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NUCLEAR MEDICINE 3D/ 4D ULTRASOUND GENERAL ULTRASOUND
DIGITAL MAMMOGRAPHY X-RAY BONE MINERAL DENSITY

General Ultrasound

Frequently Asked Questions

What is Ultrasound?
Ultrasound (US) or sonography involves the sending of sound waves through the body. Those sound waves are reflected off the internal organs. The reflections are then interpreted by special instruments that subsequently create an image of anatomic parts. No ionizing radiation (x-ray) is involved in ultrasound imaging.

An ultrasound image is a useful way of evaluating the body's circulatory system. Ultrasound images are captured in real-time, so they can help radiologists monitor the blood flow to organs and tissues throughout the body, as well as evaluate the placement and success of repair, such as after arterial bypass surgery. With ultrasound images, radiologists can locate and identify blockages (stenosis) and abnormalities like blood clots, plaque, or emboli, and help plan for their effective treatment. Return to Ultrasound FAQ

 

How should I prepare for the procedure?
You should wear comfortable, loose-fitting clothing for your ultrasound exam. No other preparation is required. If your abdominal vessels are being studied, you will need to fast before the procedure. Return to Ultrasound FAQ

How does the procedure work?
Ultrasound imaging is based on the same principles involved in the sonar used by bats, ships at sea, and anglers with fish detectors. As a controlled sound bounces against objects, its echoing waves can be used to identify how far away the object is, how large it is, its shape and its internal consistency (fluid, solid or mixed).

The ultrasound transducer functions as both a loudspeaker (to create the sounds) and a microphone (to record them). When the transducer is pressed against the skin, itdirects a stream of inaudible, high-frequency sound waves into the body. As the sound waves echo from the body's fluids and tissues, the sensitive microphone in the transducer records tiny changes in the sound's pitch and direction. These signature waves are instantly measured and displayed by a computer, which in turn creates a real-time picture on the monitor. The live images of the examination can be recorded on videotape. In addition, still frames of the moving picture are usually "frozen" to capture a series of images. Blood flow changes the pitch of the sound beam; this Doppler effect can be heard or detected on the image as color or displayed graphically. Return to Ultrasound FAQ

How is the procedure performed?
The patient is positioned on an examination table that can tilt and move. A clear gel is applied to the area that will be examined. The gel helps the transducer make a secure contact and eliminates air pockets between the transducer and the skin, since the sound waves cannot penetrate air. The sonographer, vascular technologist, or radiologist then presses the transducer firmly against the skin and sweeps along the area of interest, reviewing the images on the monitor and capturing "snapshots" as required. For venous ultrasound examinations, the transducer is pressed gently on the leg. When the examination is complete, the patient may be asked to dress and wait while the ultrasound images are reviewed, either on film or on a monitor. Often, though, the sonographer or radiologist is able to review the ultrasound images in real time as they are acquired, and the patient can be released immediately. Return to Ultrasound FAQ

 

What will I experience during the procedure?
Most ultrasound studies are fast and easy. You will lie on your back on an examining table that may be tilted or moved to provide access to the area that will be imaged. The sonographer or radiologist will spread some gel on your skin and then press the transducer firmly against your body, moving it until the desired images are captured. Most exams take less than 30 minutes; however, more complicated examinations may take somewhat longer. Return to Ultrasound FAQ

What are the benefits vs. risks?

Benefits:

  1. Ultrasound scanning is noninvasive (no needles or injections) and usually painless.
  2. Ultrasound is widely available and easy to use.
  3. Ultrasound uses no ionizing radiation.
  4. Ultrasound images can demonstrate structure, movement and function in the body's blood vessels in real-time.

Risks:
For standard diagnostic ultrasound there are no known harmful effects on humans.
Return to Ultrasound FAQ

What are the limitations of Ultrasound Imaging?

