medical School: Kirksville Coll Of Osteo Med, Kirksville Mo 63501
Graduation Year: 1980
Hospital: St Anthony Hosp Central, Denver, Co; East Morgan County Hosp, Brush, Co; Melissa Mem Hosp, Holyoke, Co; Sedgwick County Mem Hosp, Julesburg, Co; Sterling Regional Medcenter, Sterling, Co; Memorial Health Center, Sidney, Ne
Group Practice: Nor
Colorado Springs, CO
Colorado Springs Orthopaedic Group
Colorado Springs, CO
Medical School: Univ Of Co Sch Of Med, Denver Co 80262
Graduation Year: 1986
Medical School: Univ Of Ne Coll Of Med, Omaha Ne 68198
Graduation Year: 1971
Johnson Chiropractic P.C.
Back pain,Chronic pain,Foot pain,Leg pain,Lower back pain,Migraine headaches,Neck pain,Upper back pain
Chiropractic adjustment,Chiropractic care,Spinal manipulation
American Chiropractic Association,Colorado Chiropractic Association
Colorado Springs, CO
Medical School: Northeastern Oh Univs Coll Of Med, Rootstown Oh 44272
Graduation Year: 1983
Hospital: Memorial Hosp Of Colorado Spri, Colorado Spgs, Co; Penrose Hosp, Colorado Spgs, Co
Group Practice: Colorado Springs Orthopaedic
Wheat Ridge, CO
Orthopedics, Hand Surgery
Medical School: Mc Gill Univ, Fac Of Med, Montreal, Que, Canada
Graduation Year: 1979
Hospital: Craig Hosp, Englewood, Co
Group Practice: Hand Specialists
Artificial Joint Replacement of the Elbow
A Patient's Guide to Artificial Joint Replacement of the Elbow
Elbow joint replacement (also called elbow arthroplasty) can effectively treat the problems caused by arthritis of the elbow. The procedure is also becoming more widely used in aging adults to replace joints damaged by fractures. The artificial elbow is considered successful by more than 90 percent of patients who have elbow joint replacement.
This guide will help you understand
How does the elbow joint work?
The elbow joint is made up of three bones : the humerus bone of the upper arm, and the ulna and radius bones of the forearm.
The ulna and the humerus meet at the elbow and form a hinge. This hinge allows the arm to straighten and bend. The large triceps muscle in the back of the arm attaches to the point of the ulna (the olecranon). When this muscle contracts, it straightens out the elbow. The biceps muscles in the front of the arm contracts to bend the elbow.
Inside the elbow joint, the bones are covered with articular cartilage. Articular cartilage is a slick, smooth material. It protects the bone ends from friction when they rub together as the elbow moves. Articular cartilage is soft enough to act as a shock absorber. It is also tough enough to last a lifetime, if it is not injured.
The connection of the radius to the humerus allows rotation of the forearm. The upper end of the radius is round. This round end turns against the ulna and the humerus as the forearm and hand turn from palm down (pronation) to palm up supination).
Related Document: A Patient's Guide to Elbow Anatomy
What makes elbow joint replacement surgery necessary?
A joint replacement surgery is usually considered a last resort for a badly damaged and painful elbow joint. The artificial joint replaces the damaged surfaces with metal and plastic that are designed to fit together and rub smoothly against each other. This takes away the pain of bone rubbing against bone.
The most common reason for an artificial elbow replacement is arthritis. There are two main types of arthritis, degenerative and systemic. Degenerative arthritis is also called wear-and-tear arthritis, or osteoarthritis. Any injury to the elbow can damage the joint and lead to degenerative arthritis. Arthritis may not show up for many years after the injury.
Related Document: A Patient's Guide to Osteoarthritis
There are many types of systemic arthritis. The most common form is rheumatoid arthritis. All types of systemic arthritis are diseases that affect many, or even all, of the joints in the body. Systemic arthritis causes destruction of the joints' articular cartilage lining.
Related Document: A Patient's Guide to Arthritis
An elbow joint replacement may also be used imm...