NATIONAL INSTITUTE OF ARTHRITIS AND MUSCULOSKELETAL AND SKIN DISEASE
Osteoarthritis Handout on Health: Osteoarthritis
This publication is for people who have osteoarthritis, their families, and others interested in learning more about the disorder. The publication describes osteoarthritis and its symptoms and contains information about diagnosis and treatment, as well as research efforts supported by the National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS) and other components of the U.S. Department of Health and Human Services’ National Institutes of Health (NIH). It also discusses pain relief, exercise, and quality of life for people with osteoarthritis. At the end is a list of key words to help you understand the terms used in this publication. If you have further questions after reading this, you may wish to discuss them with your doctor.
What Is Osteoarthritis?
Osteoarthritis (AH-stee-oh-ar-THREYE-tis) is the most common type of arthritis and is seen especially among older people. Sometimes it is called degenerative joint disease. Osteoarthritis mostly affects cartilage (KAR-til-uj), the hard but slippery tissue that covers the ends of bones where they meet to form a joint. Healthy cartilage allows bones to glide over one another. It also absorbs energy from the shock of physical movement. In osteoarthritis, the surface layer of cartilage breaks and wears away. This allows bones under the cartilage to rub together, causing pain, swelling, and loss of motion of the joint. Over time, the joint may lose its normal shape. Also, small deposits of bone—called osteophytes or bone spurs—may grow on the edges of the joint. Bits of bone or cartilage can break off and float inside the joint space. This causes more pain and damage.
Who Has Osteoarthritis? How Does Osteoarthritis Affect People? Osteoarthritis Basics: The Joint and Its Parts How Do You Know if You Have Osteoarthritis? How Do Doctors Diagnose Osteoarthritis? How Is Osteoarthritis Treated? Who Provides Care for People With Osteoarthritis? What You Can Do: the Importance of Self-Care and a Good-Health Attitude Research Highlights Hope for the Future For More Information Key Words Illustrations What Areas Does Osteoarthritis Affect? A Healthy Joint A Joint With Severe Osteoarthritis Exercises for Osteoarthritis Information Boxes Cartilage: The Key to Healthy Joints The Warning Signs of Osteoarthritis Four Goals of Osteoarthritis Treatment Treatment Approaches to Osteoarthritis On the Move: Fighting Osteoarthritis with Exercise Questions To Ask Your Doctor or Pharmacist About Medicines Self-Management Programs Do Help Enjoy a Good Health Attitude
People with osteoarthritis usually have joint pain and stiffness. Unlike some other forms of arthritis, such as rheumatoid arthritis, osteoarthritis affects only joint function. It does not affect skin tissue, the lungs, the eyes, or the blood vessels.
In rheumatoid arthritis, another common form of arthritis, the immune system attacks the tissues of the joints, leading to pain, inflammation, and eventually joint damage and malformation. It typically begins at a younger age than osteoarthritis, causes swelling and redness in joints, and may make people feel sick, tired, and feverish. Also, the joint involvement of rheumatoid arthritis is symmetrical; that is, if one joint is affected, the same joint on the opposite side of the body is usually similarly affected. Osteoarthritis, on the other hand, can occur in a single joint or can affect a joint on one side of the body much more severely.
Who Has Osteoarthritis?
Osteoarthritis is by far the most common type of arthritis, and the percentage of people who have it grows higher with age. An estimated 27 million Americans age 25 and older have osteoarthritis.1
1Lawrence RC, Felson DT, Helmick CG, Arnold LM, Choi H, Deyo RA, Gabriel S, Hirsch R, Hochberg MC, Hunder GG, Jordan JM, Katz JN, Kremers HM, Wolfe F. Estimates of the prevalence of arthritis and other rheumatic conditions in the United States: Part II. Arthritis Rheum. 2008 Jan;58(1):26-35.
Although osteoarthritis becomes more common with age, younger people can develop it, usually as the result of a joint injury, a joint malformation, or a genetic defect in joint cartilage. Both men and women have the disease. Before age 45, more men than women have osteoarthritis; after age 45, it is more common in women. It is also more likely to occur in people who are overweight and in those with jobs that stress particular joints.
How Does Osteoarthritis Affect People?
People with osteoarthritis usually experience joint pain and stiffness. The most commonly affected joints are those at the ends of the fingers (closest to the nail), thumbs, neck, lower back, knees, and hips.
Osteoarthritis affects different people differently. It may progress quickly, but for most people, joint damage develops gradually over years. In some people, osteoarthritis is relatively mild and interferes little with day-to-day life; in others, it causes significant pain and disability.
Although osteoarthritis is a disease of the joints, its effects are not just physical. In many people with osteoarthritis, lifestyle and finances also decline.
What Areas Does Osteoarthritis Affect?
Osteoarthritis most often occurs in the hands (at the ends of the fingers and thumbs), spine (neck and lower back), knees, and hips Lifestyle effects include: depression anxiety feelings of helplessness limitations on daily activities job limitations difficulty participating in everyday personal and family joys and responsibilities.
Fortunately, most people with osteoarthritis live active, productive lives despite these limitations. They do so by using treatment strategies such as rest and exercise, pain relief medications, education, and support programs; learning self-care; and working to maintain a positive attitude.
Osteoarthritis Basics: The Joint and Its Parts
A joint is the point where two or more bones are connected. With a few exceptions (in the skull and pelvis, for example), joints are designed to allow movement between the bones and to absorb shock from movements like walking or repetitive motions. These movable joints are made up of the following parts:
Cartilage: A hard but slippery coating on the end of each bone. Cartilage, which breaks down and wears away in osteoarthritis, is described in more detail in “Cartilage: The Key to Healthy Joints.”
Joint capsule: A tough membrane sac that encloses all the bones and other joint parts.
Synovium (sin-O-vee-um): A thin membrane inside the joint capsule that secretes synovial fluid.
Synovial fluid: A fluid that lubricates the joint and keeps the cartilage smooth and healthy.
Ligaments, tendons, and muscles: Tissues that surround the bones and joints, and allow the joints to bend and move. Ligaments are tough, cord-like tissues that connect one bone to another.