  • Vessels deep in the body are harder to see than superficial vessels. Specialized equipment may be necessary.
  • Calcifications that occur as a result of atherosclerosis may obstruct the ultrasound beam.

Sometimes the ultrasound cannot tell the difference between a blood vessel that is closed or very nearly closed because the weak volume of blood flow produces a weak signal. Return to Ultrasound FAQ

 
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PET/CT MRI CT (CT 64)
NUCLEAR MEDICINE 3D/ 4D ULTRASOUND GENERAL ULTRASOUND
DIGITAL MAMMOGRAPHY X-RAY BONE MINERAL DENSITY

Full Field Digital Mammography

Digital mammography, also called full-field digital mammography (FFDM), is a mammography system in which the x-ray film is replaced by solid-state detectors that convert x-rays into electrical signals. These detectors are similar to those found in digital cameras. The electrical signals are used to produce images of the breast that can be seen on a computer screen or printed on special film similar to conventional mammograms. From the patient's point of view, digital mammography is essentially the same as the screen-film system.

Computer-aided detection (CAD) systems use a digitized mammographic image that can be obtained from either a conventional film mammogram or a digitally acquired mammogram. The computer software then searches for abnormal areas of density, mass, or calcification that may indicate the presence of cancer. The CAD system highlights these areas on the images, alerting the radiologist to the need for further analysis.


Before scheduling a mammogram, discuss any new findings or problems in your breasts with your doctor. In addition, inform your doctor of any prior surgeries, hormone use, and family or personal history of breast cancer.
Do not schedule your mammogram for the week before your period if your breasts are usually tender during this time. The best time for a mammogram is one week following your period. Always inform your doctor or x-ray technologist if there is any possibility that you are pregnant.

  • Do not wear deodorant, talcum powder or lotion under your arms or on your breasts on the day of the exam. These can appear on the mammogram as calcium spots.
  • Describe any breast symptoms or problems to the technologist performing the exam.
  • If possible, obtain prior mammograms and make them available to the radiologist at the time of the current exam.
  • Ask when your results will be available; do not assume the results are normal if you do not hear from your doctor or our facility.

 

Frequently Asked Questions

What will I experience during the procedure?
You will feel pressure on your breast as it is squeezed by the compressor. Some women with sensitive breasts may experience discomfort. If this is the case, schedule the procedure when your breasts are least tender. Be sure to inform the technologist if pain occurs as compression is increased. If discomfort is significant, less compression will be used.
Ultras Return to Mammogram FAQ

What is Mammography?
Mammography is a specific type of imaging that uses a low-dose x-ray system for examination of the breasts. The images of the breasts can be viewed on film at a view box or as soft copy on a digital mammography work station. Most medical experts agree that successful treatment of breast cancer often is linked to early diagnosis. Mammography plays a central part in early detection of breast cancers because it can show changes in the breast up to two years before a patient or physician can feel them. Current guidelines from the U.S. Department of Health and Human Services (HHS), the American Cancer Society (ACS), the American Medical Association (AMA) and the American College of Radiology (ACR) recommend screening mammography every year for women, beginning at age 40. The National Cancer Institute (NCI) adds that women who have had breast cancer and those who are at increased risk due to a genetic history of breast cancer should seek expert medical advice about whether they should begin screening before age 40 and about the frequency of screening. Return to Mammogram FAQ

What are some common uses of the procedure?
Mammography is used to aid in the diagnosis of breast diseases in women. Screening mammography can assist your physician in the detection of disease even if you have no complaints or symptoms. Initial mammographic images themselves are not always enough to determine the existence of a benign or malignant disease with certainty. If a finding or spot seems suspicious, your radiologist may recommend further diagnostic studies. Return to Mammogram FAQ

