Osteoporosis

Osteoporosis is a disease of bone in which bone mineral density (BMD) is reduced and bone microarchitecture is disrupted. Osteoporotic bones are susceptible to fracture. It is defined according to the bone mineral density as measured by DEXA: a BMD of 2.5 standard deviations below the peak bone mass (20-year-old person standard) is indicative of osteoporosis. While treatment modalities are becoming available, prevention is still the most important way to reduce fracture. Due to its hormonal component, more women suffer from osteoporosis than men.

Signs and symptoms

Clinical picture
Osteoporotic fractures are those that occur under slight amount of stresses that would not normally lead to fractures in nonosteoporotic people. Typical fractures occur in the vertebral column, hip and wrist. Collapse of vertebrae ("compression fracture") leads to chronic pain, characteristic bent stature, and decreased pulmonary function (ability to breathe) while the fractures of the long bones acutely impair mobility and may require surgery. Hip fracture, in particular, carries a poor prognosis.

While osteoporosis may occur in men, the problem is overwhelmingly prevalent in postmenopausal women.

Risk factors
Risk factors for osteoporotic fracture can be split between modifiable and non-modifiable:

Nonmodifiable: history of fracture as an adult, family history of fracture, female sex, advanced age, European ancestry, and dementia
Potentially modifiable: prolonged intake of the prescription drug prednisone, tobacco smoking, intake of soft drinks (containing phosphoric acid), low body weight <58 kg (127 lb), estrogen deficiency, early menopause (<45 years) or bilateral oophorectomy, prolonged premenstrual amenorrhea (>1 year), low calcium and vitamin D intake, alcoholism, impaired eyesight despite adequate correction, recurrent falls, inadequate physical activity (i.e. too little or also if done in excess), high risk of falls, poor health/frailty.

Diagnosis
Dual energy X-ray absorptiometry (DXA, formerly DEXA) is considered the gold standard for diagnosis of osteoporosis. Diagnosis is made when the bone mineral density is equal to or greater than 2.5 standard deviations below that of a young adult reference population. This is translated as a T-score. The World Health Organization has established diagnostic guidelines as T-score -1.0 or greater is "normal", T-score between -1.0 and -2.5 is "low bone mass" (or "osteopenia") and -2.5 or below as osteoporosis. A low trauma or osteoporotic fracture, defined as one that occurs as a result of a fall from a standing height, is also diagnostic of osteoporosis regardless of the T-score.

In order to differentiate between "primary" (post-menopausal, regardless of age, or senile - related to age) and "secondary" osteoporosis, blood tests and X-rays are usually done to rule out cancer with metastasis to the bone, multiple myeloma, Cushing's disease and other causes mentioned above.

Natural history
Today, most cases of osteoporosis are diagnosed before symptoms develop. This is due to widespread screening for osteoporosis using the DEXA scan. With treatment, bone mineral density increases, and fracture risk decreases.

In the absence of treatment, overt osteoporosis is heralded by a fracture. Some fractures, like vertebral compression fractures or sacral insufficiency fractures, may not be apparent at first, appearing to patient and physician as a very bad back ache or completely without symptoms. Hip fractures and wrist fractures are more obvious.

Hip fractures are responsible for the most serious consequences of osteoporosis. In the United States, osteoporosis causes a predisposition to more than 250,000 hip fractures yearly. It is estimated that a 50-year-old white woman has a 17.5% lifetime risk of fracture of the proximal femur. The incidence of hip fractures increases each decade from the sixth through the ninth for both women and men for all populations. The highest incidence is found among those men and women ages 80 or older.

An estimated 700,000 women have a first vertebral fracture each year. The lifetime risk of a clinically detected symptomatic vertebral fracture is about 15% in a 50-year-old white woman.

Distal radius fractures, usually of the Colles type, are the third most common type of osteoporotic fractures. In the United States, the total annual number of Colles' fractures is about 250,000. The lifetime risk of sustaining a Colles' fracture is about 16% for white women. By the time women reach age 70, about 20% have had at least one wrist fracture.

Treatment
Patients at risk for osteoporosis (e.g. steroid use) are generally treated with vitamin D and calcium supplements. In renal disease, a different form of Vitamin D (1.25 dihydroxycholecalciferol) is used, as the kidney cannot adequately activate vitamin D from precursors.

In osteoporosis (or a very high risk), bisphosphonate drugs are prescribed. The most often prescribed bisphosphonates are presently sodium alendronate (Fosamax®) 10 mg a day or 70 mg once a week, risedronate (Actonel®) 5mg a day or 35mg once a week or and ibandronate (Boniva®). Other medicines prescribed for prevention of osteoporosis include raloxifene (Evista®), a selective estrogen receptor modulator (SERM). Estrogen replacement remains a good treatment for prevention of osteoporosis but, at this time, is not recommended unless there are other indications for its use as well.

Recently, teriparatide (Forteo®, recombinant parathyroid hormone 1-34) has been shown to be effective in osteoporosis. It is used mostly for patients who have already fractured, have particularly low BMD or several risk factors for fracture or cannot tolerate the oral bisphosphonates. It is given as a daily injection with the use of a pen-type injection device. Oral Strontium ranelate has also become available; this agent may also increase bone, rather than simply halting its breakdown. Both teriparatide and strontium are registered only for treatment if bisphosphonates have failed or are contraindicated (however, this differs by country).

Changes to lifestyle factors and diet are also recommended; the "at-risk" patient should include 1500mg of calcium daily either via dietary means (for instance, an 8 oz glass of milk contains approximately 300 mg of calcium) or via supplementation. The body will absorb only about 500 mg of calcium at one time and so intake should be spread throughout the day. However, the benefit of supplementation of calcium alone remains, to a degree, controversial since several nations with high calcium intakes through milk-products (e.g. the USA, Sweden) have some of the highest rates of osteoporosis worldwide. A few studies even suggested an adverse affect of calcium excess on bone density and blamed the milk industry for misleading customers. Some nutrionists assert that excess consumption of dairy products causes acification, which leaches calcium from the system, and argue that vegetables and nuts are a better source of calcium and that in fact milk products should be avoided. In any case, thirty minutes of weight-bearing exercise such as walking or jogging, three times a week, has been shown to increase bone mineral density, and reduce the risk of falls by strengthening the major muscle groups in the legs and back.

Increasing vitamin D intake has been shown to reduce fractures up to twenty-five percent in older people, according to recent studies.

There is some evidence to suggest bone density benefits from taking the following supplements (in addition to calcium and vitamin D): boron, magnesium, zinc, copper, manganese, silicon, strontium, folic acid, and vitamins B6, C, and K