Tendons: Tough, fibrous cords that connect muscles to bones. Muscles are bundles of specialized cells that, when stimulated by nerves, either relax or contract to produce movement.
A Healthy Joint (Representation)
In a healthy joint, the ends of bones are encased in smooth cartilage. Together, they are protected by a joint capsule lined with a synovial membrane that produces synovial fluid. The capsule and fluid protect the cartilage, muscles, and connective tissues.
A Joint With Severe Osteoarthritis (Representation)
With osteoarthritis, the cartilage becomes worn away. Spurs grow out from the edge of the bone, and synovial fluid increases. Altogether, the joint feels stiff and sore.
Cartilage: The Key to Healthy Joints
Cartilage is 65 to 80 percent water. The remaining three components—collagen, proteoglycans, and chondrocytes—are described below.
Collagen (KAHL-uh-jen): A family of fibrous proteins, collagens are the building blocks of skin, tendon, bone, and other connective tissues. Proteoglycans (PRO-tee-uh-GLY-kanz): Made up of proteins and sugars, strands of proteoglycans interweave with collagens and form a mesh-like tissue. This allows cartilage to flex and absorb physical shock. Chondrocytes (KAHN-druh-sytz): Found throughout the cartilage, chondrocytes are cells that produce cartilage and help it stay healthy as it grows. Sometimes, however, they release substances called enzymes that destroy collagen and other proteins. Researchers are trying to learn more about chondrocytes. How Do You Know if You Have Osteoarthritis?
Usually, osteoarthritis comes on slowly. Early in the disease, your joints may ache after physical work or exercise. Later on, joint pain may become more persistent. You may also experience joint stiffness, particularly when you first wake up in the morning or have been in one position for a long time.
Although osteoarthritis can occur in any joint, most often it affects the hands, knees, hips, and spine (either at the neck or lower back). Different characteristics of the disease can depend on the specific joint(s) affected. For general warning signs of osteoarthritis, see the information box “The Warning Signs of Osteoarthritis.” For information on the joints most often affected by osteoarthritis, see the following descriptions:
Hands: Osteoarthritis of the hands seems to have some hereditary characteristics; that is, it runs in families. If your mother or grandmother has or had osteoarthritis in their hands, you’re at greater-than-average risk of having it too. Women are more likely than men to have osteoarthritis in the hands. For most women, it develops after menopause.
When osteoarthritis involves the hands, small, bony knobs may appear on the end joints (those closest to the nails) of the fingers. They are called Heberden’s (HEBerr-denz) nodes. Similar knobs, called Bouchard’s (boo-SHARDZ) nodes, can appear on the middle joints of the fingers. Fingers can become enlarged and gnarled, and they may ache or be stiff and numb. The base of the thumb joint also is commonly affected by osteoarthritis.
Knees: The knees are among the joints most commonly affected by osteoarthritis. Symptoms of knee osteoarthritis include stiffness, swelling, and pain, which make it hard to walk, climb, and get in and out of chairs and bathtubs. Osteoarthritis in the knees can lead to disability.
Hips: The hips are also common sites of osteoarthritis. As with knee osteoarthritis, symptoms of hip osteoarthritis include pain and stiffness of the joint itself. But sometimes pain is felt in the groin, inner thigh, buttocks, or even the knees. Osteoarthritis of the hip may limit moving and bending, making daily activities such as dressing and putting on shoes a challenge.
Spine: Osteoarthritis of the spine may show up as stiffness and pain in the neck or lower back. In some cases, arthritis-related changes in the spine can cause pressure on the nerves where they exit the spinal column, resulting in weakness, tingling, or numbness of the arms and legs. In severe cases, this can even affect bladder and bowel function.
The Warning Signs of Osteoarthritis Stiffness in a joint after getting out of bed or sitting for a long time Swelling in one or more joints Crunching feeling or the sound of bone rubbing on bone
About a third of people whose x rays show evidence of osteoarthritis report pain or other symptoms. For those who experience steady or intermittent pain, it is typically aggravated by activity and relieved by rest.
If you feel hot or your skin turns red, or if your joint pain is accompanied by other symptoms such as a rash or fevers, you probably do not have osteoarthritis. Check with your doctor about other causes, such as rheumatoid arthritis.
How Do Doctors Diagnose Osteoarthritis?
No single test can diagnose osteoarthritis; however, sometimes doctors use tests to help confirm a diagnosis or rule out other conditions that could be causing your symptoms. Most doctors use a combination of the following methods:
The doctor begins by asking you to describe the symptoms, and when and how the condition started, as well as how the symptoms have changed over time. The doctor will also ask about any other medical problems you and close family members have and about any medications you are taking. Accurate answers to these questions can help the doctor make a diagnosis and understand the impact the disease has on your life.
The doctor will check your reflexes and general health, including muscle strength. The doctor will also examine bothersome joints and observe your ability to walk, bend, and carry out activities of daily living.
X rays can help doctors determine the form of arthritis a person has and how much joint damage has been done. X rays of the affected joint can show such things as cartilage loss, bone damage, and bone spurs. But there often is a big difference between the severity of osteoarthritis as shown by the x ray and the degree of pain and disability you feel. Also, x rays may not show early osteoarthritis damage until much cartilage loss has taken place.
Magnetic Resonance Imaging
Also known as MRI, magnetic resonance imaging provides high-resolution computerized images of internal body tissues. This procedure uses a strong magnet that passes a force through the body to create these images. Doctors often use MRI tests if there is pain; if x-ray findings are minimal; and if the findings suggest damage to other joint tissues such as a ligament or the pad of connective tissue in the knee known as the meniscus.
The doctor may order blood tests to rule out other causes of symptoms. He or she may also order a joint aspiration, which involves drawing fluid from the joint through a needle and examining the fluid under a microscope. Joint fluid samples could reveal bacteria, indicating joint pain is caused by an infection or uric acid crystals, indicating gout.