How should I prepare for the procedure?
Before scheduling a mammogram, the ACS and other specialty organizations recommend that you discuss any new findings or problems in your breasts with your doctor. In addition, inform your doctor of any prior surgeries, hormone use, and family or personal history of breast cancer. Do not schedule your mammogram for the week before your period if your breasts are usually tender during this time. The best time is one week following your period. Always inform your doctor or x-ray technologist if there is any possibility that you are pregnant. The ACS also recommends:

  • Do not wear deodorant, talcum powder, or lotion under your arms or on your breasts on the day of the exam. These can appear on the x-ray film as calcium spots.
  • Describe any breast symptoms or problems to the technologist performing the exam.
  • If possible, obtain prior mammograms and make them available to the radiologist at the time of the current exam.
  • Ask when your results will be available; do not assume the results are normal if you do not hear from your doctor or the mammography facility.

In addition, before the examination, you will be asked to remove all jewelry and clothing above the waist and you will be given a gown or loose-fitting material that opens in the front. Return to Mammogram FAQ

What does the equipment look like?
A mammography unit is a rectangular box that houses the tube in which x-rays are produced. The unit is dedicated equipment, because it is used exclusively for x-ray exam of the breast with special accessories that allow only the breast to be exposed to the x-rays. Attached to the unit is a device that holds and compresses the breast and positions it so images can be obtained at different angles. Return to Mammogram FAQ

How does the procedure work?
The breast is exposed to a small dose of radiation to produce an image of internal breast tissue. The image of the breast is produced as a result of some of the x-rays being absorbed (attenuation) while others pass through the breast to expose either a film (conventional mammography) or digital image receptor (digital mammography). The exposed film is either placed in a developing machine, producing images much like the negatives from a 35mm camera, or images are digitally stored on computer. Return to Mammogram FAQ

How is the procedure performed?
During mammography, a specially qualified radiologic technologist will position you to image your breast. The breast is first placed on a special platform and compressed with a paddle (often made of clear Plexiglas or other plastic).

Breast compression is necessary in order to:

  • even out the breast thickness so that all of the tissue can be visualized.
  • spread out the tissue so that small abnormalities won't be obscured by overlying breast tissue.
  • allow the use of a lower x-ray dose since a thinner amount of breast tissue is being imaged.
  • hold the breast still in order to eliminate blurring of the image caused by motion.
  • reduce x-ray scatter to increase sharpness of picture.

The technologist will go to behind a glass shield while making the x-ray exposure, which will send a beam of x-rays through the breast to the film behind the plate, thus exposing the film. You will be asked to change positions slightly between images. The routine views are a top-to-bottom view and a side view. The process is repeated for the other breast. The examination process should take about half an hour. When the mammography is completed you will be asked to wait until the technologist examines the images to determine if more are needed. Return to Mammogram FAQ

Who interprets the results and how do I get them?
A radiologist, who is a physician experienced in mammography and other x-ray examinations, will analyze the images, describe any abnormalities, and suggest a likely diagnosis. The report will be dictated by the radiologist, and then sent to your referring physician. You will also be notified of the results by the mammography facility. This notification is usually sent a few days after the official report goes to your doctor. New technology also allows for distribution of diagnostic reports and referral images over the Internet at some facilities. Return to Mammogram FAQ

What are the benefits vs. risks?

Benefits:

  • Imaging of the breast improves a physician's ability to detect small tumors. When cancers are small, the woman has more treatment options, and a cure is more likely.
  • The use of screening mammography increases the detection of small abnormal tissue growths confined to the milk ducts in the breast, called ductal carcinoma in situ (DCIS). These early tumors cannot harm patients if they are removed at this stage and mammography is the only proven method to reliably detect these tumors.

Risks:

  • The effective radiation dose from a mammogram is about 0.3 mSv, which is about the same as the average person receives from background radiation in one month. The Federal mammography guidelines require that each unit be checked by a medical physicist each year to insure that the unit operates correctly.
  • Women should always inform their doctor or x-ray technologist if there is any possibility that they are pregnant.

