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DEXA Scanning
Every day, physicians use radiography, or x-rays, to view and evaluate bone fractures and other injuries of the musculoskeletal system. However, a plain x-ray test is not the best way to assess bone density. To detect osteoporosis accurately, doctors use an enhanced form of x-ray technology called dual-energy x-ray absorptiometry (DXA or DEXA). DEXA bone densitometry is today's established standard for measuring bone mineral density (BMD). DEXA is a quick, painless procedure for measuring bone loss. Measurement of the lower spine and hips are most often done. More portable devices that measure the wrist, fingers or heel are sometimes used for screening, including some that use ultrasound waves rather than x-rays. What are some common uses of the procedure?
DEXA bone densitometry is used most often to diagnose osteoporosis, a condition that often affects women after menopause, but may also be found in men. Osteoporosis involves a gradual loss of calcium, causing the bones to become thinner, more fragile, and more likely to break. The DEXA test can also assess your risk for developing fractures. If your bone density is found to be low, you and your physician can work together on a treatment plan to help prevent fractures before they occur. DEXA is also effective in tracking the effects of treatment for osteoporosis or for other conditions that cause bone loss. Bone density testing is strongly recommended if you:
How should I prepare for the procedure?On the day of the exam, eat normally, but don't take calcium supplements for at least 24 hours beforehand. Wear loose, comfortable clothing, avoiding garments that have zippers, belts, or buttons made of metal. Inform your physician if you recently had a barium examination or have been injected with a contrast material for a computed tomography (CT) scan or radioisotope scan; you may have to wait 10-14 days before undergoing a DEXA test. Women should always inform their physician or x-ray technologist if there is a possibility they are pregnant. What does the equipment look like?There are two types of DEXA equipment: the central device and the peripheral device. Central DEXA devices measure bone density in the hip and spine, while peripheral devices measure it in the wrist, heel, or finger. The central DEXA device is used in hospitals and medical offices, while the smaller peripheral device is available in drugstores and on mobile health vans in the community. CT scanners also can be used effectively to evaluate the spine and hip for osteoporosis. Central devices have a large, flat table and an "arm" suspended overhead. The arm swings away so that the table can be used as a treatment table or exam chair for routine patient examinations. The peripheral DEXA (pDEXA) device weighs only about 60 pounds. It is a portable box-like structure that includes a space to insert your foot or forearm for imaging. How does the procedure work?The DEXA machine sends a thin, invisible beam of low-dose x-rays through your bones via two energy streams. It relies on two distinct energy peaks: one peak is absorbed mainly by soft tissue and the other by bone. The soft tissue amount can be subtracted from the total, and what remains is a patient's bone mineral density. All devices feature special software to compute the data and display them on a computer monitor, allowing your doctor to make an accurate diagnosis. The amount of radiation used is extremely small—less than one tenth the dose of a standard chest x-ray. How is the procedure performed?The DEXA bone density test takes between 10 and 30 minutes, depending on the equipment used and the parts of the body being examined. You may be asked to undress and put on a hospital gown. Then, you'll lie on a padded table with an x-ray generator below and a detector (an imaging device) above. Most often, doctors focus on bone loss in the spine and hip where most osteoporosis-related fractures happen. During an examination of the spine, your legs will be supported on a padded box to flatten your pelvis and lower (lumbar) spine. To assess your hip, the technologist will place your foot in a brace that rotates the hip inward. In both cases, the detector is slowly passed over the area, generating images on a computer monitor. The peripheral DEXA (pDEXA) test is even simpler. You place your finger, hand, forearm or foot in a small device, and a bone density reading is obtained within a few minutes. These tests may not be as sensitive—especially in younger people—and cannot be used to monitor response to treatment. What will I experience during the procedure?DEXA bone densitometry is a simple, non-invasive procedure. Once on the table, you may be asked to hold an awkward position for a short time while the arm of the machine passes over your body taking measurements. It is important that you stay as still as possible during the procedure to ensure a clear, useful image. No anesthesia is required. The procedure is painless, and radiation exposure is minimal. Who interprets the results and how do I get them?The results of a DEXA bone density exam are interpreted by a radiologist, who is a physician specially trained to diagnose conditions and diseases by obtaining and interpreting medical images. The radiologist will send an interpretation of your results and a signed report to your primary care physician, who will work with you to develop a treatment plan. Usually available within a few days, your test results will be in the form of two scores: T score — This number shows the amount of bone you have compared to a young adult of the same gender with peak bone mass. A score above -1 is considered normal. A score between -1 and -2.5 is classified as osteopenia, the first stage of bone loss. A score below -2.5 is defined as osteoporosis. It is used to estimate your risk of developing a fracture. Z score — This number reflects the amount of bone you have compared to other people in your age group and of the same size and gender. If it is unusually high or low, it may indicate a need for further medical tests. What are the benefits vs. risks?Benefits Risks What are the limitations of Ultrasound Imaging of the Breast?
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