Osteoarthritis is so common, especially in older people, that symptoms seemingly caused by the disease actually may be caused by other medical conditions. The doctor will try to find out what is causing the symptoms by ruling out other disorders and identifying conditions that may make the symptoms worse. The severity of symptoms in osteoarthritis can be influenced greatly by your attitude, anxiety, depression, and daily activity level.
How Is Osteoarthritis Treated?
Most successful treatment programs involve a combination of approaches tailored to the patient’s needs, lifestyle, and health. Most programs include ways to manage pain and improve function. These can involve exercise, weight control, rest and relief from stress on joints, pain relief techniques, medications, surgery, and complementary and alternative therapies. These approaches are described below.
Four Goals of Osteoarthritis Treatment to control pain to improve joint function to maintain normal body weight to achieve a healthy lifestyle.
Treatment Approaches to Osteoarthritis exercise weight control rest and relief from stress on joints nondrug pain relief techniques and alternative therapies medications to control pain surgery. Exercise
Research shows that exercise is one of the best treatments for osteoarthritis. Exercise can improve mood and outlook, decrease pain, increase flexibility, strengthen the heart and improve blood flow, maintain weight, and promote general physical fitness. Exercise is also inexpensive and, if done correctly, has few negative side effects. The amount and form of exercise prescribed will depend on which joints are involved, how stable the joints are, and whether a joint replacement has already been done. Walking, swimming, and water aerobics are a few popular types of exercise for people with osteoarthritis. Your doctor and/or physical therapist can recommend specific types of exercise depending on your particular situation. (See section “What You Can Do: The Importance of Self-Care and a Good Health Attitude”).
On the Move: Fighting Osteoarthritis With Exercise
You can use exercises to keep strong and limber, improve cardiovascular fitness, extend your joints’ range of motion, and reduce your weight. The following types of exercise are part of a well-rounded arthritis treatment plan.
Strengthening exercises: These exercises strengthen muscles that support joints affected by arthritis. They can be performed with weights or with exercise bands, inexpensive devices that add resistance. Aerobic activities: These are exercises, such as brisk walking or low-impact aerobics, that get your heart pumping and can keep your lungs and circulatory system in shape. Range-of-motion activities: These keep your joints limber. Balance and agility exercises: These help you maintain daily living skills.
Ask your doctor or physical therapist what exercises are best for you. Ask for guidelines on exercising.
If you are overweight or obese, you should try to lose weight. Weight loss can reduce stress on weight-bearing joints, limit further injury, increase mobility, and reduce the risk of associated health problems. A dietitian can help you develop healthy eating habits. A healthy diet and regular exercise help reduce weight.
Rest and Relief from Stress on Joints
Treatment plans include regularly scheduled rest. You must learn to recognize the body’s signals, and know when to stop or slow down. This will prevent the pain caused by overexertion. Although pain can make it difficult to sleep, getting proper sleep is important for managing arthritis pain. If you have trouble sleeping, you may find that relaxation techniques, stress reduction, and biofeedback can help, as can timing medications to provide maximum pain relief through the night. If joint pain interferes with your ability to sleep or rest, consult your doctor.
Some people find relief from special footwear and insoles that can reduce pain and improve walking or from using canes to take pressure off painful joints. They may use splints or braces to provide extra support for joints and/ or keep them in proper position during sleep or activity. Splints should be used only for limited periods of time because joints and muscles need to be exercised to prevent stiffness and weakness. If you need a splint, an occupational therapist or a doctor can help you get a properly fitted one.
Nondrug Pain Relief and Alternative Therapies
People with osteoarthritis may find many nondrug ways to relieve pain. Below are some examples:
Heat and cold: Heat or cold (or a combination of the two) can be useful for joint pain. Heat can be applied in a number of different ways—with warm towels, hot packs, or a warm bath or shower—to increase blood flow and ease pain and stiffness. In some cases, cold packs (bags of ice or frozen vegetables wrapped in a towel), which reduce inflammation, can relieve pain or numb the sore area. (Check with a doctor or physical therapist to find out if heat or cold is the best treatment.)
Transcutaneous electrical nerve stimulation (TENS):TENS is a technique that uses a small electronic device to direct mild electric pulses to nerve endings that lie beneath the skin in the painful area. TENS may relieve some arthritis pain. It seems to work by blocking pain messages to the brain and by modifying pain perception.
Massage: In this pain-relief approach, a massage therapist will lightly stroke and/or knead the painful muscles. This may increase blood flow and bring warmth to a stressed area. However, arthritis-stressed joints are sensitive, so the therapist must be familiar with the problems of the disease.
Acupuncture: When conventional medical treatment doesn’t provide sufficient pain relief, people are more likely to try complementary and alternative therapies to treat osteoarthritis. Some people have found pain relief using acupuncture, a practice in which fine needles are inserted by a licensed acupuncture therapist at specific points on the skin. Scientists think the needles stimulate the release of natural, pain-relieving chemicals produced by the nervous system. A large study supported by the National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS) and the National Center for Complementary and Alternative Medicine (NCCAM) revealed that acupuncture relieves pain and improves function in knee osteoarthritis, and it serves as an effective complement to standard care.2
2Berman BM, Lao L, Langenberg P, Lee WL, Gilpin AM, Hochberg MC. Effectiveness of acupuncture as adjunctive therapy in osteoarthritis of the knee: a randomized, controlled trial. Ann Intern Med. 2004 Dec 21;141(12):901-10.
Nutritional supplements, such as glucosamine and chondroitin sulfate have been reported to improve symptoms in some people with osteoarthritis, as have certain vitamins. Additional studies have been carried out to further evaluate these claims (see “Research Highlights”). It is unknown whether they might change the course of disease.
Medications to Control Pain
Doctors prescribe medicines to eliminate or reduce pain and to improve functioning. Doctors consider a number of factors when choosing medicines for their patients with osteoarthritis. These include the intensity of pain, potential side effects of the medication, your medical history (other health problems you have or are at risk for), and other medications you are taking.
Because some medications can interact with one another and certain health conditions put you at increased risk of drug side effects, it’s important to discuss your medication and health history with your doctor before you start taking any new medication, and to see your doctor regularly while you are taking medication. By working together, you and your doctor can find the medication that best relieves your pain with the least risk of side effects.