False Positive Mammograms. Between five and 10 percent of screening mammogram results are abnormal and require more testing (more mammograms, fine needle aspiration, ultrasound, or biopsy), and most of the follow-up tests confirm that no cancer was present. It is estimated that a woman who has yearly mammograms between ages 40 and 49 would have about a 30 percent chance of having a false-positive mammogram at some point in that decade, and about a 7 to 8 percent chance of having a breast biopsy within the 10-year period. The estimate for false-positive mammograms is about 25 percent for women ages 50 or older. Return to Mammogram FAQ

Whatare the limitations of Mammography?
Interpretations of mammograms can be difficult because a normal breast can appear differently for each woman. Also, the appearance of an image may be compromised if there is powder or salve on the breasts or if you have undergone breast surgery. Because some breast cancers are hard to visualize, a radiologist may want to compare the image to views from previous examinations. Not all cancers of the breast can be seen on mammography.

Breast implants can also impede accurate mammogram readings because both silicone and saline implants are not transparent on x-rays and can block a clear view of the tissues behind them, especially if the implant has been placed in front of, rather than beneath, the chest muscles. But the NCI says that experienced technologists and radiologists know how to carefully compress the breasts to improve the view without rupturing the implant. When making an appointment for a mammogram, women with implants should ask if the facility uses special techniques designed to accommodate them. Before the mammogram is taken, they should make sure the technologist is experienced in performing mammography on patients with breast implants. Return to Mammogram FAQ
 
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NUCLEAR MEDICINE 3D/ 4D ULTRASOUND GENERAL ULTRASOUND
DIGITAL MAMMOGRAPHY X-RAY BONE MINERAL DENSITY

What What are some common uses of the procedure?
X-ray is typically performed as the first imaging test for symptoms of shortness of breath, a bad or persistent cough, chest pain, chest injury, or fever. Individuals with known or suspected medical conditions such as congestive heart failure or cancer may have chest x-rays to follow their response to treatment, or to determine changes that would reqiure a change in their medical management. Return to X-Ray FAQ

How should I prepare for the procedure?
This procedure requires no special preparation. Women should always inform their doctor or x-ray technologist if there is any possibility that they are pregnant.Return to X-Ray FAQ

What will I experience during the procedure?
This is a painless procedure. The primary discomfort may come from the coldness of the recording plate. Individuals with arthritis or injuries to the chest wall, shoulders, or arms may have discomfort trying to maintain position for the chest x-ray. In these circumstances, the technologist will assist you in finding a position that still ensures diagnostic image quality. Return to X-Ray FAQ

 

What are the benefits vs. risks?

Benefits:

  • A physician may recommend a chest x-ray for a patient with shortness of breath, a bad or persistent cough, chest pain, or a chest injury. In the instances of pneumonia, the site of pneumonia will appear white on the image.
  • A chest x-ray may also show advanced emphysema as well as other diffuse lung conditions, such as pulmonary fibrosis.
  • Lung cancers and tumors that spread to the lung may be visible on chest x-ray. However, lesions that are small or superimposed on normal structures may not always be visible.
  • Heart irregularities, such as fluid around the heart (pericardial effusion), an enlarged heart, or abnormal heart anatomy or congestive heart failure may also be visible on a chest x-ray.
  • Pleural effusions (fluid around the lungs) on one or both sides can be detected. Usually the cause of such fluid may be deduced from clinical data or other findings on the chest x-ray but it may be necessary to sample the fluid to determine its cause.

Risks:

  • X-rays are a type of electromagnetic radiation, are invisible and create no sensation when they pass through the body. The chest x-ray is one of the lowest radiation exposure medical examinations performed today.
  • Special care is taken during chest x-ray examinations to ensure maximum safety for the patient by paying attention to correct x-ray beam energies. Shielding the abdomen and pelvis with a lead apron helps reduce unnecessary radiation to the abdomen and pelvis. Women should always inform their doctor or x-ray technologist if there is any possibility that they are pregnant.
  • The effective radiation dose from this procedure is about 0.1 mSv which is about the same as the average person receives from background radiation in 10 days.

