Osteoporosis

Nearly all occurrences of osteoporosis in both men and women are primary. Most cases occur in postmenopausal women and in older men.

A major cause of osteoporosis is a lack of estrogen, particularly the rapid decrease that occurs at menopause. Most men over 50 have higher estrogen levels than postmenopausal women, but these levels also decline with aging, and low estrogen levels are associated with osteoporosis in both men and women. Estrogen deficiency increases bone breakdown and results in rapid bone loss. In men, low levels of male sex hormones also contribute to osteoporosis. Bone loss is even greater if calcium intake or vitamin D levels are low. result in calcium deficiency, and increased activity of the parathyroid glands causes the glands to release too much parathyroid hormone (see hyperparathyroidism), which can also stimulate bone breakdown. Bone production also decreases.

A number of other factors, such as certain medications, tobacco use, heavy alcohol use, a family history of osteoporosis (for example, if a person's mother or father has had a hip fracture), and small body stature, increase the risk of bone loss and the development of osteoporosis in women. These risk factors are also important in men.

Examples of disorders that may cause secondary osteoporosis are chronic kidney disease, and hormonal disorders (especially Cushing disease, hyperparathyroidism, hyperthyroidism, hypogonadism, high levels of prolactin, and diabetes mellitus). Certain types of cancer, such as multiple myeloma, can cause secondary osteoporosis, as can other diseases such as celiac disease and rheumatoid arthritis. Examples of medications that, if used for a long time, may cause secondary osteoporosis are progesterone, corticosteroids, thyroid hormones, certain chemotherapy medications, and antiseizure medications. Excessive alcohol and cigarette smoking may contribute to osteoporosis.

Idiopathic osteoporosis is a rare type of osteoporosis. The word idiopathic simply means that the cause is unknown. This type of osteoporosis occurs in premenopausal women, in men under age 50, and in children and adolescents who have normal hormone levels, normal vitamin D levels, and no obvious reason to have weak bones.

Bone density testing can be used to detect or confirm suspected osteoporosis, even before a fracture occurs.

Dual-energy x-ray absorptiometry (DXA scan) is the most useful test of bone density. The DXA scan takes high-energy and low-energy x-rays of the spine and hip, which are the sites at which major fractures are likely to occur. The difference between the high- and low-energy x-ray readings allows doctors to calculate bone density. The result is reported as a T-score, which compares a person's bone density to the density of a healthy person of the same sex and race/ethnicity at the age of peak bone mass, which is about age 30. The lower the bone density, the lower the T-score. A T-score of -2.5 or lower defines osteoporosis.

DXA scans are painless, involve very little radiation, and can be done in about 10 to 15 minutes. They may be useful for monitoring the response to treatment as well as for making the diagnosis. DXA scans may also reveal osteopenia, a condition in which bone density is decreased but not as severely as in osteoporosis. People who have osteopenia also have an increased risk of fractures. It is important for your doctor to calculate a fracture risk assessment (FRAX) score, which provides an estimate of your risk for fracture.

People who are already taking a bisphosphonate or an anabolic agent should have repeat DXA scans to monitor the effectiveness of the treatment.

Blood tests may be done to measure calcium, vitamin D, and levels of certain hormones.

Further testing may be needed to rule out treatable conditions that might lead to osteoporosis. If such a condition is found, the diagnosis is called secondary osteoporosis.

Consuming an adequate amount of nutrients, particularly calcium and vitamin D, is helpful, especially before maximum bone density is reached (around age 30) but also after this time. Vitamin D helps the body absorb calcium.

All men and women should consume at least 1,000 milligrams of calcium each day. Postmenopausal women, older men, children who are going through puberty, and women who are pregnant or breastfeeding may need to consume 1,200 to 1,500 milligrams each day. Calcium in food is preferred over calcium supplements. Foods rich in calcium include dairy products (such as milk and yogurt), certain vegetables (such as broccoli), nut milks (such as almond milk), and nuts (such as macadamia). See table Amount of Calcium in Some Foods.

People with osteoporosis should consume 600 to 800 international units (IUs) of supplemental vitamin D each day. People with osteoporosis who have may need even higher doses. Sometimes doctors check the level of vitamin D in the blood to determine how much supplemental vitamin D should be taken. The most common food source is fortified foods, mainly cereals and dairy products. Vitamin D is also present in fish liver oils and fatty fish. Supplemental vitamin D is usually given as cholecalciferol, the natural form of vitamin D, or ergocalciferol, the synthetic plant-derived form.

Weight-bearing exercise, such as walking and stair-climbing, increases bone density. Exercises that do not involve weight bearing, such as swimming, do not increase bone density but do increase core strength and balance and reduce the risk of falls. Most experts recommend about 30 minutes of weight-bearing exercise daily. A physical therapist can develop a safe exercise program for people and demonstrate how to safely perform daily activities to minimize the risk of falls and spine fractures.

In premenopausal women, high levels of exercise, such as those maintained by athletes, without adequate dietary intake can lead to weight loss and amenorrhea (absence of menstrual cycles), which can cause a reduction in bone density.