The following types of medicines are commonly used in treating osteoarthritis:3
3All medicines can have side effects. Some side effects may be more severe than others. You should review the package insert that comes with your medicine and ask your health care provider or pharmacist if you have any questions about the possible side effects.
Over-the-counter pain relievers: Oral pain medications, such as acetaminophen, are often a first-line approach to relieve pain in people with osteoarthritis.
NSAIDs (nonsteroidal anti-inflammatory drugs): A large class of medications useful against both pain and inflammation, (NSAIDs)4 are staples in arthritis treatment. Aspirin, ibuprofen, naproxen, and naproxen sodium are examples of NSAIDs. They are often the first type of medication used. All NSAIDs work similarly: by blocking substances called prostaglandins that contribute to inflammation and pain. However, each NSAID is a different chemical, and each has a slightly different effect on the body.
4Warning: NSAIDs can cause stomach irritation or, less often, they can affect kidney function. The longer a person uses NSAIDs, the more likely he or she is to have side effects, ranging from mild to serious. Many other drugs cannot be taken when a patient is being treated with NSAIDs, because NSAIDs alter the way the body uses or eliminates these other drugs. Check with your health care provider or pharmacist before you take NSAIDs. Also, NSAIDs sometimes are associated with serious gastrointestinal problems, including ulcers, bleeding, and perforation of the stomach or intestine. People over age 65 and those with any history of ulcers or gastrointestinal bleeding should use NSAIDs with caution.
Some NSAIDs are available over the counter, while more than a dozen others, including a subclass called COX-2 inhibitors, are available only with a prescription.
All NSAIDs can have significant side effects, and for unknown reasons, some people seem to respond better to one NSAID than another. Any person taking NSAIDs regularly should be monitored by a doctor.
Reducing the Risks of NSAID Use
Certain health problems and lifestyle habits can increase the risk of side effects from NSAIDs. These include a history of peptic ulcers or digestive tract bleeding, use of oral corticosteroids or anticoagulants (blood thinners), smoking, and alcohol use.
There are measures you can take to help reduce the risk of side effects associated with NSAIDs. These include taking medications with food and avoiding stomach irritants such as alcohol, tobacco, and caffeine. In some cases, it may help to take another medication along with an NSAID to coat the stomach or block stomach acids. Although these measures may help, they are not always completely effective.
Narcotic or central acting agents: Tramadol is a prescription pain reliever and synthetic opioid that is sometimes prescribed when over-the-counter medications don’t provide sufficient relief. It works through the central nervous system to achieve its effects. Tramadol carries risks that don’t exist with acetaminophen and NSAIDs, including the potential for addiction.
Mild narcotic painkillers containing analgesics such as codeine or hydrocodone are often effective against osteoarthritis pain. But because of concerns about the potential for physical and psychological dependence on these drugs, doctors generally reserve them for short-term use.
Corticosteroids: Corticosteroids are powerful anti- inflammatory hormones made naturally in the body or man-made for use as medicine. They may be injected into the affected joints to temporarily relieve pain. This is a short-term measure, generally not recommended for more than two to four treatments per year. Oral corticosteroids are not routinely used to treat osteoarthritis. They are occasionally used for inflammatory flares.
Hyaluronic acid substitutes: Sometimes called viscosupplements, hyaluronic acid substitutes are designed to replace a normal component of the joint involved in joint lubrication and nutrition. Depending on the particular product your doctor prescribes, it will be given in a series of three to five injections. These products are approved only for osteoarthritis of the knee.
Other medications: Doctors may prescribe several other medicines for osteoarthritis. They include topical pain-relieving creams, rubs, and sprays, which are applied directly to the skin over painful joints. They contain ingredients that work in one of three different ways: (1) by stimulating the nerve endings to distract the brain’s attention from the joint pain, (2) by depleting the amount of a neurotransmitter called substance P that sends pain messages to the brain, or (3) by blocking chemicals called prostaglandins that cause pain and inflammation.
Because most medicines used to treat osteoarthritis have side effects, it’s important to learn as much as possible about the medications you take, even the ones available without a prescription. Certain health problems and lifestyle habits can increase the risk of side effects from NSAIDs. These include a history of peptic ulcers or digestive tract bleeding, use of oral corticosteroids or anticoagulants (blood thinners), smoking, and alcohol use.
There are measures you can take to help reduce the risk of side effects associated with NSAIDs. These include taking medications with food and avoiding stomach irritants such as alcohol, tobacco, and caffeine. In some cases, it may help to take another medication along with an NSAID to coat the stomach or block stomach acids. Although these measures may help, they are not always completely effective.
Questions to Ask Your Doctor or Pharmacist About Medicines How often should I take this medicine? Should I take this medicine with food or between meals? What side effects might occur? Should I take this medicine with the other prescription medicines I take? Is this medication safe considering other medical conditions I have? Surgery
For many people, surgery helps relieve the pain and disability of osteoarthritis. Surgery may be performed to achieve one or more of the following:
Removal of loose pieces of bone and cartilage from the joint if they are causing symptoms of buckling or locking (arthroscopic debridement). Repositioning of bones (osteotomy). Resurfacing (smoothing out) bones (joint resurfacing).
Surgeons may replace affected joints with artificial joints called prostheses. These joints can be made from metal alloys, high-density plastic, and ceramic material. Some prostheses are joined to bone surfaces with special cements. Others have porous surfaces and rely on the growth of bone into that surface (a process called biologic fixation) to hold them in place. Artificial joints can last 10 to 15 years or longer. Surgeons choose the design and components of prostheses according to their patient’s weight, sex, age, activity level, and other medical conditions.
Joint replacement advances in recent years have included the ability, in some cases, to replace only the damaged part of the knee joint, leaving undamaged parts of the joint intact, and the ability to perform hip replacement through much smaller incisions than previously possible.
The decision to use surgery depends on several factors, including the patient’s age, occupation, level of disability, pain intensity, and the degree to which arthritis interferes with his or her lifestyle. After surgery and rehabilitation, the patient usually feels less pain and swelling and can move more easily.