Radiation risks are further minimized by:

  • The use of x-ray sensitive materials (film) that require little radiation to produce an optimal image.
  • Technique standards established by national and international guidelines that have been designed and are continually reviewed by national and international radiology protection councils.

Modern, state-of-the-art x-ray systems that have tightly controlled x-ray beams with significant x-ray beam filtration and dose control methods. Thus, stray or scatter radiation is minimized and those parts of a patient's body not being imaged receive minimal exposure. Return to X-Ray FAQ

What are the limitations of X-Ray?
The x-ray is a very useful examination, but has limitations. Some conditions will not show up on the image. Therefore, a normal radiograph does not necessarily rule out problems. For example, patients with asthma exacerbations can have normal radiographs. Cancers that are small or inconspicuous may not be visible. Pulmonary embolism is rarely diagnosed from the x-ray; more sophisticated imaging such as CTPA (computed tomographic pulmonary arteriography) is ultimately necessary to establish the diagnosis. It is also known that CT scan detects smaller lung cancers than x-ray. However, CT also detects many more small abnormalities that ultimately prove to be benign after further testing. It is NOT known whether CT detection of lung cancers actually saves lives—this question is being evaluated at this time. It is important to realize that some conditions that involve the lungs are better evaluated with HRCT (high resolution CT). Chest x-ray and physical examination may be done jointly and should be correlated. The information each procedure provides can give a physician a clearer understanding of a patient's health. A chest CT may be requested by the referring physician to further clarify a finding seen on the chest x-ray or to look for an abnormality not visible on a chest x-ray in order to answer the clinical problem. Return to X-Ray FAQ
 
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PET/CT MRI CT (CT 64)
NUCLEAR MEDICINE 3D/ 4D ULTRASOUND GENERAL ULTRASOUND
DIGITAL MAMMOGRAPHY X-RAY BONE MINERAL DENSITY

BONE MINERAL DENSITY

Frequently Asked Questions

What Radiography-based (X-ray) Bone Densitometry?
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. Return to BMD FAQ

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. Return to BMD FAQ

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. Return to BMD FAQ

What are the benefits vs. risks?

Benefits:

DEXA bone density testing is the most accurate method available for the diagnosis of osteoporosis. It is also considered an accurate estimator of fracture risk. It will not tell whether you will or will not have a fracture, but gives relative risk of suffering a fracture, just as cholesterol and blood pressure help determine risk for heart disease. A low reading should not cause you to be anxious, but may help you set healthy goals. As with other diseases and conditions, early detection is the key to prevention of further bone loss and eventual fractures. DEXA equipment is widely available, making DEXA bone densitometry testing convenient for patients and doctors alike.

Risks:

No complications are expected with the DEXA procedure. Return to BMD FAQ

What are the limitations of DEXA Bone Densitometry?
Despite its effectiveness as a method of measuring bone density, DEXA is of limited use in people with a spinal deformity or those who have had previous spinal surgery. The presence of vertebral compression fractures or osteoarthritis may interfere with the accuracy of the test. CT scans may be more useful in such instances. DEXA cannot predict who will experience a fracture, but can provide indications of relative risk.

Central DEXA devices are more sensitive than pDEXA devices, but they are also somewhat more expensive. The peripheral devices don't accurately follow changes in your bones during therapy. A test done on a peripheral location, such as your heel or wrist, may help predict the risk of fracture in your spine or hip. But because bone mass tends to vary from one location to the other, measuring the heel is not as accurate as measuring the spine or hip. Return to BMD FAQ
 
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Excel Diagnostic Imaging Clinics  •   9701 Richmond Ave., Suite 122  •  Houston, Texas 77042  •  Phone: 713-781-6200  •  Fax: 713-781-6206