Bisphosphonates

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• Women who are pregnant or nursing

• People who have low levels of calcium in the blood

• People who have severe kidney disease

Most people need to take these medications for 3 or 5 years, but some people at particularly high risk for fracture may need to take them longer. How long people need to take a bisphosphonate is determined by the doctor and is based on a person's medical condition and risk factors for fracture. During and after treatment with a bisphosphonate, doctors usually perform periodic tests to determine whether bone mass is decreasing. If bone mass is decreasing after stopping a bisphosphonate, treatment with a bisphosphonate may be restarted or another medication may be initiated.

Osteonecrosis of the jaw is a rare condition that has occurred in some people who take bisphosphonates, , or . In this condition, the jaw bone heals poorly, particularly in people who have had invasive dental work involving the jaw bone. The risk of developing osteonecrosis of the jaw is exceptionally low in people taking bisphosphonates, and the likely benefits of treating osteoporosis to prevent bone fractures usually far outweigh the potential risks. When used as prescribed, bisphosphonates prevent many more fractures than cases of osteonecrosis of the jaw they might cause. People who take bisphosphonates intravenously, who have had radiation therapy to the head and neck to treat cancer, or a combination are at highest risk.

Long-term use of bisphosphonates may increase the risk of developing unusual fractures of the thighbone (femur). To reduce the risk of these fractures, doctors may have people stop taking bisphosphonates for 1 to 2 years or longer. These planned periods of time are called bisphosphonate holidays or drug holidays. How long a bisphosphonate holiday lasts is carefully considered by doctors. Doctors base the decision on certain factors such as a person's age, DXA scan results, whether they have had fractures, and how likely they are to have a fall. People who are on a bisphosphonate holiday should be routinely monitored for decreasing bone density. Because the risk of fracture does increase while people are on a drug holiday, doctors try to balance the benefits of the bisphosphonates with the possible side effects.

Overall, when used as prescribed, the benefits of bisphosphonates in preventing bone fractures far outweigh the potential risks.

is similar to the bisphosphonates in that it prevents bone loss. Denosumab is given as an injection under the skin in a doctor's office two times a year. Like bisphosphonates, denosumab very rarely causes osteonecrosis of the jaw and may increase the risk of developing unusual fractures of the thighbone. Denosumab has been studied in patients with chronic kidney disease and, with appropriate monitoring, has been found to be safe to use. People taking denosumab should not miss doses or undergo a drug holiday because delayed doses or stopping this medication may cause a loss in bone density and may increase the risk of vertebral fractures.

is an estrogen-like medication that may be useful in preventing and treating bone loss, but it does not have some of estrogen's negative side effects. Raloxifene is used in people who cannot or prefer not to take bisphosphonates. Raloxifene can reduce the risk of vertebral fractures and may reduce the risk of invasive breast cancer.

testosterone level is low.

Hormonal therapy (for example, with estrogen) helps maintain bone density in women and can be used for prevention or treatment. However, because the risks of hormonal therapy may exceed its benefits for many women, hormonal therapy is usually not the treatment option used. Decisions about using estrogen replacement therapy after menopause are complex (see Hormone Therapy for Menopause).

which inhibits the breakdown of bone, has been studied for treatment of osteoporosis. Calcitonin has not been shown to reduce fracture risk, but it can help relieve pain caused by vertebral fractures. Calcitonin is usually taken by nasal spray. Its use can decrease blood levels of calcium, so these levels must be monitored.

increases bone density in the hip and lumbar spine and reduces the risk of fracture in postmenopausal women. Romosozumab is given as an injection once a month for 1 year. People should not take romosozumab within 12 months after having had a heart attack or stroke.

Anabolic agentsparathyroid hormoneparathyroid hormone) are self-injected daily. This therapy is used in some people who

• Develop marked bone loss or new fractures while being treated with a bisphosphonate

• Cannot take bisphosphonates

• Have unusually severe osteoporosis or many fractures (particularly vertebral fractures)

• Have osteoporosis caused by corticosteroids

Back pain resulting from a vertebral compression fracture can be treated with pain relievers and sometimes moist heat and massageweight-bearing exercises.

Fractures resulting from osteoporosis must be treated. For hip fractures, usually the joint is stabilized and often part or all of the hip is replaced surgically. Surgery may be needed for a wrist fracture, or the wrist may need to be placed in a cast. Additionally, people who have had an osteoporosis-related fracture should be treated with an osteoporosis medication and should make sure they consume adequate amounts of .

A collapsed vertebra can be repaired by a procedure called vertebroplasty. In this procedure, a material called methyl methacrylate (MMA)—an acrylic bone cement—is injected into the collapsed vertebra, helping to relieve pain and reduce deformity. Kyphoplasty is a similar procedure, in which a small balloon is used to expand the vertebra before the injection of the MMA. With vertebroplasty and kyphoplasty, deformity may be reduced in the MMA-injected bone, but the risk of fractures in adjacent bones in the spine or ribs does not decrease and may even increase. Other risks may include rib fractures, cement leakage, and possibly heart or lung problems. When these procedures should be done has not been clearly determined.