Who Provides Care for People With Osteoarthritis?
Treating arthritis often requires a multidisciplinary or team approach. Many types of health professionals care for people with arthritis. You may choose a few or more of the following professionals to be part of your health care team:
Primary care physicians: Doctors who treat patients before they are referred to other specialists in the health care system. Often a primary care physician will be the main doctor to treat your arthritis. Primary care physicians also handle other medical problems and coordinate the care you receive from other physicians and health care providers.
Rheumatologists: Doctors who specialize in treating arthritis and related conditions that affect joints, muscles, and bones.
Orthopaedists: Surgeons who specialize in the treatment of, and surgery for, bone and joint diseases.
Physical therapists: Health professionals who work with patients to improve joint function.
Occupational therapists: Health professionals who teach ways to protect joints, minimize pain, perform activities of daily living, and conserve energy.
Dietitians: Health professionals who teach ways to use a good diet to improve health and maintain a healthy weight.
Nurse educators: Nurses who specialize in helping patients understand their overall condition and implement their treatment plans.
Physiatrists (rehabilitation specialists): Medical doctors who help patients make the most of their physical potential.
Licensed acupuncture therapists: Health professionals who reduce pain and improve physical functioning by inserting fine needles into the skin at specific points on the body.
Psychologists: Health professionals who seek to help patients cope with difficulties in the home and workplace resulting from their medical conditions.
Social workers: Professionals who assist patients with social challenges caused by disability, unemployment, financial hardships, home health care, and other needs resulting from their medical conditions.
Chiropractors: Health professionals who focus treatment on the relationship between the body’s structure—mainly the spine—and its functioning.
Massage therapists: Health professionals who press, rub, and otherwise manipulate the muscles and other soft tissues of the body. They most often use their hands and fingers, but may use their forearms, elbows, or feet.
What You Can Do: The Importance of Self-Care and a Good Health Attitude
Although health care professionals can prescribe or recommend treatments to help you manage your arthritis, the real key to living well with the disease is you. Research shows that people with osteoarthritis who take part in their own care report less pain and make fewer doctor visits. They also enjoy a better quality of life.
Living well and enjoying good health despite arthritis requires an everyday lifelong commitment. The following six habits are worth committing to:
1. Get educated: To live well with osteoarthritis, it pays to learn as much as you can about the disease. Three kinds of programs help people understand osteoarthritis, learn self-care, and improve their good-health attitude. They are:
patient education programs arthritis self-management programs arthritis support groups.
These programs teach people about osteoarthritis, its treatments, exercise and relaxation, patient and health care provider communication, and problem solving. Research has shown that people who participate in these programs are more likely to have positive outcomes.
Self-Management Programs Do Help
People with osteoarthritis find that self-management programs help them:
understand the disease reduce pain while remaining active cope physically, emotionally, and mentally have greater control over the disease build confidence in their ability to live an active, independent life.
2. Stay active: Regular physical activity plays a key role in self-care and wellness. Four types of exercise are important in osteoarthritis management. The first type, strengthening exercises help keep or increase muscle strength. Strong muscles help support and protect joints affected by arthritis. The second type, aerobic conditioning exercises improve cardiovascular fitness, help control weight, and improve overall function. The third type, range-of-motion exercises, help reduce stiffness and maintain or increase proper joint movement and flexibility. The fourth type, balance and agility exercises, can help you maintain daily living skills.
You should start each exercise session with an adequate warm-up and begin exercising slowly. Resting frequently ensures a good workout and reduces the risk of injury.
Before beginning any type of exercise program, consult your doctor or physical therapist to learn which exercises are appropriate for you and how to do them correctly, because doing the wrong exercise or exercising improperly can cause problems. A health care professional can also advise you on how to warm up safely and when to avoid exercising a joint affected by arthritis.
Exercises for Osteoarthritis
People with osteoarthritis should do different kinds of exercise for different benefits to the body. Consult your health professional before starting. The National Institute on Aging Web site (www.nia.nih.gov) has booklets on exercise and physical activity that may also be helpful.
3. Eat well: Though no specific diet will necessarily make your arthritis better, eating right and controlling your weight can help by minimizing stress on the weight-bearing joints such as the knees and the joints of the feet. It can also minimize your risk of developing other health problems.
4. Get plenty of sleep: Getting a good night’s sleep on a regular basis can minimize pain and help you cope better with the effects of your disease. If arthritis pain makes it difficult to sleep at night, speak with your doctor and/or physical therapist about the best mattress or comfortable sleeping positions or the possibility of timing medications to provide more pain relief at night. You may also improve your sleep by getting enough exercise early in the day; avoiding caffeine or alcoholic beverages at night; keeping your bedroom dark, quiet, and cool; and taking a warm bath to relax and soothe sore muscles at bedtime.
5. Have fun: Although having osteoarthritis certainly isn’t fun, it doesn’t mean you have to stop having fun. If arthritis makes it difficult to participate in favorite activities, ask an occupational therapist about new ways to do them. Activities such as sports, hobbies, and volunteer work can distract your mind from your own pain and make you a happier, more well-rounded person.
Enjoy a "Good Health Attitude" Focus on your abilities instead of disabilities. Focus on your strengths instead of weaknesses. Break down activities into small tasks that you can manage. Incorporate fitness and nutrition into daily routines. Develop methods to minimize and manage stress. Balance rest with activity. Develop a support system of family, friends, and health professionals.
6. Keep a positive attitude: Perhaps the best thing you can do for your health is to keep a positive attitude. People must decide to make the most of things when faced with the challenges of osteoarthritis. This attitude—a good-health mindset—doesn’t just happen. It takes work, every day. And with the right attitude, you will achieve it.
The leading role in osteoarthritis research is played by the National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS), part of the National Institutes of Health (NIH). The NIAMS funds many researchers across the United States to study osteoarthritis.
One of the major areas of focus of osteoarthritis research in recent years has been the potential role of inflammation in the disease. One NIAMS-supported study found that a pathway called the complement system, which is a major component of the innate immune system, is critical to the development of osteoarthritis. Through analyses of joint tissue and joint fluid from individuals with osteoarthritis, researchers found that expression and activation of complement is abnormally high in people with osteoarthritis. The innate immune system is designed to protect the body from harmful invaders such as viruses and bacteria. When cartilage is injured, the researchers found, the complement system is activated, leading to inflammation directed against the body’s own tissues.
The researchers confirmed the role in mice, which are an animal model for osteoarthritis. They found the mice developed a disease characteristic of human osteoarthritis following injury to the stabilizing ligament of the knee joint. When the scientists genetically engineered those mice to lack part of the complement system’s, however, they did not develop osteoarthritis. The same results were seen when the mice were treated with an agent to inhibit part of the complement system, confirming its role in the development of the disease.
If these findings about the complement’s role hold true in people, blocking a part of the complement system may be an effective treatment for early osteoarthritis. Other key areas of research supported by the NIAMS and other institutes within NIH include the following:
In 2004, the NIAMS and other institutes and offices of the NIH began recruiting participants for the Osteoarthritis Initiative (OAI). The OAI is a public-private partnership that brings together new resources and a commitment to help identify biomarkers of disease for osteoarthritis. The partnership is designed to stimulate the development of tools and identify targets to combat the disease. Biomarkers are biological clues to increased disease susceptibility, early stages of disease, the course of the disease, and the response of people with osteoarthritis to the various therapies. Researchers are collecting images (x rays and MRIs), biological specimens (blood, urine, and DNA), and clinical data from 4,800 people at high risk for having osteoarthritis, as well as those at high risk for progression to severe osteoarthritis during the course of the study.
This groundbreaking study is expected to advance our understanding of how modifiable and non-modifiable risk factors are linked to development and worsening of knee osteoarthritis. Such findings may, in turn, lead to improved strategies for prevention of disease and identification of novel treatment targets, which could result in prevention of later-life disability in individuals with knee osteoarthritis.
Two separate NIAMS-supported studies revealed that mechanical stress can affect the release of osteoarthritis biomarkers. The first study, on the role of mechanical stress on biomarker release from normal cartilage, showed that mechanical stress in the ranges experienced from normal to intense physical activity increased the turnover of cartilage and the release of biomarkers from the tissue and varied with the amount of applied stress. This suggests that mechanical stress regulates turnover of molecules in the cartilage extracellular matrix. The second study, which examined release of cartilage-and bone-derived biomarkers in college athletes undergoing high-intensity training (rowers, cross-country runners, and swimmers) and in nonathlete controls, suggests that rowers undergo the highest bone turnover and runners the highest cartilage turnover. These results suggest that biomarkers can vary between individuals involved in different types of physical activities, and that the interpretation of biomarker analyses from osteoarthritis patients will need to take into account the type and extent of physical activity of the patients.
A recently discovered method to detect and monitor cartilage changes could eventually enable doctors to diagnose osteoarthritis long before traditional x rays would show damage. It could also allow clinicians the opportunity to monitor the impact of therapeutic interventions very early in the disease process. The new noninvasive method uses an adaptation of established MRI techniques to separately visualize proteoglycans (molecular building blocks of cartilage) from water molecules in cartilage. Although further research and refinements are needed, the researchers are hopeful this approach could one day play an important role in the management of people with osteoarthritis.
Other NIAMS-supported researchers are combining a technique called microcomputed tomography (microCT), which yields high-resolution, three-dimensional x-ray images, with an x-ray-absorbing contrast agent to image the distribution of proteoglycans in the laboratory. By detecting proteoglycan content and distribution, the technique reveals information about both the thickness and composition of cartilage, both of which are important factors for monitoring the progression and treatment of osteoarthritis. So far, the technique’s use has been limited to cartilage samples from animals. The researchers don’t know yet if the technique would be successful in people. The hope is that their research will lead to ways to monitor cartilage changes with good resolution and little or no invasion of the tissue, and that eventually the technique will allow pharmaceutical researchers to obtain more detailed information about the effects of new drugs and other treatment strategies for osteoarthritis.
One drug that has been studied is the osteoporosis medication risedronate. In a British study of several hundred people with mild-to-moderate osteoarthritis of the knee, those treated with risedronate, a member of a class of drugs called bisphosphonates, showed a clear trend toward reduced symptoms and improved joint structure.
Researchers supported by the NIAMS have shown that teriparatide, a form of human parathyroid hormone that triggers new bone formation and is approved to treat osteoporosis, can restore cartilage in a mouse model of injury-induced osteoarthritis of the knee. More studies are needed for both drugs.
Complementary and Alternative Therapies
In recent years, the nutritional supplement pair glucosamine and chondroitin has shown some potential for reducing the pain of osteoarthritis, though no conclusive proof has emerged to date. Both of these nutrients are found in shark cartilage, the shells of shellfish, and pig ears and noses, and are components of normal cartilage.
The Glucosamine/Chondroitin Arthritis Intervention Trial (GAIT), which was cosponsored by the National Center for Complementary and Alternative Medicine (NCCAM) and the NIAMS, assessed the effectiveness and safety of these supplements when taken together or separately. The trial found that the combination of glucosamine and chondroitin sulfate did not provide significant relief from osteoarthritis pain among all participants. However, a subgroup of study participants with moderate-to-severe pain showed significant relief with the combined supplements. The 4-year trial was conducted at 16 sites across the United States.
There are other complementary and alternative therapies under investigation. For example, a recent study found that a 60-minute “dose” of Swedish massage therapy delivered once a week for pain caused by osteoarthritis of the knee was both optimal and practical, establishing a standard for use in future research. This trial, funded by NCCAM, builds on an earlier pilot study of massage for knee osteoarthritis pain, which had promising results but provided no data to determine whether the dose was optimal. (The researchers defined an optimal, practical dose as producing the greatest ratio of desired effect compared to costs in time, labor, and convenience.)
The researchers noted that there is promising potential for the use of massage therapy for osteoarthritis of the knee and that future, larger trials should use this dose as a standard. Furthermore, they suggest that more definitive research is needed on massage for osteoarthritis of the knee, in terms of efficacy, how it may work in the body, and its cost effectiveness for patients.
Other research has shown that a deficiency of vitamin K—a fat-soluble vitamin found in leafy green vegetables such as broccoli, kale, spinach, and lettuces—is associated with the development of knee osteoarthritis. One recent study showed that although supplements of vitamin K appear to have no effect on osteoarthritis in most people, for people who are deficient in vitamin K, supplements could have a significant effect. In the study, participants who had insufficient levels of vitamin K at baseline but achieved sufficient concentrations at followup had almost 50 percent less joint space narrowing (a sign of cartilage damage) in their hands.
Healing Joint Injuries and Cartilage Damage
When the anterior cruciate ligament (ACL)—one of the main ligaments of the knee, which connects the shin bone to the thigh—is torn, it doesn’t heal the way other tissues do. Unless the tear is repaired, the knee can become unstable, resulting in damage to the joint surfaces and the eventual development of knee osteoarthritis. Traditionally, repair has involved replacing the ligament with ligament or tendon graft, but NIAMS-funded research shows that filling the tear with a collagen- and platelet-rich gel material may enable it to heal, making a graft unnecessary. Physicians believe that preserving the patient’s own ACL (if it becomes possible) would likely better protect the mechanics of the knee.
Other NIAMS-supported scientists are researching a way to patch damaged cartilage that will allow new cartilage to grow in and repair the damage. Using a unique weaving machine of their own design, the researchers have created a three-dimensional fabric scaffold patch. In laboratory tests, the scaffold had the same mechanical properties as native cartilage. In the future, surgeons will likely be able to impregnate custom-designed scaffold with cartilage-forming stem cells (taken from a person’s own fat tissue, for example) and biochemicals that stimulate their growth, and then implant them into a patient in a single procedure.
Osteoarthritis in all its various forms appears to have a strong but complex genetic connection. Gene mutations may be a factor in predisposing individuals to develop osteoarthritis. For example, scientists have identified a mutation (a gene defect) affecting collagen, an important part of cartilage, in patients with an inherited kind of osteoarthritis that starts at an early age. The mutation weakens collagen protein, which may break or tear more easily under stress.
The Johnston County Osteoarthritis Project, a University of North Carolina study focusing on a group of 5,000 adults, age 45 or older, identified six genes—ABCG2, GDF5, IL1RN, IL6, and VDR—that appear to increase susceptibility to knee osteoarthritis.
Patient Education and Self-Management
When patients understand and feel that they have some control over their chronic disease, the course of their disease is often improved. One NIAMS-supported study found that improvement can be made in the self-management of osteoarthritis when spouses provide help. The intervention that was tested used spouse-assisted coping skills training and exercise training to improve physical fitness, pain coping, and self-efficacy in patients with osteoarthritis of the knee. The results from the study suggest that a combination of both spouse-assisted pain coping skills training and exercise training leads to more improvements than could be achieved with either intervention alone.
Other research shows that patient education and social support is a low-cost, effective way to decrease pain and reduce the amount of medicine patients use. One NIAMS-funded project involves developing and testing an interactive website by which health professionals and patients could communicate concerning appointments and treatment instructions, thus giving patients a greater role in and control of their care.
Exercise and Weight Reduction
Exercise plays a key part in a comprehensive treatment plan. Researchers are studying exercise in greater detail and finding out just how to use it in treating or preventing osteoarthritis. For example, several scientists have studied knee osteoarthritis and exercise. Their results included the following:
Walking can result in better functioning, and the more you walk, the farther you will be able to walk. People with knee osteoarthritis who are active in an exercise program feel less pain. They also function better.
Research has shown that losing extra weight can help people who already have osteoarthritis. Moreover, overweight or obese people who do not have osteoarthritis may reduce their risk of developing the disease by losing weight.
More information on research is available from the following websites:
NIH Clinical Research Trials and You was designed to help people learn more about clinical trials, why they matter, and how to participate. Visitors to the website will find information about the basics of participating in a clinical trial, first-hand stories from actual clinical trial volunteers, explanations from researchers, and links to how to search for a trial or enroll in a research-matching program. ClinicalTrials.gov offers up-to-date information for locating federally and privately supported clinical trials for a wide range of diseases and conditions. NIH RePORTER is an electronic tool that allows users to search a repository of both intramural and extramural NIH-funded research projects from the past 25 years and access publications (since 1985) and patents resulting from NIH funding. PubMed is a free service of the U.S. National Library of Medicine that lets you search millions of journal citations and abstracts in the fields of medicine, nursing, dentistry, veterinary medicine, the health care system, and preclinical sciences. Hope for the Future
Research is opening up new avenues of treatment for people with osteoarthritis. A balanced, comprehensive approach is still the key to staying active and healthy with the disease. People with osteoarthritis should combine exercise, relaxation, education, social support, and medications in their treatment strategies. Meanwhile, as scientists unravel the complexities of the disease, new treatments and prevention methods should become apparent. Such developments are expected to improve the quality of life for people with osteoarthritis and their families.
For More Information National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
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Other Resources NIH Osteoporosis and Related Bone Diseases ~ National Resource Center
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National Institute on Aging
American Academy of Orthopaedic Surgeons
American College of Rheumatology
American Physical Therapy Association
Acupuncture. The use of fine needles inserted at specific points on the skin. Primarily used for pain relief, acupuncture may be a helpful component of an osteoarthritis treatment plan for some people.
Analgesics. Medications designed to relieve pain. Pure analgesics do not have an effect on inflammation.
Arthroscopy. A procedure involving a small incision that removes loose pieces of bone and cartilage from the joint.
Biomarkers. Physical signs or biological substances that indicate changes in bone or cartilage. Doctors believe they may one day be able to use biomarkers for diagnosing osteoarthritis before it causes noticeable joint damage and for monitoring the progression of the disease and its responsiveness to treatment.
Bone spurs. Small growths of bone that can occur on the edges of a joint affected by osteoarthritis. These growths are also known as osteophytes.
Bouchard’s nodes. Small, bony knobs associated with osteoarthritis of the hand that can occur on the middle joints of the fingers.
Cartilage. A hard but slippery coating on the end of each bone. The breakdown of joint cartilage is the primary feature of osteoarthritis.
Chondrocytes. Components of cartilage. Chondrocytes are cells that produce cartilage, are found throughout cartilage, and help it stay healthy as it grows. Sometimes, however, they release certain enzymes that destroy collagen and other proteins.
Chondroitin sulfate. A naturally existing substance in joint cartilage that is believed to draw fluid into the cartilage. Chondroitin is often taken in supplement form along with glucosamine as a treatment for osteoarthritis. See the "nutritional supplements" section under “Complementary and Alternative Therapies” for more information.
Collagen. A family of fibrous proteins that are components of cartilage. Collagens are the building blocks of skin, tendon, bone, and other connective tissues.
Corticosteroids. Powerful anti-inflammatory hormones made naturally in the body or man-made for use as medicine. Corticosteroids may be injected into the affected joints to temporarily reduce inflammation and relieve pain.
COX-2 inhibitors. A relatively new class of nonsteroidal anti-inflammatory drugs (NSAIDs) that are formulated to relieve pain and inflammation. For information about the risk posed by NSAIDs, see "NSAIDs" in the "How Is Osteoarthritis Treated?" section.
Estrogen. The major sex hormone in women. Estrogen is known to play a role in regulation of bone growth. Research suggests that estrogen may also have a protective effect on cartilage.
Glucosamine. A substance that occurs naturally in the body, providing the building blocks to make and repair cartilage. See the “glucosamine and chondroitin sulfate” section under “Complementary and Alternative Therapies” for more information.
Heberden’s nodes. Small, bony knobs associated with osteoarthritis of the hand that can occur on the joints of the fingers closest to the nail.
Hyaluronic acid. A substance that gives healthy joint fluid its viscous (slippery) property and that may be reduced in people with osteoarthritis. For some people with osteoarthritis of the knee, replacing hyaluronic acid with injections of agents referred to as viscosupplements is useful for increasing lubrication, reducing pain, and improving function.
Joint capsule. A tough membrane sac that holds the bones and other joint parts together.
Joint resurfacing. A procedure in which the damaged cartilage surfaces are replaced while the rest of the joint is left intact.
Ligaments. Tough bands of connective tissue that attach bones to each other, providing stability.
Magnetic resonance imaging (MRI). Provides high-resolution computerized images of internal body tissues. This procedure uses a strong magnet that passes a force through the body to create these images.
Muscles. Bundles of specialized cells that contract and relax to produce movement when stimulated by nerves.
Nonsteroidal anti-inflammatory drugs (NSAIDs). A class of medications available over the counter or with a prescription that ease pain and inflammation. Commonly used NSAIDs include ibuprofen, naproxen sodium, and ketoprofen. For information about the risks posed by NSAIDs, see “NSAIDs” in the “How Is Osteoarthritis Treated?” section.
Osteoarthritis. The most common form of arthritis. It is characterized by the breakdown of joint cartilage, leading to pain, stiffness, and disability.
Osteophytes. Small growths of bone that can appear on the edges of a joint affected by osteoarthritis. These growths are also known as bone spurs.
Osteotomy. A procedure that involves cutting and realigning bone, to shift the weight from a damaged and painful bone surface to a healthier one.
Proteoglycans. Components of cartilage. Made up of proteins and sugars, strands of proteoglycans interweave with collagens and form a mesh-like tissue. This allows cartilage to flex and absorb physical shock.
Rheumatoid arthritis. A form of arthritis in which the immune system attacks the tissues of the joints, leading to pain, inflammation, and eventually joint damage and malformation. It typically begins at a younger age than osteoarthritis does, causes swelling and redness in joints, and may make people feel sick, tired, and feverish. Rheumatoid arthritis may also affect skin tissue, the lungs, the eyes, or the blood vessels.
Stem cells. Primitive cells, usually taken from bone marrow, that can transform into other kinds of cells, such as muscle or bone cells. In the future, researchers hope to be able to insert stem cells into cartilage and stimulate them to replace cartilage damaged by arthritis or injury.
Synovium. A thin membrane inside the joint capsule that secretes synovial fluid.
Synovial fluid. A fluid secreted by the synovium that lubricates the joint and keeps the cartilage smooth and healthy.
Tendons. Tough, fibrous cords that connect muscles to bones.
Transcutaneous electrical nerve stimulation (TENS). A technique that uses a small electronic device to direct mild electric pulses to nerve endings that lie beneath the skin in a painful area. TENS may relieve some arthritis pain. It seems to work by blocking pain messages to the brain and by modifying pain perception.
X ray. A procedure in which low-level radiation is passed through the body to produce a picture called a radiograph. X rays of joints affected by osteoarthritis can show such things as cartilage loss, bone damage, and bone spurs.
The NIAMS gratefully acknowledges the assistance of the following individuals in the preparation and review of previous versions of this publication: Gayle Lester, Ph.D., Joan McGowan, Ph.D., James Panagis, M.D., Susana Serrate-Sztein, M.D., and Bernadette Tyree, Ph.D., NIAMS/NIH; Kenneth D. Brandt, M.D., Indiana University School of Medicine, Indianapolis, IN; Victor M. Goldberg, M.D., University Hospitals of Cleveland, OH; Marc C. Hochberg, M.D., M.P.H., University of Maryland, Baltimore, MD; John Klippel, M.D., Arthritis Foundation, Atlanta, GA; and Roland Moskowitz, M.D., Case Western Reserve University, Cleveland, OH. Special thanks also go to the patients who reviewed this publication and provided valuable input.
The mission of the National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS), a part of the U.S. Department of Health and Human Services’ National Institutes of Health (NIH), is to support research into the causes, treatment, and prevention of arthritis and musculoskeletal and skin diseases; the training of basic and clinical scientists to carry out this research; and the dissemination of information on research progress in these diseases. The NIAMS Information Clearinghouse is a public service sponsored by the NIAMS that provides health information and information sources. Additional information can be found on the NIAMS website at www.niams.nih.gov.
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